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Senior Software Engineer

DF82F4FEC533913CE59D380DC7829351 · BlueOps (FL) - West Palm Beach, FL 33411; 1468 Skees Road, West Palm Beach, FL, 33411, USA · Hybrid · Active · Paycom ATS

Job facts

Field	Value
Company	DF82F4FEC533913CE59D380DC7829351
Title	Senior Software Engineer
Normalized title	-
Department / team	-
Location	West Palm Beach, FL, United States
Work model	Hybrid / Hybrid
Employment type	-
Salary	-
Status	active
ATS provider	Paycom ATS
Posted / first seen	2026-04-20 / 2026-05-31
Changed / last seen	2026-05-31 / 2026-06-06

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ATS provider jobs	Active postings observed through Paycom ATS.	Open
Provider filtered search	The same provider as a filtered job collection.	Open
City jobs	Active postings in West Palm Beach.	Open
Work model jobs	Active Hybrid postings.	Open
Lifecycle events	Open, update, close, and reopen events for this posting.	Open
Original posting	Canonical source or apply URL captured from the ATS.	Open

Linked records

Company	DF82F4FEC533913CE59D380DC7829351
Source	e4f1eccd-b038-47ec-a09c-02b91cca1ccb
ATS provider	Paycom ATS

Description

Description Position Summary We are seeking a technically rigorous Senior Software Engineer to join a multidisciplinary defense engineering team developing autonomous maritime, airborne, and ground systems. This role spans the full software development lifecycle — from rapid prototype through fielded capability — in direct support of U.S. Navy and other defense programs. The successful candidate will bring deep expertise in custom operator interface (UI/UX) development, protocol translation middleware, embedded compute integration, and autonomous systems software. They will demonstrate practical familiarity with DoD tactical data link architectures including ATAK, WinTAK, CCS, UMAA, and DDS, and will be comfortable working across both application-layer software and low-level embedded firmware in a fast-paced operational engineering environment. Essential Duties and Responsibilities Custom Operator Interface & HUD Development Design and implement custom operator control station (OCS) user interfaces for USV, UAV, and UGV command and control, optimized for tactically relevant situational awareness in degraded environments Develop ATAK (Android Team Awareness Kit) and WinTAK (Wireless Information Network Tactical – Assured Kit) plugins for real-time vehicle telemetry overlay, mission planning, and payload control using the ATAK-CIV and ATAK-MIL SDKs Build heads-up display (HUD) overlays incorporating MAVLink telemetry streams, GPS position, heading, battery state, payload status, and alert annunciation Ensure UI/UX design meets operator usability requirements under field conditions including degraded lighting, gloved operation, and bandwidth-limited radio environments Develop and maintain Cursor-on-Target (CoT) event schemas for vehicle position, sensor contacts, and mission data within ATAK/WinTAK data exchange environments Protocol Translation & Middleware Develop and maintain protocol translation layers bridging MAVLink, DDS/RTPS (Data Distribution Service), NMEA 2000, and proprietary serial, UDP, and TCP interfaces across vehicle and operator nodes Implement UMAA-compliant (Unmanned Maritime Autonomy Architecture) service interfaces to enable interoperable command, control, and data exchange across multi-domain unmanned platforms Integrate CCS (Common Control System) message schemas and ABL (Autonomy Baseline Library) APIs into vehicle software stacks; author and maintain ICDs for all cross-system protocol boundaries Develop gateways and translators between ATAK/WinTAK tactical networks and vehicle-side MAVLink or DDS domains, enabling seamless operator-to-vehicle data flow over tactical radios Design for graceful degradation in contested and congested RF environments; implement link quality monitoring, reconnect logic, and fallback behavior Embedded Systems & Compute Platform Integration Develop, configure, and optimize software for NVIDIA Jetson Orin, Raspberry Pi, and similar embedded single-board computers used as mission computers, autonomy processors, and sensor interface nodes Integrate and configure Pixhawk-based flight/vehicle controllers (ArduPilot, PX4); manage parameter sets, EKF configuration, and failsafe logic tailored for surface vessel dynamics Implement real-time UDP/TCP networking, MAVLink routing, and multicast DDS domain configurations over RF links including LTE, 900 MHz, and mesh radio networks Develop hardware abstraction layers (HAL), device drivers, and software interfaces for custom I/O peripherals, motor controllers, camera payloads, and electronic warfare modules Perform embedded system bring-up, board support package (BSP) customization, and device tree configuration on Linux-based platforms Autonomy & AI/ML Integration Integrate autonomous mission behaviors and vehicle logic using ABL (Autonomy Baseline Library) framework patterns and ROS 2 topic/service/action architectures for USV, UAV, and UGV platforms Develop and integrate AI/ML inference pipelines on Jetson Orin (TensorRT, DeepStream, ONNX Runtime) for object detection, contact classification, and situational awareness derived from EO/IR, radar, and sonar sensor feeds Implement geofencing, loiter, waypoint navigation, station-keeping, and dynamic obstacle avoidance behaviors conforming to UMAA service definitions and ArduPilot companion computer interfaces Support SITL (Software-in-the-Loop) and HITL (Hardware-in-the-Loop) simulation environments (Gazebo, ArduPilot SITL, MAVProxy) for autonomy behavior validation prior to field test Contribute to the development of multi-vehicle coordination logic and swarm tasking architectures for USV and UAV platforms C2 Architecture & Tactical Network Integration Architect and implement vehicle software integration with ATAK and WinTAK ecosystems, including CoT event publishing, plugin lifecycle management, and overlay rendering within ATAK map views Configure and deploy DDS (Data Distribution Service) publish-subscribe middleware across distributed operator and vehicle nodes using RTI Connext, CycloneDDS, or FastDDS Support integration with CCS-compliant operator interfaces for multi-vehicle tasking and mission management, ensuring conformance to UMAA service definitions Participate in interoperability demonstrations and joint exercises with DoD program offices, prime integrators, and allied partner systems Support development of PACE (Primary, Alternate, Contingency, Emergency) communication plans and implementation of fallback C2 paths for contested environments Test & Field Support Plan and execute Software-in-the-Loop (SITL), Hardware-in-the-Loop (HITL), and wet-gap field test campaigns; develop test procedures, collect and reduce data, and produce test reports Deploy to field and maritime environments in support of Navy, Air Force, and joint exercises and operational demonstrations Author and review software test documentation (TEMP, test plans, test reports) in compliance with DoD 5000-series acquisition standards and applicable CDRLs Support instrumentation and telemetry logging setup for post-mission analysis; develop ground truth data collection scripts and automated analysis pipelines Systems Engineering & DevSecOps Maintain software repositories with structured Git branching, peer code review, and CI/CD pipelines (GitHub Actions, Jenkins, or equivalent) Produce and maintain software documentation including architecture diagrams, API references, ICD entries, and operator integration guides compliant with program CDRLs Support RMF (Risk Management Framework) software artifact preparation including SBOM generation, static analysis outputs (SAST/DAST), and vulnerability tracking Apply MBSE concepts to decompose system requirements into software behaviors, interfaces, and data flows; use SysML or equivalent tooling where required by program Mentor junior engineers; contribute to internal reusable library development and software engineering standards Required Qualifications Candidates must meet one of the following thresholds: Ph.D. in Computer Science, Computer Engineering, Electrical Engineering, or a closely related field with 3+ years of relevant professional experience M.S. in Computer Science, Computer Engineering, or related field with 5–8 years of relevant professional experience B.S. in Computer Science, Computer Engineering, or related field with 8+ years of relevant professional experience, including direct unmanned systems or defense software work Demonstrated proficiency in C++ and Python in both real-time embedded and application-layer contexts; experience with memory management, threading, and real-time constraints Demonstrated experience developing custom operator UIs or control station applications (PyQt5/PySide6, C++/Qt, React/Electron, or equivalent), including HUD overlay and map integration work Direct hands-on experience with MAVLink protocol, ArduPilot or PX4 autopilot systems, and companion computer integration patterns Direct experience deploying and developing software on NVIDIA Jetson platforms (Jetson Nano, Xavier NX, or Orin) and/or Raspberry Pi in production or field-test contexts Working knowledge of ROS 2 (topic/service/action patterns, launch files, DDS middleware configuration, lifecycle nodes) Hands-on ATAK plugin development experience (Android Java/Kotlin, ATAK-CIV or ATAK-MIL SDK, CoT event schema), including map overlay and telemetry feed integration Working knowledge of DDS (RTI Connext, CycloneDDS, or FastDDS) publish-subscribe architectures and QoS policy configuration Strong UDP/TCP/IP networking fundamentals; experience designing low-latency data paths over radio-frequency links with variable link quality Experience with Git version control, CI/CD pipelines, and peer code review practices in a team engineering environment Experience supporting military or Government field testing or exercises in a direct technical role Active U.S. Secret clearance (or ability to obtain) Additional Desired Qualifications Familiarity with UMAA (Unmanned