The Tactical Networks Group (65) specializes in advanced network and communications systems development, with a focus on rapid prototyping of radical next generation tactical mobile, military airborne communications systems.
The Tactical Networks Group is seeking to hire a wireless communications engineer that will design and analyze next generation communications algorithms for airborne and ground tactical radios. The ideal candidate will have a strong understanding of the fundamentals of wireless communications theory and be able to enhance and/or formulate new decoding, modulation/demodulation, synchronization, and other algorithms to meet the needs of tactical systems. The candidate must be comfortable with performing link analysis such as anti-jam (AJ), low probability of detection/intercept (LPD/LPI), and other analysis. Preference will be given to candidates that have strong analytical and theoretical experience in designing and building wireless communications systems.
Required skills include:
Ph.D. in Electrical Engineering or MS in Electrical or Computer Engineering with 3-5 years experienceStrong understanding of fundamentals of wireless digital communications systems and all PHY processes from data in to baseband I/Q out - Be able to clearly articulate the function of all digital blocks in a typical communications chain (encoders, modulators, correlators, etc.). Preference will be given to candidates who can describe processes analytically and describe the theory of operation for each blockStrong understanding of wireless communications theory (math behind all processing, BER curves, array processing, beamforming, linear algebra, etc.)Strong Matlab analysis skills tailored to wireless digital communicationsExperience designing digital processing blocks
Desired skills include:
Experience implementing signal processing on FPGA (and/or ASIC) - HDL design, meeting timing closure, simulation, tool chainsSystem-level understanding of radio design and development - be able to put together a detailed size, weight, power (SWAP) budget and make tradeoffs in link budget analysisFamiliarity with implementation issues around TRANSEC/COMSEC and DoD radio standardsFamiliarity with RF/analog Front End designs, antennas, filters, mixers, ADC and DACs and the tradeoff between performing Front End functions in analog or digital processing
MIT Lincoln Laboratory is an Equal Employment Opportunity (EEO) employer. All qualified applicants will receive consideration for employment and will not be discriminated against on the basis of race, color, religion, sex, sexual orientation, gender identity, national origin, age, veteran status, disability status, or genetic information; U.S. citizenship is required.