You will be the primary architect of resilient communication links for autonomous platforms, ensuring command and control integrity in harsh electronic warfare environments.
Design and implement the complete communication software stack for unmanned systems, from physical layer waveform manipulation to network layer routing.
Develop and integrate anti-jamming techniques, frequency hopping spread spectrum (FHSS), and low-probability-of-detection (LPD) protocols.
Architect high-reliability data links tailored for the unique constraints of small-form-factor UAS (Unmanned Aerial Systems) operating in contested airspace.
Write high-performance, real-time C++ code to handle high-speed data transmission and error correction algorithms (FEC).
Collaborate with hardware engineers to select and tune front-end components, ensuring the software stack is perfectly calibrated to the physical RF environment.
Research and implement adaptive filtering and cognitive radio techniques to bypass active electronic countermeasures.
Conduct rigorous bench testing and field trials to validate link stability against simulated near-peer electronic warfare threats.
Strong proficiency in C++ and a deep understanding of embedded systems, real-time operating systems (RTOS), and Linux networking.
A professional background in Electronics Engineering with a specific focus on communication systems and digital signal processing (DSP).
Practical experience with the OSI model, specifically how it applies to radio-based mesh networks and point-to-point links.
Deep understanding of digital modulation schemes (OFDM, DSSS, GFSK) and the underlying physics of RF propagation.
The ability to debug complex timing issues and signal degradation at the hardware/software boundary.
Experience building or maintaining long-range, encrypted data links for robotic platforms.
Extensive experience with platforms like USRP or LimeSDR and frameworks like GNU Radio.
Background in military-grade communication standards (e.g., Link 16, MANET) or secure satellite communications.
Strong mathematical grounding in channel capacity, noise floors, and signal-to-interference-plus-noise ratio (SINR) optimisation.
Experience with custom protocol design for low-bandwidth, high-latency environments.
Familiarity with cryptographic standards for securing over-the-air transmissions.
Knowledge of MIMO (Multiple Input, Multiple Output) antenna systems and beam-forming.
Interest in the intersection of Al/ML and cognitive radio for automated interference avoidance.
STARK is a defense technology company that designs, develops, and manufactures high-performance unmanned systems to enhance the deployment of autonomous technologies across various domains. Our focus is on delivering software-defined, mass-scalable, and cost-effective solutions that give NATO Allies a decisive advantage in contested environments, addressing today's rising threats.
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