Maritime Autonomy Architecture) interface definitions and conformance requirements Experience integrating with CCS (Common Control System) operator interfaces and/or ABL (Autonomy Baseline Library) behavior frameworks WinTAK plugin development or WINTAK tactical network integration experience AI/ML inference pipeline development on edge hardware (TensorRT, ONNX Runtime, PyTorch Mobile) for real-time perception, detection, or classification tasks in maritime or airborne contexts Direct software engineering experience on naval or maritime unmanned systems (USV, AUV, ROV) including surface vessel guidance, navigation, and control (GNC) software Experience with electronic warfare payload software integration, signal processing pipelines, or RF emitter characterization Familiarity with DoD acquisition lifecycle, CDRL deliverables, and Software TRL/MRL assessment Experience with RMF, STIG hardening for Linux/Android embedded platforms, or software supply chain security practices (SBOM, static analysis, dependency scanning) Pixhawk hardware bring-up, parameter tuning for surface vessel dynamics, and custom MAVLink message definition Experience with Gazebo, SITL, or equivalent physics-based simulation environments for autonomous vehicle behavior validation Active TS/SCI clearance Experience applying ITAR, DoD 5000-series, MOSA/WOSA, or similar compliance frameworks to software deliverables Physical Requirements and Working Conditions Must be able to walk, stand, and navigate large indoor and outdoor facilities for extended periods of time. Ability to lift, carry, and move materials and equipment weighing up to 25 lbs on a regular basis. Use of personal protective equipment (PPE) may be required in designated areas or when performing specific tasks, in accordance with safety protocols and company policy. May be required to climb ladders, stoop, kneel, or crouch during inspections, maintenance walk-throughs, or emergency response situations. Regular exposure to facility operations including noise, dust, temperature fluctuations, and industrial equipment. Occasional off-hours or weekend work required for emergency facility responses or projects as needed Requires frequent use of a computer and other standard office equipment for documentation, communication, and coordination tasks. Background Check This position will require successfully completing a post-offer background check. Qualified candidates with a criminal history will be considered and are not automatically disqualified, consistent with federal and state law. EEO and ITAR/EAR Work Authorization Disclosure Red Cat Holdings provides equal employment opportunities (EEO) to all employees and applicants for employment and prohibits discrimination and harassment of any type without regard to race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state or local laws. This position requires direct or indirect access to hardware, software, technology or technical data controlled under the International Traffic in Arms Regulations (ITAR) and the Export Administration Regulations (EAR). Successful candidates for positions subject to ITAR/EAR restrictions must provide proof of U.S. Citizenship or Permanent Residence and must not require sponsorship for export-restricted work authorization. E-Verify The company participates E-Verify ensure eligibility for employment and compliance with Right to Work rules. Compensation: Base pay, plus generous annual equity package and potential bonuses.

Full job record

Job ID	5e21b2d6a491bec7b77afd53a8da91053707e1bc
Org ID	0ba30d0c-7802-468e-8b2f-34b1ccb00b80
Source ID	e4f1eccd-b038-47ec-a09c-02b91cca1ccb
Board ID	e4f1eccd-b038-47ec-a09c-02b91cca1ccb
Provider	paycom
Provider Job Key	331797
Title	Senior Software Engineer
Normalized Title	—
Status	active
Active	yes
Location Text	BlueOps (FL) - West Palm Beach, FL 33411; 1468 Skees Road, West Palm Beach, FL, 33411, USA
Department	—
Team	—
Employment Type	—
Workplace Type	hybrid
Remote Policy	hybrid
Country	United States
Region	FL
City	West Palm Beach
Salary Raw	Description Position Summary We are seeking a technically rigorous Senior Software Engineer to join a multidisciplinary defense engineering team developing autonomous maritime, airborne, and ground systems. This role spans the full software development lifecycle — from rapid prototype through fielded capability — in direct support of U.S. Navy and other defense programs. The successful candidate will bring deep expertise in custom operator interface (UI/UX) development, protocol translation middleware, embedded compute integration, and autonomous systems software. They will demonstrate practical familiarity with DoD tactical data link architectures including ATAK, WinTAK, CCS, UMAA, and DDS, and will be comfortable working across both application-layer software and low-level embedded firmware in a fast-paced operational engineering environment. Essential Duties and Responsibilities Custom Operator Interface & HUD Development Design and implement custom operator control station (OCS) user interfaces for USV, UAV, and UGV command and control, optimized for tactically relevant situational awareness in degraded environments Develop ATAK (Android Team Awareness Kit) and WinTAK (Wireless Information Network Tactical – Assured Kit) plugins for real-time vehicle telemetry overlay, mission planning, and payload control using the ATAK-CIV and ATAK-MIL SDKs Build heads-up display (HUD) overlays incorporating MAVLink telemetry streams, GPS position, heading, battery state, payload status, and alert annunciation Ensure UI/UX design meets operator usability requirements under field conditions including degraded lighting, gloved operation, and bandwidth-limited radio environments Develop and maintain Cursor-on-Target (CoT) event schemas for vehicle position, sensor contacts, and mission data within ATAK/WinTAK data exchange environments Protocol Translation & Middleware Develop and maintain protocol translation layers bridging MAVLink, DDS/RTPS (Data Distribution Service), NMEA 2000, and proprietary serial, UDP, and TCP interfaces across vehicle and operator nodes Implement UMAA-compliant (Unmanned Maritime Autonomy Architecture) service interfaces to enable interoperable command, control, and data exchange across multi-domain unmanned platforms Integrate CCS (Common Control System) message schemas and ABL (Autonomy Baseline Library) APIs into vehicle software stacks; author and maintain ICDs for all cross-system protocol boundaries Develop gateways and translators between ATAK/WinTAK tactical networks and vehicle-side MAVLink or DDS domains, enabling seamless operator-to-vehicle data flow over tactical radios Design for graceful degradation in contested and congested RF environments; implement link quality monitoring, reconnect logic, and fallback behavior Embedded Systems & Compute Platform Integration Develop, configure, and optimize software for NVIDIA Jetson Orin, Raspberry Pi, and similar embedded single-board computers used as mission computers, autonomy processors, and sensor interface nodes Integrate and configure Pixhawk-based flight/vehicle controllers (ArduPilot, PX4); manage parameter sets, EKF configuration, and failsafe logic tailored for surface vessel dynamics Implement real-time UDP/TCP networking, MAVLink routing, and multicast DDS domain configurations over RF links including LTE, 900 MHz, and mesh radio networks Develop hardware abstraction layers (HAL), device drivers, and software interfaces for custom I/O peripherals, motor controllers, camera payloads, and electronic warfare modules Perform embedded system bring-up, board support package (BSP) customization, and device tree configuration on Linux-based platforms Autonomy & AI/ML Integration Integrate autonomous mission behaviors and vehicle logic using ABL (Autonomy Baseline Library) framework patterns and ROS 2 topic/service/action architectures for USV, UAV, and UGV platforms Develop and integrate AI/ML inference pipelines on Jetson Orin (TensorRT, DeepStream, ONNX Runtime) for object detection, contact classification, and situational awareness derived from EO/IR, radar, and sonar sensor feeds Implement geofencing, loiter, waypoint navigation, station-keeping, and dynamic obstacle avoidance behaviors conforming to UMAA service definitions and ArduPilot companion computer interfaces Support SITL (Software-in-the-Loop) and HITL (Hardware-in-the-Loop) simulation environments (Gazebo, ArduPilot SITL, MAVProxy) for autonomy behavior validation prior to field test Contribute to the development of multi-vehicle coordination logic and swarm tasking architectures for USV and UAV platforms C2 Architecture & Tactical Network Integration Architect and implement vehicle software integration with ATAK and WinTAK ecosystems, including CoT event publishing, plugin lifecycle management, and overlay rendering within ATAK map views Configure and deploy DDS (Data Distribution Service) publish-subscribe middleware across distributed operator and vehicle nodes using RTI Connext, CycloneDDS, or FastDDS Support integration with CCS-compliant operator interfaces for multi-vehicle tasking and mission management, ensuring conformance to UMAA service definitions Participate in interoperability demonstrations and joint exercises with DoD program offices, prime integrators, and allied partner systems Support development of PACE (Primary, Alternate, Contingency, Emergency) communication plans and implementation of fallback C2 paths for contested environments Test & Field Support Plan and execute Software-in-the-Loop (SITL), Hardware-in-the-Loop (HITL), and wet-gap field test campaigns; develop test procedures, collect and reduce data, and produce test reports Deploy to field and maritime environments in support of Navy, Air Force, and joint exercises and operational demonstrations Author and review software test documentation (TEMP, test plans, test reports) in compliance with DoD 5000-series acquisition standards and applicable CDRLs Support instrumentation and telemetry logging setup for post-mission analysis; develop ground truth data collection scripts and automated