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Computer Vision Robotics Jobs (NOW HIRING)

Computer Vision Engineer

Costa Mesa, CA · On-site

$118K - $139K/yr

The Computer Vision Engineer will develop advanced perception systems for autonomous aerial platforms, integrating computer vision algorithms with robotics principles to solve complex challenges in ...

Our fully autonomous Corvus One™drones use computer vision & robotics to automatically track inventory, improving worker safety and increasing labor efficiency. We believe that data-driven, safe ...

Computer Vision Engineer

Sterling, VA · On-site

$110K - $130K/yr

Using robotics, computational design, and AI, our systems turn today's e-waste into resilient, data ... As a Computer Vision Engineer, you will: * Drive the architecture, development, and deployment of ...

Apply Early

Computer Vision Engineer

Sterling, VA · On-site

$110K - $130K/yr

Molg builds robotics microfactories and software to autonomously assemble and disassemble complex ... As a Computer Vision Engineer, you will be responsible for: * Continuous design, development ...

Develop and evaluate state-of-the-art computer vision algorithms for real-time control of robots and other hardware devices * Port, implement, and optimize analytics and machine learning algorithms ...

Develop and evaluate state-of-the-art computer vision algorithms for real-time control of robots and other hardware devices * Port, implement, and optimize analytics and machine learning algorithms ...

Apply Early

Develop and evaluate state-of-the-art computer vision algorithms for real-time control of robots and other hardware devices * Port, implement, and optimize analytics and machine learning algorithms ...

Computer Vision Engineer

San Diego, CA · On-site

$118K - $139K/yr

... robotics, and immersive AR/VR platforms. The group's work spans computer vision and video algorithm development, mapping these algorithms to computer vision and neural-processing accelerator ...

Computer Vision Engineer

Cambridge, MA · On-site +1

$121K - $143K/yr

Computer Vision Engineer Computer Vision Engineer Remote in US Full-Time About the Opportunity We ... Experience working with industrial, robotics, automation, or operational technology environments ...

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Computer Vision Robotics information

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$33.5K

$48.3K

$63.5K

How much do computer vision robotics jobs pay per year?

As of Jul 3, 2026, the average yearly pay for computer vision robotics in the United States is $48,298.00, according to ZipRecruiter salary data. Most workers in this role earn between $38,000.00 and $55,500.00 per year, depending on experience, location, and employer.

What types of projects and challenges might I work on as a Computer Vision Robotics professional?

As a Computer Vision Robotics professional, you can expect to work on projects like developing autonomous navigation for robots, creating real-time object detection systems, or improving industrial automation through machine vision. Daily tasks often involve coding algorithms, integrating hardware and sensors, and testing robots in various operational environments. Common challenges include optimizing vision systems for accuracy and speed, ensuring robust performance in diverse real-world conditions, and collaborating with mechanical and electrical engineers. This field is dynamic and demands ongoing learning to keep up with advances in artificial intelligence, hardware, and automation techniques.

What is a Computer Vision Robotics job?

A Computer Vision Robotics job involves developing algorithms and systems that enable robots to interpret and understand visual data from cameras and sensors. Professionals in this role work on tasks like object recognition, navigation, real-time decision-making, and automation. They use technologies such as machine learning, deep learning, and image processing to enhance robot perception. These jobs are commonly found in industries like manufacturing, healthcare, autonomous vehicles, and agriculture. Strong programming skills in languages like Python and C++, along with experience in frameworks like OpenCV and TensorFlow, are often required.

What are the key skills and qualifications needed to thrive in the Computer Vision Robotics position, and why are they important?

To thrive as a Computer Vision Robotics professional, you need a solid background in computer vision, robotics engineering, and proficiency with programming languages like Python or C++, often supported by a degree in computer science, engineering, or a related field. Experience with machine learning frameworks (such as TensorFlow or PyTorch), robotics middleware (like ROS), and hands-on familiarity with relevant hardware are highly valuable. Strong problem-solving abilities, creativity, and collaboration skills make candidates stand out in multidisciplinary teams. These skills are critical for designing and implementing innovative computer vision solutions that enable autonomous robotic systems to operate effectively in real-world environments.

