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Signal Processing Jobs in Connecticut (NOW HIRING)

Experience with sensors, signal processing, controls, power electronics, motor drives or robotics is desirable. Hands-on experience with safety-critical devices. Additional Information After applying ...

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Signal Processing information

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$50.9K

$125K

$184.1K

How much do signal processing jobs pay per year?

As of Jul 19, 2026, the average yearly pay for signal processing in Connecticut is $124,950.00, according to ZipRecruiter salary data. Most workers in this role earn between $103,200.00 and $140,300.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive in the Signal Processing position, and why are they important?

To thrive in Signal Processing, a strong background in mathematics, digital signal processing algorithms, and relevant engineering or computer science degrees is essential. Familiarity with tools such as MATLAB, Python, LabVIEW, and industry-standard DSP hardware platforms, as well as certifications in signal processing or related fields, is often required. Sharp analytical thinking, attention to detail, and effective teamwork and communication skills are highly valued. These competencies enable professionals to design, analyze, and optimize systems that process real-world signals efficiently and accurately.

What is a Signal Processing job?

A Signal Processing job involves analyzing, modifying, and interpreting signals, such as audio, video, sensor data, or electromagnetic waves, to extract useful information or improve their quality. Professionals in this field apply mathematical and algorithmic techniques to filter noise, compress data, and enhance signal clarity. They work in industries like telecommunications, medical imaging, audio processing, and radar systems. Typical tasks may include designing filters, implementing machine learning models for pattern recognition, and optimizing digital communication systems. Knowledge of programming languages like MATLAB or Python and expertise in digital signal processing (DSP) techniques are often required.

What can I do with signal processing?

Signal processing professionals analyze, modify, and interpret signals such as audio, video, and sensor data to improve communication, data transmission, and system performance. They use tools like MATLAB, Python, and specialized hardware to develop algorithms for filtering, compression, and noise reduction, often working in industries like telecommunications, audio engineering, and medical imaging.

Is signal processing a good career?

Signal processing is a specialized field within engineering and computer science that involves analyzing, modifying, and interpreting signals such as audio, video, and sensor data. It offers opportunities in industries like telecommunications, aerospace, and healthcare, often requiring knowledge of algorithms, programming, and tools like MATLAB or Python. The career can be stable and well-paying for those with relevant skills and advanced education.

Will DSP be replaced by AI?

Digital Signal Processing (DSP) is a fundamental skill for signal processing professionals, and while AI techniques are increasingly integrated into signal analysis, DSP skills remain essential for designing and implementing real-time systems. AI can augment DSP tasks but does not fully replace the need for expertise in traditional signal processing methods and tools. Signal processing roles often require knowledge of algorithms, hardware, and software, which are complementary to AI advancements.

What are some common career paths for professionals in Signal Processing?

Signal Processing professionals often start as engineers or analysts, working on tasks like algorithm development, filtering, and noise reduction in applications such as telecommunications, audio, or radar systems. With experience, individuals can progress to roles such as senior engineer, project lead, or research scientist, and may branch into areas like embedded systems, machine learning, or systems architecture. The field frequently offers opportunities to collaborate closely with cross-functional teams including hardware engineers, software developers, and data scientists. Advancing your education, obtaining specialized certifications, or gaining expertise in emerging technologies can further enhance your career prospects in this dynamic and evolving discipline.

What engineer makes $500,000 a year?

