Communications Engineer - GTRI - ICL
Listed on 2026-06-26
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IT/Tech
Systems Engineer, AI Engineer (Applied/Software), Telecoms Engineering
Overview
The Georgia Tech Research Institute (GTRI) is the nonprofit, applied research division of the Georgia Institute of Technology (Georgia Tech). Founded in 1934 as the Engineering Experiment Station, GTRI has grown to more than 2,900 employees, supporting eight laboratories in over 20 locations around the country and performing more than $940 million of problem‑solving research annually for government and industry. GTRI's renowned researchers combine science, engineering, economics, policy, and technical expertise to solve complex problems for the U.S. federal government, state, and industry.
GeorgiaTech's Mission and Values
Georgia Tech's mission is to develop leaders who advance technology and improve the human condition. The Institute has nine key values that are foundational to everything we do:
- Students are our top priority.
- We strive for excellence.
- We thrive on diversity.
- We celebrate collaboration.
- We champion innovation.
- We safeguard freedom of inquiry and expression.
- We nurture the wellbeing of our community.
- We act ethically.
- We are responsible stewards.
Over the next decade, Georgia Tech will become an example of inclusive innovation, a leading technological research university of unmatched scale, relentlessly committed to serving the public good; breaking new ground in addressing the biggest local, national, and global challenges and opportunities of our time; making technology broadly accessible; and developing exceptional, principled leaders from all backgrounds ready to produce novel ideas and create solutions with real human impact.
Project/UnitDescription
The Information and Communications Laboratory (ICL) Communications Systems and Spectrum Division (CSSD) Advanced Communication Systems Branch (ACSB) is looking for Communication Engineers who are eager and capable of researching and supporting the development of platforms supporting innovative adaptive communications and spectrum‑sensing systems across a broad range of spectrum and are looking for a dynamic and challenging work environment.
The Division's projects fuse advanced signal processing, adaptive communications technologies, advanced algorithms, machine learning, and sophisticated modeling and simulation to perform research and develop solutions for systems that include cognitive communications, intelligent wideband spectrum sensing, electronic warfare systems, and next‑generation cellular network technologies, including 5G/Future
G. The Division supports work across many branches of the Department of Defense (DoD), including the Army, Navy, and Office of the Secretary of War for Research and Engineering. Key programs include deployed prototype systems, communication and spectrum sensing systems, machine learning algorithms, physics‑based modeling and simulation tools, system analyses, and applied research.
The ideal candidate is an experienced Communications Engineer with a diversified background and exposure to related domains such as radar, electronic warfare, signals intelligence, and/or communications security. Candidates should have a strong desire to collaborate with other team members while designing, implementing, testing and fielding innovative communications platforms with signal processing algorithms after performing trade‑off analysis to provide solutions for communications and spectrum sensing problems of interest to the DoD.
As a researcher, the candidate will develop innovative concepts to investigate, advance, and create understanding of emerging problems and solution opportunities in communications technology and application domains.
Research, design, development and prototyping of communications equipment and systems. Utilizing experience and knowledge of end‑to‑end communications systems to architect novel and robust communications systems including emerging software‑defined radio platforms and other emerging commercial communication systems and advanced tactical networks. Establish key performance requirements for various target radios across multiple operating bands, environments and targeted applications. Develop, implement, characterize and test leading‑edge waveform and communications…
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