More about Computer Vision Robotics jobs
What cities are hiring for Computer Vision Robotics jobs? Cities with the most Computer Vision Robotics job openings:
What are the most commonly searched types of Computer Vision Robotics jobs? The most popular types of Computer Vision Robotics jobs are:
What states have the most Computer Vision Robotics jobs? States with the most job openings for Computer Vision Robotics jobs include:
What job categories do people searching Computer Vision Robotics jobs look for? The top searched job categories for Computer Vision Robotics jobs are:
Infographic showing various Computer Vision Robotics job openings in the United States as of June 2026, with employment types broken down into 1% As Needed, 76% Full Time, 16% Part Time, and 7% Contract. Highlights an 97% Physical, 1% Hybrid, and 2% Remote job distribution, with an average salary of $48,298 per year, or $23.2 per hour.
Computer Vision Engineer - Autonomy & Perception

Computer Vision Engineer - Autonomy & Perception

Pivotal

Palo Alto, CA • On-site

$131K - $154K/yr

Full-time

Posted 23 days ago


Job description

Pivotal is the leader in the emerging market of electric Vertical Takeoff and Landing (eVTOL) aircraft. We design, develop, and manufacture light eVTOL aircraft and are renowned for the BlackFly aircraft the world's first light eVTOL to fly manned missions and enter the consumer market. 
 
Efficient, compact, and simple, Pivotal aircraft are designed for a wide range of consumer, public service, and defense applications. Our distinctive tilt-aircraft architecture and scalable platform have been flying for over 10 years. Last year we announced our next-generation aircraft, the Helix, which is rapidly progressing toward general release and scalable production in 2026. 
 
Mobility is one of the most highly-valued areas of modern technology investments. This is the right company, in the right space, the right strategy, at the right time. If you are ready for adventure, we invite you to join our amazing team and grow with us.

The Autonomy team at Pivotal develops advanced autonomy capabilities for our aircraft, enabling safe, precise, and reliable mission execution from takeoff to landing. We are seeking a Computer Vision Engineer to support the development of next-generation perception systems for our autonomous aerial platforms, including the Helix family of systems. 

In this role, you will collaborate with autonomy, guidance, navigation and control (GNC), flight software, and AI engineers to design, implement, and deploy computer vision algorithms that operate effectively in dynamic, real-world environments. You will work across object detection, tracking, visual localization, scene understanding, sensor fusion, and perception-driven autonomy to enable robust autonomous operations in challenging mission scenarios. 

The ideal candidate combines strong computer vision fundamentals with practical experience deploying perception systems on robotic or autonomous platforms. You will play a key role in developing vision capabilities that support navigation, obstacle avoidance, target tracking, and mission autonomy while contributing to the broader autonomy stack deployed on operational aircraft. 

Responsibilities
  • Perception & Computer Vision: Design and develop perception systems for autonomous aerial platforms operating in GPS-denied and contested environments; implement object detection, classification, segmentation, and tracking algorithms using RGB, thermal, and multimodal sensor data; develop visual perception pipelines for obstacle detection, collision avoidance, and situational awareness; build scene understanding capabilities to support autonomous navigation and mission execution; evaluate and integrate state-of-the-art computer vision and AI techniques into operational systems. 

  • Visual Navigation & Localization: Develop visual-inertial odometry, localization, and mapping algorithms; implement vision-based navigation solutions for degraded and GPS-denied environments; support SLAM and feature-based localization systems; design robust estimation methods that fuse camera, IMU, GPS, lidar, and radar data; improve navigation performance through sensor fusion and environmental awareness. 

  • Machine Learning & AI: Develop, train, and deploy deep learning models for onboard perception; create data processing, labeling, augmentation, and evaluation pipelines; optimize neural networks for real-time inference on embedded computing platforms; analyze model performance and improve robustness across operational conditions; support deployment of perception models on edge AI hardware. 