analysis pipelines Systems Engineering & DevSecOps Maintain software repositories with structured Git branching, peer code review, and CI/CD pipelines (GitHub Actions, Jenkins, or equivalent) Produce and maintain software documentation including architecture diagrams, API references, ICD entries, and operator integration guides compliant with program CDRLs Support RMF (Risk Management Framework) software artifact preparation including SBOM generation, static analysis outputs (SAST/DAST), and vulnerability tracking Apply MBSE concepts to decompose system requirements into software behaviors, interfaces, and data flows; use SysML or equivalent tooling where required by program Mentor junior engineers; contribute to internal reusable library development and software engineering standards Required Qualifications Candidates must meet one of the following thresholds: Ph.D. in Computer Science, Computer Engineering, Electrical Engineering, or a closely related field with 3+ years of relevant professional experience M.S. in Computer Science, Computer Engineering, or related field with 5–8 years of relevant professional experience B.S. in Computer Science, Computer Engineering, or related field with 8+ years of relevant professional experience, including direct unmanned systems or defense software work Demonstrated proficiency in C++ and Python in both real-time embedded and application-layer contexts; experience with memory management, threading, and real-time constraints Demonstrated experience developing custom operator UIs or control station applications (PyQt5/PySide6, C++/Qt, React/Electron, or equivalent), including HUD overlay and map integration work Direct hands-on experience with MAVLink protocol, ArduPilot or PX4 autopilot systems, and companion computer integration patterns Direct experience deploying and developing software on NVIDIA Jetson platforms (Jetson Nano, Xavier NX, or Orin) and/or Raspberry Pi in production or field-test contexts Working knowledge of ROS 2 (topic/service/action patterns, launch files, DDS middleware configuration, lifecycle nodes) Hands-on ATAK plugin development experience (Android Java/Kotlin, ATAK-CIV or ATAK-MIL SDK, CoT event schema), including map overlay and telemetry feed integration Working knowledge of DDS (RTI Connext, CycloneDDS, or FastDDS) publish-subscribe architectures and QoS policy configuration Strong UDP/TCP/IP networking fundamentals; experience designing low-latency data paths over radio-frequency links with variable link quality Experience with Git version control, CI/CD pipelines, and peer code review practices in a team engineering environment Experience supporting military or Government field testing or exercises in a direct technical role Active U.S. Secret clearance (or ability to obtain) Additional Desired Qualifications Familiarity with UMAA (Unmanned Maritime Autonomy Architecture) interface definitions and conformance requirements Experience integrating with CCS (Common Control System) operator interfaces and/or ABL (Autonomy Baseline Library) behavior frameworks WinTAK plugin development or WINTAK tactical network integration experience AI/ML inference pipeline development on edge hardware (TensorRT, ONNX Runtime, PyTorch Mobile) for real-time perception, detection, or classification tasks in maritime or airborne contexts Direct software engineering experience on naval or maritime unmanned systems (USV, AUV, ROV) including surface vessel guidance, navigation, and control (GNC) software Experience with electronic warfare payload software integration, signal processing pipelines, or RF emitter characterization Familiarity with DoD acquisition lifecycle, CDRL deliverables, and Software TRL/MRL assessment Experience with RMF, STIG hardening for Linux/Android embedded platforms, or software supply chain security practices (SBOM, static analysis, dependency scanning) Pixhawk hardware bring-up, parameter tuning for surface vessel dynamics, and custom MAVLink message definition Experience with Gazebo, SITL, or equivalent physics-based simulation environments for autonomous vehicle behavior validation Active TS/SCI clearance Experience applying ITAR, DoD 5000-series, MOSA/WOSA, or similar compliance frameworks to software deliverables Physical Requirements and Working Conditions Must be able to walk, stand, and navigate large indoor and outdoor facilities for extended periods of time. Ability to lift, carry, and move materials and equipment weighing up to 25 lbs on a regular basis. Use of personal protective equipment (PPE) may be required in designated areas or when performing specific tasks, in accordance with safety protocols and company policy. May be required to climb ladders, stoop, kneel, or crouch during inspections, maintenance walk-throughs, or emergency response situations. Regular exposure to facility operations including noise, dust, temperature fluctuations, and industrial equipment. Occasional off-hours or weekend work required for emergency facility responses or projects as needed Requires frequent use of a computer and other standard office equipment for documentation, communication, and coordination tasks. Background Check This position will require successfully completing a post-offer background check. Qualified candidates with a criminal history will be considered and are not automatically disqualified, consistent with federal and state law. EEO and ITAR/EAR Work Authorization Disclosure Red Cat Holdings provides equal employment opportunities (EEO) to all employees and applicants for employment and prohibits discrimination and harassment of any type without regard to race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state or local laws. This position requires direct or indirect access to hardware, software, technology or technical data controlled under the International Traffic in Arms Regulations (ITAR) and the Export Administration Regulations (EAR). Successful candidates for positions subject to ITAR/EAR restrictions must provide proof of U.S. Citizenship or Permanent Residence and must not require sponsorship for export-restricted work authorization. E-Verify The company participates E-Verify ensure eligibility for employment and compliance with Right to Work rules. Compensation: Base pay, plus generous annual equity package and potential bonuses.
Salary Min	—
Salary Max	—
Salary Currency	—
Salary Period	—
Source URL	https://www.paycomonline.net/v4/ats/web.php/jobs/ViewJobDetails?job=331797&clientkey=DF82F4FEC533913CE59D380DC7829351
Apply URL	https://www.paycomonline.net/v4/ats/web.php/jobs/ViewJobDetails?job=331797&clientkey=DF82F4FEC533913CE59D380DC7829351
First Seen At	2026-05-31 19:07:33Z
Last Seen At	2026-06-06 09:56:47Z
Last Checked At	2026-06-06 09:56:47Z
Last Changed At	2026-05-31 19:07:33Z
Inactive At	—
Source Posted At	2026-04-20 00:00:00Z
Source Updated At	—
Raw Payload Uri	s3://job-postings-prod-raw-590183727216/raw/provider=paycom/board=DF82F4FEC533913CE59D380DC7829351/date=2026-06-06/2026-06-06T09-56-44-363Z-a0c8d982320da1511638f43850ba561af7715b67f8cc9cc32c31e5762e8ec4eb.json

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    "description": "<h2 style=\"margin-top:8px; margin-bottom:4px; text-indent:-.1pt\"><strong><span style=\"font-size:14pt\"><span style=\"font-family:Arial,sans-serif\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-style:italic\"><span style=\"font-size:11.0pt\"><span style=\"font-style:normal\">Position Summary</span></span></span></span></span></span></span></strong></h2>\r\n\r\n<div align=\"center\" style=\"margin-top:8px; text-align:center; text-indent:-.1pt\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<p style=\"text-indent:0in\"><span style=\"font-size:12pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span arial=\"\" style=\"font-family:\">We are seeking a technically rigorous Senior Software Engineer to join a multidisciplinary defense engineering team developing autonomous maritime, airborne, and ground systems. 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They will demonstrate practical familiarity with DoD tactical data link architectures including ATAK, WinTAK, CCS, UMAA, and DDS, and will be comfortable working across both application-layer software and low-level embedded firmware in a fast-paced operational engineering environment.</span></span></span></span></span></span></p>\r\n\r\n<div align=\"center\" style=\"text-align:center; text-indent:0in\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<h2 style=\"margin-top:8px; margin-bottom:4px; text-indent:-.1pt\"><strong><span style=\"font-size:14pt\"><span style=\"font-family:Arial,sans-serif\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-style:italic\"><span style=\"font-size:11.0pt\"><span style=\"font-style:normal\">Essential Duties and Responsibilities</span></span></span></span></span></span></span></strong></h2>\r\n\r\n<div align=\"center\" style=\"margin-top:8px; text-align:center; text-indent:-.1pt\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<p style=\"margin-top:16px; margin-bottom:11px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Custom Operator Interface &amp; HUD Development</span></span></span></span></span></b></span></span></span></span></span></span></span></p>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Design and implement custom operator control station (OCS) user interfaces for USV, UAV, and UGV command and control, optimized for tactically relevant situational awareness in degraded environments</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Develop ATAK (Android Team Awareness Kit) and WinTAK (Wireless Information Network Tactical &ndash; Assured Kit) plugins for real-time vehicle telemetry overlay, mission planning, and payload control using the ATAK-CIV and ATAK-MIL SDKs</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Build heads-up display (HUD) overlays incorporating MAVLink telemetry streams, GPS position, heading, battery state, payload status, and alert annunciation</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Ensure UI/UX design meets operator usability requirements under