2

Remote Audio Signal Processing Jobs in Georgia (NOW HIRING)

next page

Showing results 1-20

Remote Audio Signal Processing information

What is the difference between Remote Audio Signal Processing vs Remote Audio Engineering?

AspectRemote Audio Signal ProcessingRemote Audio Engineering
CredentialsKnowledge of audio algorithms, signal processing certificationsAudio engineering certifications, experience with recording/mixing
Work EnvironmentPrimarily software-based, focused on digital signal manipulationStudio or live sound environments, often involving hardware setup
Industry UsageTech companies, software development, audio tech startupsMusic production, broadcasting, live events
Search & Comparison IntentFocus on technical signal processing skillsFocus on audio production and engineering expertise

Remote Audio Signal Processing involves developing and applying algorithms to manipulate audio signals digitally, often requiring programming and technical skills. Remote Audio Engineering focuses on capturing, mixing, and producing audio content, emphasizing hands-on technical and creative skills. While both roles work remotely and in the audio industry, their core responsibilities and skill sets differ significantly.

What is remote audio signal processing?

Remote audio signal processing refers to the analysis, modification, and enhancement of audio signals using digital algorithms, typically performed from a location different from where the audio was recorded or is being used. Professionals in this field work with technologies such as noise reduction, echo cancellation, audio compression, and effects processing, often leveraging cloud-based tools and platforms. This allows for real-time audio improvements or transformations in applications like teleconferencing, streaming, and music production, all managed remotely.

What are some common challenges faced by professionals in remote audio signal processing roles, and how can they be addressed?

Professionals in remote audio signal processing often encounter challenges such as latency issues, inconsistent audio quality due to varying internet connections, and difficulties in real-time collaboration with team members or clients. To address these, it’s important to use reliable communication platforms, leverage cloud-based audio tools that support version control, and establish clear file-sharing protocols. Regular virtual meetings and clear documentation can also help ensure smooth collaboration and consistent project outcomes.

What are the key skills and qualifications needed to thrive as a Remote Audio Signal Processing Engineer, and why are they important?

To excel as a Remote Audio Signal Processing Engineer, you need strong knowledge of digital signal processing (DSP), audio algorithms, and programming skills, typically supported by a degree in electrical engineering, computer science, or a related field. Expertise in tools like MATLAB, Python, C++, and familiarity with platforms such as JUCE or VST, as well as experience with audio editing and analysis software, is highly valuable. Excellent problem-solving, communication, and self-motivation are essential soft skills for managing tasks independently and collaborating with distributed teams. These skills and qualifications are critical for developing high-quality audio solutions and ensuring effective project delivery in a remote work environment.
What are the most commonly searched types of Audio Signal Processing jobs in Georgia? The most popular types of Audio Signal Processing jobs in Georgia are:
What cities in Georgia are hiring for Remote Audio Signal Processing jobs? Cities in Georgia with the most Remote Audio Signal Processing job openings:
Senior Algorithm & Signal Processing Researcher

Senior Algorithm & Signal Processing Researcher

STR

Atlanta, GA • On-site, Remote

$139K - $170K/yr

Other

Posted 5 days ago

New


Job description

About the Team:

The Sensors Division at STR focuses on technology development for advanced sensor systems and platforms in support of national security requirements. Our particular focus areas include airborne/spaceborne/surface-based radar, electronic warfare, underwater acoustics, hyperspectral imaging, and EO/IR sensing. To support these missions, the Division's efforts span multiple technical areas, including RF analog/digital hardware, acoustic hardware, signal processing algorithms, machine learning algorithms, systems analysis, and real-time embedded processor implementation.

The Algorithms, Processing and Experimentation (APEX) Group specializes in development of RF/radar modes, skills and applications, with particular emphasis on advanced signal processing chains and associated algorithm research. We mature these technologies with the objective of implementation, integration, and eventual utility in RF-based systems, typically tailoring our work for highly specific Defense (e.g., Air Force, Space Force, Navy, DARPA, etc.) and Intelligence Community needs.

About the Role:

As a Senior Algorithm and Signal Processing Engineer, you will develop, implement, test, and demonstrate novel signal processing, optimization, and machine learning algorithms for advanced electronic warfare, radar, and remote sensing applications. You will work as part of multidisciplinary teams to research next-generation sensing concepts and transition advanced algorithms into integrated systems for laboratory and field demonstrations.

A successful candidate will have expertise in one or more of the following areas: signal processing, adaptive radar signal processing, optimization, machine learning, electronic warfare, algorithm development, radar systems, communications systems, RF remote sensing, resource management, modeling and simulation, or related technical fields. This position requires strong analytical skills, scientific programming experience, and the ability to collaborate with researchers, engineers, and customers to solve challenging technical problems.

What You Will Do

  • Develop advanced sensing concepts, signal processing algorithms, and machine learning techniques for radar, electronic warfare, and remote sensing applications
  • Research, design, implement, and evaluate novel algorithms from concept through demonstration
  • Collaborate with multidisciplinary teams to architect, develop, integrate, and test advanced RF signal processing systems
  • Support modeling and simulation activities to evaluate algorithm performance and inform system design
  • Plan and execute laboratory and field testing to assess algorithm performance and transition research into operational prototypes.
  • Contribute to technical proposals, customer interactions, presentations, and technical briefings
  • Survey emerging research and incorporate state-of-the-art techniques into practical algorithm solutions.

Who You Are

  • Ability to obtain and maintain a Top Secret security clearance, for which U.S. citizenship is required by the U.S. government
  • PhD, MS, or BS in Electrical Engineering, Applied Mathematics, Physics, Computer Engineering, Computer Science, or a related technical discipline with 2-5+ years relevant experience
  • Strong programming skills in MATLAB, Python, C/C++, or similar scientific computing languages
  • Strong mathematical, analytical, troubleshooting, written, and verbal communication skills
  • Experience developing, implementing, testing, or analyzing signal processing, optimization, or machine learning algorithms
  • Ability to communicate complex technical concepts to both technical and non-technical audiences
  • Ability to translate research objectives and customer needs into practical technical solutions

Even Better

  • Active Top Secret security clearance
  • Experience with radar systems, RF remote sensing, electronic warfare, or communications systems
  • Experience with adaptive signal processing, waveform design, multidimensional signal processing, resource management, or system optimization
  • Experience developing algorithms for real-time or embedded systems
  • Experience with modeling and simulation, algorithm integration, and system test and evaluation
  • Experience with software development and scientific computing workflows
  • Ability to survey technical literature, identify emerging approaches, and transition research into integrated, tested solutions

Pay Information
Full-Time Salary Range: $139,000 - $170,000

The salary range listed is based on external market data. Offers are based on factors, such as but not limited to, the candidate's experience, education, training, key skills/critical skills, security clearances, and prevailing market and business conditions.