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Camera Car Driver Jobs in Indiana (NOW HIRING)

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Camera Car Driver information

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$8

$13

$17

How much do camera car driver jobs pay per hour?

As of Jul 2, 2026, the average hourly pay for camera car driver in Indiana is $13.32, according to ZipRecruiter salary data. Most workers in this role earn between $10.96 and $14.62 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive in the Camera Car Driver position, and why are they important?

To thrive as a Camera Car Driver, you need advanced driving skills, experience operating camera-equipped vehicles, and a clean driving record. Familiarity with specialized camera rigs, remote control systems, and possibly certifications such as a stunt driving license or union membership are often required. Excellent communication, teamwork, and adaptability are valuable soft skills for this role. These abilities are crucial for safely capturing high-quality footage during complex shoots in dynamic environments.

What are some of the unique challenges a Camera Car Driver might face on set?

Camera Car Drivers often operate in fast-paced, high-pressure settings where precision, timing, and safety are paramount. You'll need to synchronize your driving closely with camera operators and other crew members while navigating moving vehicles, unpredictable elements, and sometimes challenging terrain or weather. Adapting quickly and remaining focused while following creative direction is key, as setups can change frequently during a shoot. This role is ideal for those who thrive on teamwork and the excitement of producing dynamic footage in constantly changing conditions.

What is a camera car spotter?

A camera car spotter is a person who assists the camera car driver by communicating with the crew to ensure proper positioning and safety during filming. They help coordinate movements, monitor surroundings, and use radios or hand signals to guide the driver, often working in dynamic outdoor environments. Strong communication skills and awareness of filming protocols are essential for this role.

How much do repo spotters make?

Repo spotters, who assist in locating vehicles for repossession, typically earn between $15 and $25 per hour, depending on experience and location. Some may receive additional pay or bonuses for successful recoveries, and the job often requires good communication skills and knowledge of vehicle identification.

How do cameramen get hired?

Cameramen, including camera car drivers, typically get hired through industry connections, staffing agencies, or by applying directly to production companies. Relevant skills include operating camera equipment and understanding filming environments, and a valid driver's license is often required for camera car drivers.

What are camera car drivers?

Camera car drivers operate specially equipped vehicles used to capture moving footage for film, television, or commercials. They drive the camera cars along predetermined routes, often coordinating with camera operators and crew, and require driving skills, knowledge of safety protocols, and sometimes specialized certifications. Their work environment involves outdoor locations and precise timing to ensure smooth, high-quality shots.

What is a Camera Car Driver job?

A Camera Car Driver operates a specially equipped vehicle used for filming movies, TV shows, commercials, or other productions. Their primary responsibility is to drive smoothly and safely while maintaining a steady shot for mounted cameras. They often work closely with cinematographers and directors to achieve specific visual effects. Precision driving skills, awareness of set protocols, and experience with specialized camera rigs are essential for this role.

What are the most commonly searched types of Camera Car Driver jobs in Indiana? The most popular types of Camera Car Driver jobs in Indiana are:
What are popular job titles related to Camera Car Driver jobs in Indiana? For Camera Car Driver jobs in Indiana, the most frequently searched job titles are:
What cities in Indiana are hiring for Camera Car Driver jobs? Cities in Indiana with the most Camera Car Driver job openings:
Senior Radar Systems Lead - Robotics & Drones

Senior Radar Systems Lead - Robotics & Drones

Aptiv PLC

Westfield, IN • On-site

Full-time

Posted 27 days ago


Job description

Senior Radar Systems Lead - Robotics & Drones
We are Aptiv - a global technology company with 200,000 specialists in 48 countries. We develop innovative software and build the hardware to bring autonomous driving cars, advanced driver-assistance systems, connected vehicles and smart cities to life in a way that only we can. We work in partnership with almost all car manufacturers. Our sensors, systems and software can already be found in almost all passenger cars today.
We are building a new Robotics business at Aptiv, focused on Autonomous Mobile Robots (AMRs) and Drones for warehouse, industrial, and adjacent markets. As a Sr Radar Systems Lead, you will work closely with product management, hardware/SoC teams, and engineering partners to turn PoCs into scalable, reusable architectures that can be deployed across multiple customers and robot form factors.
We are seeking a Senior Radar Systems Engineer with deep expertise in radar system design, signal processing, and end-to-end sensing architecture for advanced AMR and drone platforms. This role emphasizes ownership of radar-centric systems-from sensor characteristics and waveform design through signal processing pipelines and perception integration-while leveraging modern software tooling and cloud-based infrastructure to enable scalable development, validation, and deployment.
You will lead the design and technical direction of radar-enabled sensing systems, bridging theory, algorithm development, and real-world deployment across autonomous platforms.
Key Responsibilities:
Radar Systems Engineering & Signal Processing
  • Own the end-to-end radar sensing architecture, including waveform selection, signal chain design, calibration, and performance characterization.
  • Design and develop radar signal processing pipelines focused on raw data ingestion, range/Doppler processing, beamforming, detection, tracking, and classification.
  • Define system-level performance requirements (range, resolution, latency, power, interference robustness) and ensure alignment across hardware and software.
  • Develop and maintain MATLAB-based radar analysis and modeling tools for algorithm development, system validation, and performance evaluation.
  • Analyze real-world radar data to validate models, tune algorithms, and improve robustness across diverse environments.
  • Collaborate with perception teams to integrate radar outputs into multi-sensor fusion frameworks (radar & camera).
  • Conduct anechoic chamber testing to verify radar concepts and validate algorithm performance.
  • Participate in robotics and drone testing to validate radar sensor performance in real-world environments