Senior engineers in specialized fields such as software engineering, petroleum engineering, or aerospace engineering can earn $500,000 or more annually, especially with experience, bonuses, and stock options. High-level roles often require advanced skills, certifications, and leadership responsibilities.
What are the most commonly searched types of Signal Processing jobs in Connecticut? The most popular types of Signal Processing jobs in Connecticut are:
What are popular job titles related to Signal Processing jobs in Connecticut? For Signal Processing jobs in Connecticut, the most frequently searched job titles are:
What job categories do people searching Signal Processing jobs in Connecticut look for? The top searched job categories for Signal Processing jobs in Connecticut are:
What cities in Connecticut are hiring for Signal Processing jobs? Cities in Connecticut with the most Signal Processing job openings:

Sensing I& Communications Scientist - PhD, Navy

Henpen Corporation

Groton, CT

Full-time

Posted 19 days ago


Job description

Sensing and Communications Scientist
Groton, Connecticut
150  170,000
Job Description
Job Description
We are seeking a highly motivated Scientist to contribute to the success of our Sensing and Communications Department. 
Ideal candidates will have an MS or PhD and a background in subsea technology, acoustics, electronics design, sonar signal processing, autonomous systems, software, and an understanding of Navy technologies and operations are desirable.
We work on exciting, technically-challenging, research and development programs where multidisciplinary teams work closely to address challenging national security needs. 
This position will allow applicants to collaborate with subject matter experts across the company as well as both lead and/or make meaningful contributions to project teams and their objectives. Applicants will have an opportunity to participate in all parts of the research and development process, from first-principle analysis through to prototyping and testing of integrated systems.
Responsibilities: Support design and development of complex undersea acoustic systems Support development and execution of a number of ongoing and future programs pertaining to areas of innovative maritime systems. Support cross-functional teams to address complex system design challenges, while satisfying rigorous design requirements. Support the design and execution of at-sea experiments 
Required : An MS or PhD in Electrical Engineering, Mechanical Engineering, Ocean Engineering, Applied Mathematics, Applied Physics, or a related technical discipline Experience supporting and partnering with senior technical staff to develop innovative technology solutions that meet customer/user needs. Ability to technically contribute to and lead a variety of complex technical tasks at a detailed level. Excellent communication and interaction skills with project managers, IPT leads, and customers. Experience with the design or use of acoustic communication systems Working knowledge of digital and analog circuits Rigorous understanding and application of fundamental physics and mathematics principles 
Desired : Experience successfully managing multiple multidisciplinary technical programs, with responsibilities including scheduling, budgeting, resource coordination, and accountability for deliverables. Alternatively, experience with US Navy undersea warfare leadership and operations. Experience contributing to and leading programs through various stages along the technology lifecycle, from science and technology to research, development and deployment. Experience designing complex undersea systems with custom PCBs, embedded software, and data acquisition, and signal processing. 1 or more years experience developing and/or designing communications systems for wireless and/or underwater applications 
An immediate full-time position is open with flexibility to work out of any of the following locations:
Groton, CT
Pawcatuck, CT
Qualifications
Required : An MS or PhD in Electrical Engineering, Mechanical Engineering, Ocean Engineering, Applied Mathematics, Applied Physics, or a related technical discipline Experience supporting and partnering with senior technical staff to develop innovative technology solutions that meet customer/user needs. Ability to technically contribute to and lead a variety of complex technical tasks at a detailed level. Excellent communication and interaction skills with project managers, IPT leads, and customers. Experience with the design or use of acoustic communication systems Working knowledge of digital and analog circuits Rigorous understanding and application of fundamental physics and mathematics principles 
Desired : Experience successfully managing multiple multidisciplinary technical programs, with responsibilities including scheduling, budgeting, resource coordination, and accountability for deliverables. Alternatively, experience with US Navy undersea warfare leadership and operations. Experience contributing to and leading programs through various stages along the technology lifecycle, from science and technology to research, development and deployment. Experience designing complex undersea systems with custom PCBs, embedded software, and data acquisition, and signal processing. 1 or more years experience developing and/or designing communications systems for wireless and/or underwater applications 
Why is This a Great Opportunity
We are seeking a highly motivated Scientist to contribute to the success of our Sensing and Communications Department. 
Ideal candidates will have an MS or PhD and a background in subsea technology, acoustics, electronics design, sonar signal processing, autonomous systems, software, and an understanding of Navy technologies and operations are desirable.