  • Camera Systems & Sensor Integration: Integrate and evaluate diverse imaging systems including RGB, stereo, fisheye, thermal, and event-based cameras; develop camera calibration workflows and sensor characterization procedures; support multi-camera synchronization and calibration efforts; improve image quality, calibration accuracy, and perception system reliability; collaborate with hardware teams to evaluate and integrate emerging sensor technologies. 

  • Testing & Validation: Develop simulation and testing frameworks for perception algorithms; support software-in-the-loop, hardware-in-the-loop, and flight testing activities; analyze flight data to identify performance gaps and improve perception robustness; establish metrics and validation procedures for autonomous perception systems; document system performance and support field deployments. 

Qualifications
  • Education: Bachelor's degree in Computer Science, Robotics, Electrical Engineering, Aerospace Engineering, or a related technical field. 

  • Experience: 2–4 years of industry experience in computer vision, robotics, machine learning, or autonomous systems OR Master's degree with 1–2 years of industry experience. 

  • Strong proficiency in C++, Python, or Rust. 

  • Experience with OpenCV and modern computer vision frameworks. 

  • Experience developing perception systems using PyTorch, TensorFlow, or similar machine learning frameworks. 

  • Strong understanding of image processing, geometric vision, and camera systems. 

  • Experience with object detection, tracking, segmentation, and machine learning-based perception algorithms. 

  • Familiarity with sensor fusion and state estimation techniques. 

  • Experience with ROS/ROS2 or similar robotics middleware. 

  • Experience developing software in Linux environments. 

Preferred Qualifications
  • Master's or PhD in Computer Vision, Robotics, Machine Learning, Computer Science, or a related field. 
  • Experience with autonomous aircraft, UAVs, robotics, or aerospace systems. 
  • Experience with visual SLAM, visual-inertial odometry, or localization systems. 
  • Knowledge of camera calibration, multi-camera systems, and geometric computer vision. 
  • Experience integrating lidar, radar, thermal cameras, and inertial sensors into perception systems. 
  • Experience deploying AI models on embedded platforms such as NVIDIA Jetson or similar edge computing hardware. 
  • Familiarity with simulation environments such as Gazebo, Isaac Sim, AirSim, or equivalent. 
  • Experience optimizing perception systems for real-time performance and resource-constrained platforms. 
  • Contributions to open-source robotics, autonomy, or computer vision projects. 
  • Familiarity with defense industry standards and security clearance processes. 
Attributes aligned with Core Values
  • Demonstrates a proactive safety mindset by embedding safety into daily operations, identifying and mitigating risks through assessments and training, encouraging open dialogue on safety concerns, and continuously improving protocols to ensure a safe work environment.
  • Puts customers at the center of every action by deeply understanding their challenges, delivering exceptional value, and striving to exceed expectations to support their success as our core purpose.
  • Actively seeks and values diverse stakeholder perspectives, builds cross-functional relationships, and fosters trust through empathetic, fact-based communication—committing to shared decisions for the greater good.
  • Drives results with clarity and purpose by focusing on what matters most, adapting to change, taking initiative, and owning outcomes while aligning actions with a clear understanding of success at every level.
  • Navigates ambiguity with resilience and bold thinking, challenges the status quo, and combines innovative ideas with practical best practices to overcome obstacles and drive progress.
  • Fosters a high-performance culture grounded in respect, professionalism, and support—balancing high expectations with a healthy, collaborative environment and being a trusted, dependable teammate.
Applicants must be eligible for employment in the United States and willing to work onsite at our HQ office in Palo Alto, CA.
 
Pivotal offers a comprehensive benefits package, including medical, dental, vision, and 401k plans.
 
Pivotal is an Equal Opportunity Employer. Pivotal does not discriminate on the basis of race, religion, color, sex, gender identity, sexual orientation, age, non-disqualifying physical or mental disability, national origin, veteran status or any other basis covered by appropriate law. All employment is decided on the basis of qualifications, merit, and business need.

We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses and identifying potential inconsistencies or verification signals in application materials based on available information. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.