Advanced RF systems engineering for mission-critical defense applications. From signal intelligence to electronic warfare — engineered for the spectrum battlespace.
End-to-end spectrum dominance across electronic warfare, signal intelligence, and advanced communications domains.
Full-spectrum RF hardware design from architecture to prototype. Covering antenna arrays, transceiver chains, and high-frequency PCB layout for defense-grade environments.
Real-time digital signal processing algorithm development for radar, EW, and SIGINT applications. FPGA-optimized pipelines with sub-microsecond processing latency.
Software-defined radio platform development and integration. Rapid prototyping of waveforms and protocols using GNU Radio, MATLAB, and custom embedded SDR frameworks.
EW system design including jamming, spoofing countermeasures, and radar cross-section analysis. SIGINT collection and emitter identification for defense intelligence operations.
A vertically integrated development approach — from concept to fielded system — with uncompromising performance at every layer.
Custom RF front-end design, RFIC selection, PCB layout through to full system integration and environmental qualification per MIL-STD-810.
Real-time signal processing on Xilinx RFSoC and Intel Agilex platforms. Deterministic latency pipelines with hardware-in-the-loop verification.
Python, C++ and MATLAB-based DSP algorithm development. Rapid waveform prototyping and deployment to embedded targets via model-based design.
Comprehensive RF test coverage including signal integrity, EMC, and over-the-air performance verification in controlled and operational environments.
Purpose-built RF systems for the modern electromagnetic battlespace. Each solution engineered for reliability in contested environments.
High-dynamic-range wideband receiver for SIGINT and spectrum monitoring applications. Continuous coverage from 100 MHz to 18 GHz.
Compact, high-power jamming module designed for platform integration. Modular architecture enables rapid adaptation to evolving threat environments.
Compact FMCW radar for short-to-medium range surveillance. High-resolution range-Doppler processing with CFAR target detection and tracking.
Whether you need a systems engineering partner, a bespoke RF solution, or deep DSP algorithm expertise — we operate at the intersection of rigorous engineering and rapid development.