field conditions including degraded lighting, gloved operation, and bandwidth-limited radio environments</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Develop and maintain Cursor-on-Target (CoT) event schemas for vehicle position, sensor contacts, and mission data within ATAK/WinTAK data exchange environments</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<p style=\"margin-top:16px; margin-bottom:11px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Protocol Translation &amp; Middleware</span></span></span></span></span></b></span></span></span></span></span></span></span></p>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Develop and maintain protocol translation layers bridging MAVLink, DDS/RTPS (Data Distribution Service), NMEA 2000, and proprietary serial, UDP, and TCP interfaces across vehicle and operator nodes</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Implement UMAA-compliant (Unmanned Maritime Autonomy Architecture) service interfaces to enable interoperable command, control, and data exchange across multi-domain unmanned platforms</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Integrate CCS (Common Control System) message schemas and ABL (Autonomy Baseline Library) APIs into vehicle software stacks; author and maintain ICDs for all cross-system protocol boundaries</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Develop gateways and translators between ATAK/WinTAK tactical networks and vehicle-side MAVLink or DDS domains, enabling seamless operator-to-vehicle data flow over tactical radios</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Design for graceful degradation in contested and congested RF environments; implement link quality monitoring, reconnect logic, and fallback behavior</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<p style=\"margin-top:16px; margin-bottom:11px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Embedded Systems &amp; Compute Platform Integration</span></span></span></span></span></b></span></span></span></span></span></span></span></p>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Develop, configure, and optimize software for NVIDIA Jetson Orin, Raspberry Pi, and similar embedded single-board computers used as mission computers, autonomy processors, and sensor interface nodes</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Integrate and configure Pixhawk-based flight/vehicle controllers (ArduPilot, PX4); manage parameter sets, EKF configuration, and failsafe logic tailored for surface vessel dynamics</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Implement real-time UDP/TCP networking, MAVLink routing, and multicast DDS domain configurations over RF links including LTE, 900 MHz, and mesh radio networks</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Develop hardware abstraction layers (HAL), device drivers, and software interfaces for custom I/O peripherals, motor controllers, camera payloads, and electronic warfare modules</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Perform embedded system bring-up, board support package (BSP) customization, and device tree configuration on Linux-based platforms</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<p style=\"margin-top:16px; margin-bottom:11px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Autonomy &amp; AI/ML Integration</span></span></span></span></span></b></span></span></span></span></span></span></span></p>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Integrate autonomous mission behaviors and vehicle logic using ABL (Autonomy Baseline Library) framework patterns and ROS 2 topic/service/action architectures for USV, UAV, and UGV platforms</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Develop and integrate AI/ML inference pipelines on Jetson Orin (TensorRT, DeepStream, ONNX Runtime) for object detection, contact classification, and situational awareness derived from EO/IR, radar, and sonar sensor feeds</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Implement geofencing, loiter, waypoint navigation, station-keeping, and dynamic obstacle avoidance behaviors conforming to UMAA service definitions and ArduPilot companion computer interfaces</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Support SITL (Software-in-the-Loop) and HITL (Hardware-in-the-Loop) simulation environments (Gazebo, ArduPilot SITL, MAVProxy) for autonomy behavior validation prior to field test</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Contribute to the development of multi-vehicle coordination logic and swarm tasking architectures for USV and UAV platforms</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<p style=\"margin-top:16px; margin-bottom:11px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">C2 Architecture &amp; Tactical Network Integration</span></span></span></span></span></b></span></span></span></span></span></span></span></p>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Architect and implement vehicle software integration with ATAK and WinTAK ecosystems, including CoT event publishing, plugin lifecycle management, and overlay rendering within ATAK map views</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Configure and deploy DDS (Data Distribution Service) publish-subscribe middleware across distributed operator and vehicle nodes using RTI Connext, CycloneDDS, or FastDDS</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Support integration with CCS-compliant operator interfaces for multi-vehicle tasking and mission management, ensuring conformance to UMAA service definitions</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Participate in interoperability demonstrations and joint exercises with DoD program offices, prime integrators, and allied partner systems</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Support development of PACE (Primary, Alternate, Contingency, Emergency) communication plans and implementation of fallback C2 paths for contested environments</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<p style=\"margin-top:16px; margin-bottom:11px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Test &amp; Field Support</span></span></span></span></span></b></span></span></span></span></span></span></span></p>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Plan and execute Software-in-the-Loop (SITL), Hardware-in-the-Loop (HITL), and wet-gap field test campaigns; develop test procedures, collect and reduce data, and produce test reports</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Deploy to field and maritime environments in support of Navy, Air Force, and joint exercises and operational demonstrations</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Author and review software test documentation (TEMP, test plans, test reports) in compliance with DoD 5000-series acquisition standards and applicable CDRLs</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Support instrumentation and telemetry logging setup for post-mission analysis; develop ground truth data collection scripts and automated analysis pipelines</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<p style=\"margin-top:16px; margin-bottom:11px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Systems Engineering &amp; DevSecOps</span></span></span></span></span></b></span></span></span></span></span></span></span></p>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Maintain software repositories with structured Git branching, peer code review, and CI/CD pipelines (GitHub Actions, Jenkins, or equivalent)</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Produce and maintain software documentation including architecture diagrams, API references, ICD entries, and operator integration guides compliant with program CDRLs</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Support RMF (Risk Management Framework) software artifact preparation including SBOM generation, static analysis outputs (SAST/DAST), and vulnerability tracking</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Apply MBSE concepts to decompose system requirements into software behaviors, interfaces, and data flows; use SysML or equivalent tooling where required by program</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Mentor junior engineers; contribute to internal reusable library development and software engineering standards</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<div align=\"center\" style=\"text-align:center; text-indent:0in\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<h2 style=\"margin-top:8px; margin-bottom:4px; text-indent:-.1pt\"><strong><span style=\"font-size:14pt\"><span style=\"font-family:Arial,sans-serif\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-style:italic\"><span style=\"font-size:11.0pt\"><span style=\"font-style:normal\">Required Qualifications</span></span></span></span></span></span></span></strong></h2>\r\n\r\n<div align=\"center\" style=\"margin-top:8px; text-align:center; text-indent:-.1pt\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Candidates must meet one of the following thresholds:</span></span></span></span></span></span></span></span></span></span></span></span></span>\r\n\r\n\t<ul style=\"list-style-type:circle\">\r\n\t\t<li style=\"margin-top:16px; margin-bottom:11px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list 1.0in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Ph.D. in Computer Science, Computer Engineering, Electrical Engineering, or a closely related field with 3+ years of relevant professional experience</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t\t<li style=\"margin-top:16px; margin-bottom:11px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list 1.0in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">M.S. in Computer Science, Computer Engineering, or related field with 5&ndash;8 years of relevant professional experience</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t\t<li style=\"margin-top:16px; margin-bottom:11px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list 1.0in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">B.S. in