System Architecture & Integration
  • Support the system architecture of radar-enabled AMR and drone platforms, spanning radar sensors, & onboard compute.
  • Define interfaces and data flows between radar subsystems, perception stacks, autonomy modules, and external services.
  • Partition processing across sensor-level, & edge, optimizing for latency, bandwidth, and scalability.
  • Support integration with ROS 2, Linux-based systems, and real-time middleware, ensuring robust communication across distributed components.
  • Work closely with hardware teams to ensure proper sensor integration, synchronization, and calibration within the broader system.

Algorithm Development & Deployment
  • Develop, prototype, and validate radar signal processing algorithms in MATLAB, and guide their transition into production environments.
  • Ensure algorithms are robust to real-world challenges such as noise, multipath, interference, and environmental variability.
  • Support development of containerized data processing pipelines for large-scale radar data analysis and validation.
  • Define and maintain data standards, labeling approaches, and evaluation metrics for radar perception systems.

Technical Leadership
  • Drive the development of next-gen radar systems from inception to realization, including requirements analysis, algorithm development, and system concept architectures
  • Lead system-level trade studies across radar modalities, processing architectures, and compute platforms.
  • Provide technical direction across radar system design, signal processing, and perception integration.
  • Mentor engineers on best practices in radar system modeling, validation, and deployment workflows.
  • Collaborate with hardware, embedded, and compute teams to map workloads across CPU, GPU, DSP, and specialized accelerators.

Customer & Partner Engagement
  • Translate customer and partner requirements into radar system specifications and sensing architectures.
  • Support proofs of concept, demonstrations, and field deployments involving radar-enabled perception.
  • Contribute to long-term technology roadmaps spanning radar hardware, signal processing, and autonomy integration.

Basic Qualifications:
  • Bachelor's or Master's degree in Electrical Engineering, Robotics, Physics, Computer Engineering, or equivalent experience.
  • 5+ years of experience in radar systems engineering, sensing systems, or autonomous platforms.
  • Strong background in radar signal processing fundamentals (FMCW, pulse radar, Doppler processing, detection, tracking).
  • Proven experience with real-world radar systems, including data collection, calibration, and performance evaluation.
  • Proficiency in MATLAB for modeling, simulation, and algorithm development.
  • Understanding of system architecture, embedded systems, and real-time processing constraints.
  • Strong analytical, debugging, and system validation skills.
  • Familiarity with anechoic chamber testing and vehicle-level testing methodologies.
  • Excellent communication skills for conveying complex technical concepts.

Preferred Qualifications:
  • Deep expertise with FMCW radar systems, including waveform design and MIMO/beamforming techniques.
  • Experience with multi-sensor fusion (radar + vision).
  • Familiarity with antenna systems, RF front-end design, or electromagnetic considerations.
  • Experience transitioning research algorithms into production systems.
  • Experience with cloud-based data pipelines for large-scale sensor data processing and analytics.
  • Familiarity with simulation environments and data replay tools for sensor validation.
  • Experience with heterogeneous compute platforms (GPU, DSP, FPGA, or NPU) for signal processing workloads.
  • Background in autonomous systems (AMR, drones, automotive, or robotics platforms).
  • Experience working with Linux and robotics middleware (ROS/ROS 2 or similar).
  • Experience working in fast-paced, ambiguous environments.

Traits we seek:
  • Curiosity-driven problem solvers who investigate deeply and think systemically.
  • Confident leaders who empower teams, set direction, and earn trust.
  • Hands-on learners with an experimental, builder mindset.
  • Resilient thinkers who see challenges as opportunities to learn and improve.

Privacy Notice - Active Candidates: https://www.aptiv.com/privacy-notice-active-candidates
Aptiv is an equal employment opportunity employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, national origin, sex, gender identity, sexual orientation, disability status, protected veteran status or any other characteristic protected by law.