ZipRecruiter

Log In

1

Autonomous Systems Jobs in Michigan (NOW HIRING)

next page

Showing results 1-20

People also search for

All JobsAutonomous Systems JobsAutonomous Systems Jobs in Michigan

Autonomous Systems information

See Michigan salary details

$40.1K

$89K

$133.4K

How much do autonomous systems jobs pay per year?

As of Jun 11, 2026, the average yearly pay for autonomous systems in Michigan is $88,961.00, according to ZipRecruiter salary data. Most workers in this role earn between $67,100.00 and $108,900.00 per year, depending on experience, location, and employer.

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

To excel in an Autonomous Systems role, candidates typically need expertise in robotics, computer vision, control systems, and programming languages such as Python or C++, often supported by a degree in engineering, computer science, or a related field. Familiarity with tools like ROS (Robot Operating System), simulation platforms, and relevant certifications (e.g., in AI or machine learning) is highly valued. Strong problem-solving skills, adaptability, and effective teamwork enhance performance in this multidisciplinary environment. These abilities are essential for innovating, troubleshooting, and successfully deploying autonomous solutions in real-world settings.

What is an Autonomous Systems job?

An Autonomous Systems job involves designing, developing, and maintaining self-operating technologies, such as drones, self-driving cars, and robotic systems. Professionals in this field work on AI, machine learning, sensor fusion, and control systems to enable machines to make decisions and operate without human intervention. Roles may include software engineers, roboticists, and data scientists, often collaborating to improve system reliability and efficiency. These jobs are common in industries like defense, transportation, manufacturing, and healthcare.

What are some common challenges faced by professionals working in Autonomous Systems?

Professionals in Autonomous Systems often encounter challenges related to integrating complex hardware and software, ensuring system reliability in dynamic environments, and maintaining safety and compliance with industry standards. Debugging and testing autonomous solutions can be demanding due to unpredictable real-world variables and evolving technical requirements. Collaboration with cross-functional teams is crucial, as roles often involve coordinating with engineers, data scientists, and product managers. Successfully navigating these challenges helps drive innovation and ensures the successful deployment and operation of advanced autonomous technologies.

What are the most commonly searched types of Autonomous Systems jobs in Michigan? The most popular types of Autonomous Systems jobs in Michigan are:
What are popular job titles related to Autonomous Systems jobs in Michigan? For Autonomous Systems jobs in Michigan, the most frequently searched job titles are:
What job categories do people searching Autonomous Systems jobs in Michigan look for? The top searched job categories for Autonomous Systems jobs in Michigan are:
Autonomous Systems jobs near you
Autonomous Driving Vehicle Perception Engineer

Autonomous Driving Vehicle Perception Engineer

INA Solution Inc

Northville, MI โ€ข On-site

Contractor

Posted 27 days ago

Job description

Job Title: Autonomous Driving Vehicle Perception Engineer

Location: Northville, MI (Onsite)

Experience: 4โ€“10 Years

Duration: 12 months+

What You will Do:

  • Design and implement advancedย perception algorithmsย for autonomous vehicles using LiDAR, cameras, radar, and GNSS.
  • Develop and optimizeย sensor fusionย techniques to combine data from multiple sensors, improving the accuracy and reliability of perception systems.
  • Create algorithms forย object detection, tracking, semantic segmentation, and classification fromย 3D point cloudsย (LiDAR) and camera data.
  • Work onย Simultaneous Localization and Mapping (SLAM)ย algorithms, including Graph SLAM, LIO-SAM, and visual-inertial SLAM.
  • Developย sensor calibrationย techniques (intrinsic and extrinsic) and coordinate transformations between sensors.
  • Participate inย real-time systems designย and optimization to meet the high-performance requirements of autonomous driving.
  • Work with ROS2 for integration and deployment ofย perception algorithms.
  • Develop, test, and deployย machine learning modelsย for perception tasks such asย object detectionย and segmentation.
  • Collaborate with cross-functional teams, including software engineers, data scientists, and hardware teams, to deliver end-to-end solutions.
  • Stay up-to-date with industry trends and emerging technologies to innovate and improve perception systems.

ย 

What You Will Bring:

  • Minimum 3+ years of experience inย sensor calibration,ย multi-sensor fusion, or related domains.
  • Strong foundation inย linear algebra,ย 3D geometry, coordinate frames, quaternions,ย probability,ย Bayesian filtering, andย data association.
  • Hands-on experience with intrinsic and extrinsic calibration of LiDAR, cameras, and radar, including geometric calibration, coordinate transforms, and sensor synchronization.
  • Proven experience withย perception algorithmsย for autonomous systems, particularly in the areas of LiDAR, camera, radar, GNSS, or other sensor modalities.
  • Deep understanding of LiDAR technology, point cloud data structures, and processing techniques; experience with PCL or Open3D.
  • Proficiency inย sensor fusionย for combining data from LiDAR, camera, radar, and GNSS, including handling time synchronization and motion distortion.
  • Solid background inย computer vision techniques; experience with OpenCV andย object detectionย models such as YOLO, Faster R-CNN, or SSD.
  • Experience withย deep learning frameworksย (TensorFlow or PyTorch) forย object detectionย and segmentation tasks.
  • Hands-on experience with multi-object tracking algorithms such as SORT, DeepSORT, Kalman Filters, UKF, IMM, or JPDA.
  • Strong programming skills in C++ and Python; familiarity withย geometric optimizationย libraries.
  • Familiarity with ROS2 for perception-based autonomous systems development.
  • Experience with parallel computing for real-time performance optimization (e.g., CUDA, OpenCL).