Computer Science, Computer Engineering, or related field with 8+ years of relevant professional experience, including direct unmanned systems or defense software work</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t</ul>\r\n\t</li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Demonstrated proficiency in C++ and Python in both real-time embedded and application-layer contexts; experience with memory management, threading, and real-time constraints</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Demonstrated experience developing custom operator UIs or control station applications (PyQt5/PySide6, C++/Qt, React/Electron, or equivalent), including HUD overlay and map integration work</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Direct hands-on experience with MAVLink protocol, ArduPilot or PX4 autopilot systems, and companion computer integration patterns</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Direct experience deploying and developing software on NVIDIA Jetson platforms (Jetson Nano, Xavier NX, or Orin) and/or Raspberry Pi in production or field-test contexts</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Working knowledge of ROS 2 (topic/service/action patterns, launch files, DDS middleware configuration, lifecycle nodes)</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Hands-on ATAK plugin development experience (Android Java/Kotlin, ATAK-CIV or ATAK-MIL SDK, CoT event schema), including map overlay and telemetry feed integration</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Working knowledge of DDS (RTI Connext, CycloneDDS, or FastDDS) publish-subscribe architectures and QoS policy configuration</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Strong UDP/TCP/IP networking fundamentals; experience designing low-latency data paths over radio-frequency links with variable link quality</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Experience with Git version control, CI/CD pipelines, and peer code review practices in a team engineering environment</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Experience supporting military or Government field testing or exercises in a direct technical role</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Active U.S. Secret clearance (or ability to obtain)</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<div align=\"center\" style=\"text-align:center; text-indent:0in\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<h2 style=\"margin-top:8px; margin-bottom:4px; text-indent:-.1pt\"><strong><span style=\"font-size:14pt\"><span style=\"font-family:Arial,sans-serif\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-style:italic\"><span style=\"font-size:11.0pt\"><span style=\"font-style:normal\">Additional Desired Qualifications</span></span></span></span></span></span></span></strong></h2>\r\n\r\n<div align=\"center\" style=\"margin-top:8px; text-align:center; text-indent:-.1pt\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Familiarity with UMAA (Unmanned Maritime Autonomy Architecture) interface definitions and conformance requirements</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Experience integrating with CCS (Common Control System) operator interfaces and/or ABL (Autonomy Baseline Library) behavior frameworks</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">WinTAK plugin development or WINTAK tactical network integration experience</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">AI/ML inference pipeline development on edge hardware (TensorRT, ONNX Runtime, PyTorch Mobile) for real-time perception, detection, or classification tasks in maritime or airborne contexts</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Direct software engineering experience on naval or maritime unmanned systems (USV, AUV, ROV) including surface vessel guidance, navigation, and control (GNC) software</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Experience with electronic warfare payload software integration, signal processing pipelines, or RF emitter characterization</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Familiarity with DoD acquisition lifecycle, CDRL deliverables, and Software TRL/MRL assessment</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Experience with RMF, STIG hardening for Linux/Android embedded platforms, or software supply chain security practices (SBOM, static analysis, dependency scanning)</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Pixhawk hardware bring-up, parameter tuning for surface vessel dynamics, and custom MAVLink message definition</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Experience with Gazebo, SITL, or equivalent physics-based simulation environments for autonomous vehicle behavior validation</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Active TS/SCI clearance</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Experience applying ITAR, DoD 5000-series, MOSA/WOSA, or similar compliance frameworks to software deliverables</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<div align=\"center\" style=\"text-align:center; text-indent:0in\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<h2 style=\"margin-top:8px; margin-bottom:4px; text-indent:-.1pt\"><strong><span style=\"font-size:14pt\"><span style=\"font-family:Arial,sans-serif\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-style:italic\"><span style=\"font-size:11.0pt\"><span style=\"font-style:normal\">Physical Requirements and Working Conditions</span></span></span></span></span></span></span></strong></h2>\r\n\r\n<div align=\"center\" style=\"margin-top:8px; text-align:center; text-indent:-.1pt\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<ul style=\"margin-top:16px; margin-bottom:11px\">\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Must be able to walk, stand, and navigate large indoor and outdoor facilities for extended periods of time.</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Ability to lift, carry, and move materials and equipment weighing up to 25 lbs on a regular basis.</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Use of personal protective equipment (PPE) may be required in designated areas or when performing specific tasks, in accordance with safety protocols and company policy.</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">May be required to climb ladders, stoop, kneel, or crouch during inspections, maintenance walk-throughs, or emergency response situations.</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Regular exposure to facility operations including noise, dust, temperature fluctuations, and industrial equipment.</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Occasional off-hours or weekend work required for emergency facility responses or projects as needed</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n\t<li style=\"margin-top:16px; margin-bottom:11px; margin-left:8px\"><span style=\"font-size:12pt\"><span style=\"line-height:115%\"><span style=\"tab-stops:list .5in\"><span style=\"punctuation-wrap:hanging\"><span style=\"text-autospace:ideograph-numeric ideograph-other\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:115%\"><span arial=\"\" style=\"font-family:\"><span style=\"position:relative\"><span style=\"top:0pt\">Requires frequent use of a computer and other standard office equipment for documentation, communication, and coordination tasks.</span></span></span></span></span></span></span></span></span></span></span></span></span></li>\r\n</ul>\r\n\r\n<div align=\"center\" style=\"margin-top:13px; margin-bottom:13px; text-align:center; text-indent:0in\">\r\n<hr align=\"center\" size=\"2\" width=\"100%\" /></div>\r\n\r\n<p style=\"margin-top:13px; margin-bottom:13px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:120%\"><span style=\"tab-stops:538.4pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">Background</span></span></span></b> <b><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">Check</span></span></span></b></span></span></span></span></span></span></p>\r\n\r\n<p style=\"margin-top:13px; margin-bottom:13px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:120%\"><span style=\"tab-stops:538.4pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">This position will require successfully completing a post-offer background check. Qualified candidates with a criminal history will be considered and are not automatically disqualified, consistent with federal and state law.</span></span></span></span></span></span></span></span></span></p>\r\n\r\n<p style=\"margin-top:13px; margin-bottom:13px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:120%\"><span style=\"tab-stops:538.4pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">EEO and ITAR/EAR Work Authorization Disclosure</span></span></span></b></span></span></span></span></span></span></p>\r\n\r\n<p style=\"margin-top:13px; margin-bottom:13px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:120%\"><span style=\"tab-stops:538.4pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">Red Cat Holdings provides equal employment opportunities (EEO) to all employees and applicants for employment and prohibits discrimination and harassment of any type without regard to race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state or local laws. This position requires direct or indirect access to hardware, software, technology or technical data controlled under the International Traffic in Arms Regulations (ITAR) and the Export Administration Regulations (EAR). Successful candidates for positions subject to ITAR/EAR restrictions must provide proof of U.S. Citizenship or Permanent Residence and must not require sponsorship for export-restricted work authorization.