Lead Wireless Communications Engineer at MITRE
Massachusetts (MA), Virginia (VA), California (CA), Massachusetts (MA), Virginia (VA), California (CA), USA -
Full Time


Start Date

Immediate

Expiry Date

23 Aug, 26

Salary

234600.0

Posted On

30 Jun, 26

Experience

6 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

No

Skills

• Possess an active Top-Secret clearance. • Masters or PhD degree in Electrical Engineering, Computer Engineering, or related discipline. • C++, Python, MATLAB, or other modeling tools, data analysis, field and lab testing equipment. • Experience writing VHDL or Verilog for FPGAs. • Excellent communication, presentation, and writing skills.

Industry

Telecommunications

Description
MITRE’s Technology & Engineering Organization has an excellent opportunity to be part of a dynamic technical team having a substantial impact on the design and development of communications systems in support of various U.S. Government agencies, including the Department of Defense, the Intelligence Community, the Department of Homeland Security, the Federal Aviation Administration, and others. Our sponsors rely on a wide range of wireless communications systems, including commercial radios, cellular technologies, satellite communications, tactical data links, and other mission-critical systems. We assess, design, analyze, prototype, and test advanced communications technologies to further the public good. Join our team and apply your technical expertise by developing, applying, prototyping and testing state-of-the-art digital communications technologies, such as: Communication systems; Development of Airborne, Tactical, and Satellite Communications terminals; Development of Beyond Line of Sight (BLOS) communications terminals in HF and VLF frequencies.

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Responsibilities
• Support communications systems development and analysis by designing and analyzing innovative waveform components such as synchronization, forward error correction, spread spectrum technologies, medium access control, channel equalization, interference cancellation, etc. • Document and provide recommendations for improvements to communication systems including areas such as system resilience, networking, electronic warfare, capacity, etc. • Perform modeling and simulation activities of communication systems. • Design and verify real-time signal processing modules for an FPGA implementation of next generation military communication receivers. • Use software defined radios to implement communication protocols and perform signal analysis. • Investigate optimal quantization strategies for digital receivers in the presence of adverse channel conditions. • Develop code to interact with custom hardware peripherals to provide status and control interfaces to higher-level software on a complex SoC prototype.
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