Aether Geolocation Engineer

CHAOS Industries•Columbia, WA

2d•Onsite

About The Position

CHAOS Industries is redefining modern defense with a multi-product portfolio that gives the ultimate advantage—domain dominance. The company's products are powered by Coherent Distributed Networks (CDN™), empowering warfighters, commercial air operators, and border protection teams to act faster, adapt rapidly, and stay ahead of evolving threats. CHAOS Industries was founded in 2022 and has raised a total of $1 billion in funding from leading investors, including 8VC, Accel, and Valor Equity Partners. The company is headquartered in Los Angeles, with offices in Washington, D.C., San Francisco, San Diego, Seattle, and London. For more information, please visit www.chaosinc.com . Role Overview: We are seeking a proactive and detail-oriented Senior/Staff RF Geolocation Engineer to lead the development of advanced passive RF geolocation capabilities for our electromagnetic warfare product line. This role is focused on deriving, implementing, and validating high-performance localization solutions that enable CHAOS’s distributed systems to detect, characterize, and geolocate non-cooperative RF emitters in complex environments. The engineer will contribute across the full algorithm lifecycle, from first-principles formulation and high-fidelity modeling through software integration, calibration, field demonstration, and validation, and will collaborate closely with Business Development, Production, and cross-functional Engineering teams. Responsibilities: As a key contributor to the Spectrum Sensing Team, the Senior/Staff RF Geolocation Engineer will help redefine our spectrum sensing capabilities around high-confidence passive geolocation. The day-to-day will be diverse, hands-on, and highly technical, with direct impact on next-generation distributed sensing products. The engineer will:

Requirements

B.S. degree in Electrical Engineering, Applied Mathematics, Physics, or a related technical field
5+ years of relevant experience developing RF signal processing, estimation, or geolocation algorithms
Strong foundation in statistical and time-domain signal processing, detection and estimation theory, backpropagation, and applied linear algebra
Demonstrated experience developing passive RF geolocation algorithms, such as TDOA, FDOA, multilateration, direction finding, interferometry, or hybrid localization methods
Experience applying rigorous detection frameworks such as Neyman-Pearson, Bayesian inference, CFAR, or related methods to noisy and contested RF environments
Proficiency in Python, MATLAB, C++, or similar languages for modeling, simulation, and implementation of signal processing algorithms
Experience evaluating algorithm performance under real-world impairments, including low SNR, synchronization error, sensor geometry uncertainty, or interference
Ability to translate theoretical models into practical software suitable for integration with RF/SDR hardware and production code bases
Strong verbal and written communication skills, with the ability to clearly document technical approaches, assumptions, and performance results
Must be able to work on-site 3-5 days per week in Hawthorne, CA or Washington, D.C.
U.S. citizen
Ability to obtain and maintain a U.S. security clearance

Nice To Haves

M.S. or Ph.D. degree in Electrical Engineering, Applied Mathematics, Physics, or a related technical field
Current U.S. security clearance
Deep expertise in passive RF geolocation, interferometric processing, distributed coherent sensing, or passive imaging architectures
Demonstrated community-accepted (peer-reviewed) contributions to geolocation techniques
Experience deriving estimators and analytical bounds such as maximum likelihood estimators, Cramer-Rao lower bounds, and geolocation error budgets
Experience optimizing signal processing algorithms for real-time execution on GPU, FPGA, DSP, or heterogeneous compute platforms
Experience taking algorithms from concept through simulation, integration, calibration, and field-test validation
Ability to define system-level requirements for RF front ends, clocks, synchronization, and calibration based on algorithm sensitivity and accuracy analysis
Expertise with software defined radios and associated RF signal processing toolchains
Experience in military or other government environments performing related technical work in a fast-paced, mission-driven setting
Experience with agile development tools such as JIRA and Confluence

Responsibilities

Design and derive advanced passive RF geolocation algorithms from first principles, with emphasis on TDOA, FDOA, and hybrid geolocation architectures across distributed sensor networks
Develop coherent and non-coherent passive geolocation and imaging approaches, including phase-aligned multi-node processing for interferometric performance and robust envelope-based localization methods
Apply statistical signal detection frameworks, including Neyman-Pearson, Bayesian, and CFAR methodologies, to maximize probability of detection across varying noise, interference, and target conditions
Apply estimation and detection theory, including maximum likelihood estimation, error bound analysis, and linear algebraic methods, to formulate robust and analytically defensible localization solutions
Model, simulate, and mitigate real-world nonidealities such as oscillator phase noise, timing jitter, calibration error, uncertain sensor geometry, and low-SNR operating conditions
Develop, implement, and refine software for passive geolocation, emitter localization, and RF scene analysis using Python, MATLAB, C++, or related languages
Translate mathematically intensive algorithms into efficient real-time implementations on DSP, GPU, or other accelerated compute architectures as system needs require
Build high-fidelity simulation environments to evaluate geolocation accuracy, sensitivity, error budgets, and system tradeoffs before deployment
Partner with hardware and systems engineers to define RF front-end and timing requirements by quantifying their effect on end-to-end geolocation performance
Support algorithm integration, system calibration, test planning, and field validation in representative operational environments
Clearly document algorithm assumptions, derivations, performance limits, and test results for internal stakeholders and external customers

Benefits

Medical, dental, and vision benefits 100% paid for by the company
401k (+ 50% company match up to 6% of pay), FSA, HSA, life insurance, and more
Free daily lunch, ‘No meeting Fridays’, unlimited PTO, casual dress code
Competitive base salaries, generous pre-IPO stock option grants, relocation assistance, and (coming soon!) annual bonuses

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