</span></span></span></span></span></span></span></span></span></p>\r\n\r\n<p style=\"margin-top:13px; margin-bottom:13px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:120%\"><span style=\"tab-stops:538.4pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><b><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">E-Verify</span></span></span></b></span></span></span></span></span></span></p>\r\n\r\n<p style=\"margin-top:13px; margin-bottom:13px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:120%\"><span style=\"tab-stops:538.4pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">The company participates </span></span></span><a href=\"https://www.e-verify.gov/sites/default/files/everify/posters/EVerifyParticipationPoster.pdf\" style=\"color:blue; text-decoration:underline\"><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">E-Verify</span></span></span></a><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\"> ensure eligibility for employment and compliance with </span></span></span><a href=\"https://www.e-verify.gov/sites/default/files/everify/posters/IER_RightToWorkPoster%20Eng_Es.pdf\" style=\"color:blue; text-decoration:underline\"><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">Right to Work</span></span></span></a><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\"> rules.</span></span></span></span></span></span></span></span></span></p>\r\n\r\n<p style=\"margin-top:13px; margin-bottom:13px; text-indent:0in\"><span style=\"font-size:12pt\"><span style=\"line-height:120%\"><span style=\"tab-stops:538.4pt\"><span new=\"\" roman=\"\" style=\"font-family:\" times=\"\"><span style=\"position:relative\"><span style=\"top:0.5pt\"><span style=\"font-size:11.0pt\"><span style=\"line-height:120%\"><span arial=\"\" style=\"font-family:\">Compensation: Base pay, plus generous annual equity package and potential bonuses.</span></span></span></span></span></span></span></span></span></p>\r\n",
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    "googleJobJson": "{\"@context\":\"https://schema.org/\",\"@type\":\"JobPosting\",\"title\":\"Senior Software Engineer\",\"identifier\":\"J0YV04331797\",\"url\":\"https://www.paycomonline.net/v4/ats/web.php/portal/DF82F4FEC533913CE59D380DC7829351/jobs/331797\",\"image\":\"https://www.paycomonline.net/v4/ats/web.php/application/style/logo?clientkey=DF82F4FEC533913CE59D380DC7829351\",\"datePosted\":\"2026-04-20\",\"description\":\"Job DetailsJob Location: BlueOps (FL) - West Palm Beach, FL 33411Position Summary\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nWe are seeking a technically rigorous Senior Software Engineer to join a multidisciplinary defense engineering team developing autonomous maritime, airborne, and ground systems. This role spans the full software development lifecycle &mdash; from rapid prototype through fielded capability &mdash; in direct support of U.S. Navy and other defense programs.\\r\\n\\r\\nThe successful candidate will bring deep expertise in custom operator interface (UI/UX) development, protocol translation middleware, embedded compute integration, and autonomous systems software. They will demonstrate practical familiarity with DoD tactical data link architectures including ATAK, WinTAK, CCS, UMAA, and DDS, and will be comfortable working across both application-layer software and low-level embedded firmware in a fast-paced operational engineering environment.\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nEssential Duties and Responsibilities\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nCustom Operator Interface &amp; HUD Development\\r\\n\\r\\n\\r\\n\\tDesign and implement custom operator control station (OCS) user interfaces for USV, UAV, and UGV command and control, optimized for tactically relevant situational awareness in degraded environments\\r\\n\\tDevelop ATAK (Android Team Awareness Kit) and WinTAK (Wireless Information Network Tactical &ndash; Assured Kit) plugins for real-time vehicle telemetry overlay, mission planning, and payload control using the ATAK-CIV and ATAK-MIL SDKs\\r\\n\\tBuild heads-up display (HUD) overlays incorporating MAVLink telemetry streams, GPS position, heading, battery state, payload status, and alert annunciation\\r\\n\\tEnsure UI/UX design meets operator usability requirements under field conditions including degraded lighting, gloved operation, and bandwidth-limited radio environments\\r\\n\\tDevelop and maintain Cursor-on-Target (CoT) event schemas for vehicle position, sensor contacts, and mission data within ATAK/WinTAK data exchange environments\\r\\n\\r\\n\\r\\nProtocol Translation &amp; Middleware\\r\\n\\r\\n\\r\\n\\tDevelop and maintain protocol translation layers bridging MAVLink, DDS/RTPS (Data Distribution Service), NMEA 2000, and proprietary serial, UDP, and TCP interfaces across vehicle and operator nodes\\r\\n\\tImplement UMAA-compliant (Unmanned Maritime Autonomy Architecture) service interfaces to enable interoperable command, control, and data exchange across multi-domain unmanned platforms\\r\\n\\tIntegrate CCS (Common Control System) message schemas and ABL (Autonomy Baseline Library) APIs into vehicle software stacks; author and maintain ICDs for all cross-system protocol boundaries\\r\\n\\tDevelop gateways and translators between ATAK/WinTAK tactical networks and vehicle-side MAVLink or DDS domains, enabling seamless operator-to-vehicle data flow over tactical radios\\r\\n\\tDesign for graceful degradation in contested and congested RF environments; implement link quality monitoring, reconnect logic, and fallback behavior\\r\\n\\r\\n\\r\\nEmbedded Systems &amp; Compute Platform Integration\\r\\n\\r\\n\\r\\n\\tDevelop, configure, and optimize software for NVIDIA Jetson Orin, Raspberry Pi, and similar embedded single-board computers used as mission computers, autonomy processors, and sensor interface nodes\\r\\n\\tIntegrate and configure Pixhawk-based flight/vehicle controllers (ArduPilot, PX4); manage parameter sets, EKF configuration, and failsafe logic tailored for surface vessel dynamics\\r\\n\\tImplement real-time UDP/TCP networking, MAVLink routing, and multicast DDS domain configurations over RF links including LTE, 900 MHz, and mesh radio networks\\r\\n\\tDevelop hardware abstraction layers (HAL), device drivers, and software interfaces for custom I/O peripherals, motor controllers, camera payloads, and electronic warfare modules\\r\\n\\tPerform embedded system bring-up, board support package (BSP) customization, and device tree configuration on Linux-based platforms\\r\\n\\r\\n\\r\\nAutonomy &amp; AI/ML Integration\\r\\n\\r\\n\\r\\n\\tIntegrate autonomous mission behaviors and vehicle logic using ABL (Autonomy Baseline Library) framework patterns and ROS 2 topic/service/action architectures for USV, UAV, and UGV platforms\\r\\n\\tDevelop and integrate AI/ML inference pipelines on Jetson Orin (TensorRT, DeepStream, ONNX Runtime) for object detection, contact classification, and situational awareness derived from EO/IR, radar, and sonar sensor feeds\\r\\n\\tImplement geofencing, loiter, waypoint navigation, station-keeping, and dynamic obstacle avoidance behaviors conforming to UMAA service definitions and ArduPilot companion computer interfaces\\r\\n\\tSupport SITL (Software-in-the-Loop) and HITL (Hardware-in-the-Loop) simulation environments (Gazebo, ArduPilot SITL, MAVProxy) for autonomy behavior validation prior to field test\\r\\n\\tContribute to the development of multi-vehicle coordination logic and swarm tasking architectures for USV and UAV platforms\\r\\n\\r\\n\\r\\nC2 Architecture &amp; Tactical Network Integration\\r\\n\\r\\n\\r\\n\\tArchitect and implement vehicle software integration with ATAK and WinTAK ecosystems, including CoT event publishing, plugin lifecycle management, and overlay rendering within ATAK map views\\r\\n\\tConfigure and deploy DDS (Data Distribution Service) publish-subscribe middleware across distributed operator and vehicle nodes using RTI Connext, CycloneDDS, or FastDDS\\r\\n\\tSupport integration with CCS-compliant operator interfaces for multi-vehicle tasking and mission management, ensuring conformance to UMAA service definitions\\r\\n\\tParticipate in interoperability demonstrations and joint exercises with DoD program offices, prime integrators, and allied partner systems\\r\\n\\tSupport development of PACE (Primary, Alternate, Contingency, Emergency) communication plans and implementation of fallback C2 paths for contested environments\\r\\n\\r\\n\\r\\nTest &amp; Field Support\\r\\n\\r\\n\\r\\n\\tPlan and execute Software-in-the-Loop (SITL), Hardware-in-the-Loop (HITL), and wet-gap field test campaigns; develop test procedures, collect and reduce data, and produce test reports\\r\\n\\tDeploy to field and maritime environments in support of Navy, Air Force, and joint exercises and operational demonstrations\\r\\n\\tAuthor and review software test documentation (TEMP, test plans, test reports) in compliance with DoD 5000-series acquisition standards and applicable CDRLs\\r\\n\\tSupport instrumentation and telemetry logging setup for post-mission analysis; develop ground truth data collection scripts and automated analysis pipelines\\r\\n\\r\\n\\r\\nSystems Engineering &amp; DevSecOps\\r\\n\\r\\n\\r\\n\\tMaintain software repositories with structured Git branching, peer code review, and CI/CD pipelines (GitHub Actions, Jenkins, or equivalent)\\r\\n\\tProduce and maintain software documentation including architecture diagrams, API references, ICD entries, and operator integration guides compliant with program CDRLs\\r\\n\\tSupport RMF (Risk Management Framework) software artifact preparation including SBOM generation, static analysis outputs (SAST/DAST), and vulnerability tracking\\r\\n\\tApply MBSE concepts to decompose system requirements into software behaviors, interfaces, and data flows; use SysML or equivalent tooling where required by program\\r\\n\\tMentor junior engineers; contribute to internal reusable library development and software engineering standards\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nRequired Qualifications\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\tCandidates must meet one of the following thresholds:\\r\\n\\r\\n\\t\\r\\n\\t\\tPh.D. in Computer Science, Computer Engineering, Electrical Engineering, or a closely related field with 3+ years of relevant professional experience\\r\\n\\t\\tM.S. in Computer Science, Computer Engineering, or related field with 5&ndash;8 years of relevant professional experience\\r\\n\\t\\tB.S. in Computer Science, Computer Engineering, or related field with 8+ years of relevant professional experience, including direct unmanned systems or defense software work\\r\\n\\t\\r\\n\\t\\r\\n\\tDemonstrated proficiency in C++ and Python in both real-time embedded and application-layer contexts; experience with memory management, threading, and real-time constraints\\r\\n\\tDemonstrated experience developing custom operator UIs or control station applications (PyQt5/PySide6, C++/Qt, React/Electron, or equivalent), including HUD overlay and map integration work\\r\\n\\tDirect hands-on experience with MAVLink protocol, ArduPilot or PX4 autopilot systems, and companion computer integration patterns\\r\\n\\tDirect experience deploying and developing software on NVIDIA Jetson platforms (Jetson Nano, Xavier NX, or Orin) and/or Raspberry Pi in production or field-test contexts\\r\\n\\tWorking knowledge of ROS 2 (topic/service/action patterns, launch files, DDS middleware configuration, lifecycle nodes)\\r\\n\\tHands-on ATAK plugin development experience (Android Java/Kotlin, ATAK-CIV or ATAK-MIL SDK, CoT event schema), including map overlay and telemetry feed integration\\r\\n\\tWorking knowledge of DDS (RTI Connext, CycloneDDS, or FastDDS) publish-subscribe architectures and QoS policy configuration\\r\\n\\tStrong UDP/TCP/IP networking fundamentals; experience designing low-latency data paths over radio-frequency links with variable link quality\\r\\n\\tExperience with Git version control, CI/CD pipelines, and peer code review practices in a team engineering environment\\r\\n\\tExperience supporting military or Government field testing or exercises in a direct technical role\\r\\n\\tActive U.S. Secret clearance (or ability to obtain)\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nAdditional Desired Qualifications\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\tFamiliarity with UMAA (Unmanned Maritime Autonomy Architecture) interface definitions and conformance requirements\\r\\n\\tExperience integrating with CCS (Common Control System) operator interfaces and/or ABL (Autonomy Baseline Library) behavior frameworks\\r\\n\\tWinTAK plugin development or WINTAK tactical network integration experience\\r\\n\\tAI/ML inference pipeline development on edge hardware (TensorRT, ONNX Runtime, PyTorch Mobile) for real-time perception, detection, or classification tasks in maritime or airborne contexts\\r\\n\\tDirect software engineering experience on naval or maritime unmanned systems (USV, AUV, ROV) including surface vessel guidance, navigation, and control (GNC) software\\r\\n\\tExperience with electronic warfare payload software integration, signal processing pipelines, or RF emitter characterization\\r\\n\\tFamiliarity with DoD acquisition lifecycle, CDRL deliverables, and Software TRL/MRL assessment\\r\\n\\tExperience with RMF, STIG hardening for Linux/Android embedded platforms, or software supply chain security practices (SBOM, static analysis, dependency scanning)\\r\\n\\tPixhawk hardware bring-up, parameter tuning for surface vessel dynamics, and custom MAVLink message definition\\r\\n\\tExperience with Gazebo, SITL, or equivalent physics-based simulation environments for autonomous vehicle behavior validation\\r\\n\\tActive TS/SCI clearance\\r\\n\\tExperience applying ITAR, DoD 5000-series, MOSA/WOSA, or similar compliance frameworks to software deliverables\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nPhysical Requirements and Working Conditions\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\tMust be able to walk, stand, and navigate large indoor and outdoor facilities for extended periods of time.\\r\\n\\tAbility to lift, carry, and move materials and equipment weighing up to 25 lbs on a regular basis.\\r\\n\\tUse of personal protective equipment (PPE) may be required in designated areas or when performing specific tasks, in accordance with safety protocols and company policy.\\r\\n\\tMay be required to climb ladders, stoop, kneel, or crouch during inspections, maintenance walk-throughs, or emergency response situations.\\r\\n\\tRegular exposure to facility operations including noise, dust, temperature fluctuations, and industrial equipment.\\r\\n\\tOccasional off-hours or weekend work required for emergency facility responses or projects as needed\\r\\n\\tRequires frequent use of a computer and other standard office equipment for documentation, communication, and coordination tasks.\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nBackground Check\\r\\n\\r\\nThis position will require successfully completing a post-offer background check. Qualified candidates with a criminal history will be considered and are not automatically disqualified, consistent with federal and state law.\\r\\n\\r\\nEEO and ITAR/EAR Work Authorization Disclosure\\r\\n\\r\\nRed Cat Holdings provides equal employment opportunities (EEO) to all employees and applicants for employment and prohibits discrimination and harassment of any type without regard to race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state or local laws. This position requires direct or indirect access to hardware, software, technology or technical data controlled under the International Traffic in Arms Regulations (ITAR) and the Export Administration Regulations (EAR). Successful candidates for positions subject to ITAR/EAR restrictions must provide proof of U.S. Citizenship or Permanent Residence and must not require sponsorship for export-restricted work authorization.\\r\\n\\r\\nE-Verify\\r\\n\\r\\nThe company participates E-Verify ensure eligibility for employment and compliance with Right to Work rules.\\r\\n\\r\\nCompensation: Base pay, plus generous annual equity package and potential bonuses.\\r\\nQualifications\",\"responsibilities\":\"Position Summary\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nWe are seeking a technically rigorous Senior Software Engineer to join a multidisciplinary defense engineering team developing autonomous maritime, airborne, and ground systems. This role spans the full software development lifecycle &mdash; from rapid prototype through fielded capability &mdash; in direct support of U.S. Navy and other defense programs.\\r\\n\\r\\nThe successful candidate will bring deep expertise in custom operator interface (UI/UX) development, protocol translation middleware, embedded compute integration, and autonomous systems software. They will demonstrate practical familiarity with DoD tactical data link architectures including ATAK, WinTAK, CCS, UMAA, and DDS, and will be comfortable working across both application-layer software and low-level embedded firmware in a fast-paced operational engineering environment.\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nEssential Duties and Responsibilities\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nCustom Operator Interface &amp; HUD Development\\r\\n\\r\\n\\r\\n\\tDesign and implement custom operator control station (OCS) user interfaces for USV, UAV, and UGV command and control, optimized for tactically relevant situational awareness in degraded environments\\r\\n\\tDevelop ATAK (Android Team Awareness Kit) and WinTAK (Wireless Information Network Tactical &ndash; Assured Kit) plugins for real-time vehicle telemetry overlay, mission planning, and payload control using the ATAK-CIV and ATAK-MIL SDKs\\r\\n\\tBuild heads-up display (HUD) overlays incorporating MAVLink telemetry streams, GPS position, heading, battery state, payload status, and alert annunciation\\r\\n\\tEnsure UI/UX design meets operator usability requirements under field conditions including degraded lighting, gloved operation, and bandwidth-limited radio environments\\r\\n\\tDevelop and maintain Cursor-on-Target (CoT) event schemas for vehicle position, sensor contacts, and mission data within ATAK/WinTAK data exchange environments\\r\\n\\r\\n\\r\\nProtocol Translation &amp; Middleware\\r\\n\\r\\n\\r\\n\\tDevelop and maintain protocol translation layers bridging MAVLink, DDS/RTPS (Data Distribution Service), NMEA 2000, and proprietary serial, UDP, and TCP interfaces across vehicle and operator nodes\\r\\n\\tImplement UMAA-compliant (Unmanned Maritime Autonomy Architecture) service interfaces to enable interoperable command, control, and data exchange across multi-domain unmanned platforms\\r\\n\\tIntegrate CCS (Common Control System) message schemas and ABL (Autonomy Baseline Library) APIs into vehicle software stacks; author and maintain ICDs for all cross-system protocol boundaries\\r\\n\\tDevelop gateways and translators between ATAK/WinTAK tactical networks and vehicle-side MAVLink or DDS domains, enabling seamless operator-to-vehicle data flow over tactical radios\\r\\n\\tDesign for graceful degradation in contested and congested RF environments; implement link quality monitoring, reconnect logic, and fallback behavior\\r\\n\\r\\n\\r\\nEmbedded Systems &amp; Compute Platform Integration\\r\\n\\r\\n\\r\\n\\tDevelop, configure, and optimize software for NVIDIA Jetson Orin, Raspberry Pi, and similar embedded single-board computers used as mission computers, autonomy processors, and sensor interface nodes\\r\\n\\tIntegrate and configure Pixhawk-based flight/vehicle controllers (ArduPilot, PX4); manage parameter sets, EKF configuration, and failsafe logic tailored for surface vessel dynamics\\r\\n\\tImplement real-time UDP/TCP networking, MAVLink routing, and multicast DDS domain configurations over RF links including LTE, 900 MHz, and mesh radio networks\\r\\n\\tDevelop hardware abstraction layers (HAL), device drivers, and software interfaces for custom I/O peripherals, motor controllers, camera payloads, and electronic warfare modules\\r\\n\\tPerform embedded system bring-up, board support package (BSP) customization, and device tree configuration on Linux-based platforms\\r\\n\\r\\n\\r\\nAutonomy &amp; AI/ML Integration\\r\\n\\r\\n\\r\\n\\tIntegrate autonomous mission behaviors and vehicle logic using ABL (Autonomy Baseline Library) framework patterns and ROS 2 topic/service/action architectures for USV, UAV, and UGV platforms\\r\\n\\tDevelop and integrate AI/ML inference pipelines on Jetson Orin (TensorRT, DeepStream, ONNX Runtime) for object detection, contact classification, and situational awareness derived from EO/IR, radar, and sonar sensor feeds\\r\\n\\tImplement geofencing, loiter, waypoint navigation, station-keeping, and dynamic obstacle avoidance behaviors conforming to UMAA service definitions and ArduPilot companion computer interfaces\\r\\n\\tSupport SITL (Software-in-the-Loop) and HITL (Hardware-in-the-Loop) simulation environments (Gazebo, ArduPilot SITL, MAVProxy) for autonomy behavior validation prior to field test\\r\\n\\tContribute to the development of multi-vehicle coordination logic and swarm tasking architectures for USV and UAV platforms\\r\\n\\r\\n\\r\\nC2 Architecture &amp; Tactical Network Integration\\r\\n\\r\\n\\r\\n\\tArchitect and implement vehicle software integration with ATAK and WinTAK ecosystems, including CoT event publishing, plugin lifecycle management, and overlay rendering within ATAK map views\\r\\n\\tConfigure and deploy DDS (Data Distribution Service) publish-subscribe middleware across distributed operator and vehicle nodes using RTI Connext, CycloneDDS, or FastDDS\\r\\n\\tSupport integration with CCS-compliant operator interfaces for multi-vehicle tasking and mission management, ensuring conformance to UMAA service definitions\\r\\n\\tParticipate in interoperability demonstrations and joint exercises with DoD program offices, prime integrators, and allied partner systems\\r\\n\\tSupport development of PACE (Primary, Alternate, Contingency, Emergency) communication plans and implementation of fallback C2 paths for contested environments\\r\\n\\r\\n\\r\\nTest &amp; Field Support\\r\\n\\r\\n\\r\\n\\tPlan and execute Software-in-the-Loop (SITL), Hardware-in-the-Loop (HITL), and wet-gap field test campaigns; develop test procedures, collect and reduce data, and produce test reports\\r\\n\\tDeploy to field and maritime environments in support of Navy, Air Force, and joint exercises and operational demonstrations\\r\\n\\tAuthor and review software test documentation (TEMP, test plans, test reports) in compliance with DoD 5000-series acquisition standards and applicable CDRLs\\r\\n\\tSupport instrumentation and telemetry logging setup for post-mission analysis; develop ground truth data collection scripts and automated analysis pipelines\\r\\n\\r\\n\\r\\nSystems Engineering &amp; DevSecOps\\r\\n\\r\\n\\r\\n\\tMaintain software repositories with structured Git branching, peer code review, and CI/CD pipelines (GitHub Actions, Jenkins, or equivalent)\\r\\n\\tProduce and maintain software documentation including architecture diagrams, API references, ICD entries, and operator integration guides compliant with program CDRLs\\r\\n\\tSupport RMF (Risk Management Framework) software artifact preparation including SBOM generation, static analysis outputs (SAST/DAST), and vulnerability tracking\\r\\n\\tApply MBSE concepts to decompose system requirements into software behaviors, interfaces, and data flows; use SysML or equivalent tooling where required by program\\r\\n\\tMentor junior engineers; contribute to internal reusable library development and software engineering standards\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nRequired Qualifications\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\tCandidates must meet one of the following thresholds:\\r\\n\\r\\n\\t\\r\\n\\t\\tPh.D. in Computer Science, Computer Engineering, Electrical Engineering, or a closely related field with 3+ years of relevant professional experience\\r\\n\\t\\tM.S. in Computer Science, Computer Engineering, or related field with 5&ndash;8 years of relevant professional experience\\r\\n\\t\\tB.S. in Computer Science, Computer Engineering, or related field with 8+ years of relevant professional experience, including direct unmanned systems or defense software work\\r\\n\\t\\r\\n\\t\\r\\n\\tDemonstrated proficiency in C++ and Python in both real-time embedded and application-layer contexts; experience with memory management, threading, and real-time constraints\\r\\n\\tDemonstrated experience developing custom operator UIs or control station applications (PyQt5/PySide6, C++/Qt, React/Electron, or equivalent), including HUD overlay and map integration work\\r\\n\\tDirect hands-on experience with MAVLink protocol, ArduPilot or PX4 autopilot systems, and companion computer integration patterns\\r\\n\\tDirect experience deploying and developing software on NVIDIA Jetson platforms (Jetson Nano, Xavier NX, or Orin) and/or Raspberry Pi in production or field-test contexts\\r\\n\\tWorking knowledge of ROS 2 (topic/service/action patterns, launch files, DDS middleware configuration, lifecycle nodes)\\r\\n\\tHands-on ATAK plugin development experience (Android Java/Kotlin, ATAK-CIV or ATAK-MIL SDK, CoT event schema), including map overlay and telemetry feed integration\\r\\n\\tWorking knowledge of DDS (RTI Connext, CycloneDDS, or FastDDS) publish-subscribe architectures and QoS policy configuration\\r\\n\\tStrong UDP/TCP/IP networking fundamentals; experience designing low-latency data paths over radio-frequency links with variable link quality\\r\\n\\tExperience with Git version control, CI/CD pipelines, and peer code review practices in a team engineering environment\\r\\n\\tExperience supporting military or Government field testing or exercises in a direct technical role\\r\\n\\tActive U.S. Secret clearance (or ability to obtain)\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nAdditional Desired Qualifications\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\tFamiliarity with UMAA (Unmanned Maritime Autonomy Architecture) interface definitions and conformance requirements\\r\\n\\tExperience integrating with CCS (Common Control System) operator interfaces and/or ABL (Autonomy Baseline Library) behavior frameworks\\r\\n\\tWinTAK plugin development or WINTAK tactical network integration experience\\r\\n\\tAI/ML inference pipeline development on edge hardware (TensorRT, ONNX Runtime, PyTorch Mobile) for real-time perception, detection, or classification tasks in maritime or airborne contexts\\r\\n\\tDirect software engineering experience on naval or maritime unmanned systems (USV, AUV, ROV) including surface vessel guidance, navigation, and control (GNC) software\\r\\n\\tExperience with electronic warfare payload software integration, signal processing pipelines, or RF emitter characterization\\r\\n\\tFamiliarity with DoD acquisition lifecycle, CDRL deliverables, and Software TRL/MRL assessment\\r\\n\\tExperience with RMF, STIG hardening for Linux/Android embedded platforms, or software supply chain security practices (SBOM, static analysis, dependency scanning)\\r\\n\\tPixhawk hardware bring-up, parameter tuning for surface vessel dynamics, and custom MAVLink message definition\\r\\n\\tExperience with Gazebo, SITL, or equivalent physics-based simulation environments for autonomous vehicle behavior validation\\r\\n\\tActive TS/SCI clearance\\r\\n\\tExperience applying ITAR, DoD 5000-series, MOSA/WOSA, or similar compliance frameworks to software deliverables\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nPhysical Requirements and Working Conditions\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\tMust be able to walk, stand, and navigate large indoor and outdoor facilities for extended periods of time.\\r\\n\\tAbility to lift, carry, and move materials and equipment weighing up to 25 lbs on a regular basis.\\r\\n\\tUse of personal protective equipment (PPE) may be required in designated areas or when performing specific tasks, in accordance with safety protocols and company policy.\\r\\n\\tMay be required to climb ladders, stoop, kneel, or crouch during inspections, maintenance walk-throughs, or emergency response situations.\\r\\n\\tRegular exposure to facility operations including noise, dust, temperature fluctuations, and industrial equipment.\\r\\n\\tOccasional off-hours or weekend work required for emergency facility responses or projects as needed\\r\\n\\tRequires frequent use of a computer and other standard office equipment for documentation, communication, and coordination tasks.\\r\\n\\r\\n\\r\\n\\r\\n\\r\\n\\r\\nBackground Check\\r\\n\\r\\nThis position will require successfully completing a post-offer background check. Qualified candidates with a criminal history will be considered and are not automatically disqualified, consistent with federal and state law.\\r\\n\\r\\nEEO and ITAR/EAR Work Authorization Disclosure\\r\\n\\r\\nRed Cat Holdings provides equal employment opportunities (EEO) to all employees and applicants for employment and prohibits discrimination and harassment of any type without regard to race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state or local laws. This position requires direct or indirect access to hardware, software, technology or technical data controlled under the International Traffic in Arms Regulations (ITAR) and the Export Administration Regulations (EAR). Successful candidates for positions subject to ITAR/EAR restrictions must provide proof of U.S. Citizenship or Permanent Residence and must not require sponsorship for export-restricted work authorization.\\r\\n\\r\\nE-Verify\\r\\n\\r\\nThe company participates E-Verify ensure eligibility for employment and compliance with Right to Work rules.\\r\\n\\r\\nCompensation: Base pay, plus generous annual equity package and potential bonuses.\\r\\n\",\"employmentType\":\"OTHER\",\"hiringOrganization\":{\"@type\":\"Organization\",\"name\":\"RED CAT HOLDINGS\",\"logo\":\"https://www.paycomonline.net/v4/ats/web.php/application/style/logo?clientkey=DF82F4FEC533913CE59D380DC7829351\"},\"jobLocation\":{\"@type\":\"Place\",\"address\":{\"streetAddress\":\"1468 Skees Road\",\"addressLocality\":\"West Palm Beach\",\"addressRegion\":\"FL\",\"postalCode\":33411,\"addressCountry\":\"USA\"}},\"validThrough\":\"-0001-11-30\"}",
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