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Controls Engineer – Robotics Motion Control & Validation
Accepting applicationsIntePros · North Reading, MA
Full-Time Mid MATLABPythonaiaterf
Posted
1d ago
Category
Test
Experience
Mid
Country
United States
Position Summary
We are seeking an experienced Controls Engineer to develop, tune, and optimize advanced robot motion control systems for complex robotic platforms. This role focuses on controller development, performance validation, automated testing, and system optimization across position and torque control applications.
The ideal candidate brings deep expertise in feedback control theory, robotics control systems, and real-world hardware implementation. You will work closely with robotics engineers and applied scientists to improve controller performance, establish testing methodologies, and build scalable validation frameworks that ensure reliable operation in demanding environments.
This is an opportunity to contribute to cutting-edge robotics programs while working alongside leading researchers and engineers developing next-generation automation technologies.
Key Responsibilities
Develop, tune, and optimize robot motion control systems for position and torque control applications.
Design and implement advanced controller tuning methodologies for complex robotic systems.
Create automated testing and validation frameworks to evaluate controller performance.
Develop automated test suites to analyze system response and identify performance improvements.
Conduct system identification, modeling, and control analysis using engineering tools and simulation environments.
Troubleshoot control system issues using data-driven approaches and performance metrics.
Analyze sensor, actuator, and embedded system behavior to improve control accuracy and reliability.
Establish standardized testing processes and documentation for controller evaluation.
Support motion planning and real-time control system development efforts.
Document testing methodologies, validation results, and controller performance metrics.
Required Qualifications
Master’s or Ph.D. in Mechanical Engineering, Electrical Engineering, Robotics, Controls Engineering, or a related field.
Strong foundation in classical control theory, linear systems, and applied dynamics.
Experience developing and tuning control algorithms on physical robotic hardware.
Hands-on experience with sensors, actuators, embedded control systems, or robotic platforms.
Proficiency with MATLAB/Simulink, Python, or similar modeling and analysis tools.
Experience working with real-time control systems and motion planning.
Top Required Skills1. Feedback Control Theory
Deep understanding of feedback control systems, controller design, stability analysis, and performance optimization.
2. Robotics Controller Development
Experience developing, implementing, and tuning controllers for complex robotic systems operating on physical hardware.
3. Modeling & Analysis Tools
Strong proficiency with MATLAB, Simulink, Python, or similar tools for system modeling, simulation, analysis, and validation.
Preferred Background
Successful Candidates Typically Come From
Robotics Engineering
Controls Engineering
Mechanical Engineering
Electrical Engineering
Autonomous Systems Development
Advanced R&D Robotics Programs
Experience with robot motion control, system identification, embedded systems, and hardware-in-the-loop testing is highly valued.
Work Environment
Full-time engineering role supporting advanced robotics development programs.
Collaborative environment working alongside robotics engineers, researchers, and applied scientists.
Opportunity for domestic travel (approximately 3 weeks total).
Potential for extension or long-term opportunities based on business needs.
Ideal Candidate Profile
The ideal candidate combines strong theoretical controls knowledge with hands-on robotics experience. They are comfortable developing controllers on physical hardware, building automated validation frameworks, troubleshooting complex system behaviors, and using data to drive continuous performance improvements. Strong attention to detail, technical rigor, and ownership of results are essential for success in this role.
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We are seeking an experienced Controls Engineer to develop, tune, and optimize advanced robot motion control systems for complex robotic platforms. This role focuses on controller development, performance validation, automated testing, and system optimization across position and torque control applications.
The ideal candidate brings deep expertise in feedback control theory, robotics control systems, and real-world hardware implementation. You will work closely with robotics engineers and applied scientists to improve controller performance, establish testing methodologies, and build scalable validation frameworks that ensure reliable operation in demanding environments.
This is an opportunity to contribute to cutting-edge robotics programs while working alongside leading researchers and engineers developing next-generation automation technologies.
Key Responsibilities
Develop, tune, and optimize robot motion control systems for position and torque control applications.
Design and implement advanced controller tuning methodologies for complex robotic systems.
Create automated testing and validation frameworks to evaluate controller performance.
Develop automated test suites to analyze system response and identify performance improvements.
Conduct system identification, modeling, and control analysis using engineering tools and simulation environments.
Troubleshoot control system issues using data-driven approaches and performance metrics.
Analyze sensor, actuator, and embedded system behavior to improve control accuracy and reliability.
Establish standardized testing processes and documentation for controller evaluation.
Support motion planning and real-time control system development efforts.
Document testing methodologies, validation results, and controller performance metrics.
Required Qualifications
Master’s or Ph.D. in Mechanical Engineering, Electrical Engineering, Robotics, Controls Engineering, or a related field.
Strong foundation in classical control theory, linear systems, and applied dynamics.
Experience developing and tuning control algorithms on physical robotic hardware.
Hands-on experience with sensors, actuators, embedded control systems, or robotic platforms.
Proficiency with MATLAB/Simulink, Python, or similar modeling and analysis tools.
Experience working with real-time control systems and motion planning.
Top Required Skills1. Feedback Control Theory
Deep understanding of feedback control systems, controller design, stability analysis, and performance optimization.
2. Robotics Controller Development
Experience developing, implementing, and tuning controllers for complex robotic systems operating on physical hardware.
3. Modeling & Analysis Tools
Strong proficiency with MATLAB, Simulink, Python, or similar tools for system modeling, simulation, analysis, and validation.
Preferred Background
Successful Candidates Typically Come From
Robotics Engineering
Controls Engineering
Mechanical Engineering
Electrical Engineering
Autonomous Systems Development
Advanced R&D Robotics Programs
Experience with robot motion control, system identification, embedded systems, and hardware-in-the-loop testing is highly valued.
Work Environment
Full-time engineering role supporting advanced robotics development programs.
Collaborative environment working alongside robotics engineers, researchers, and applied scientists.
Opportunity for domestic travel (approximately 3 weeks total).
Potential for extension or long-term opportunities based on business needs.
Ideal Candidate Profile
The ideal candidate combines strong theoretical controls knowledge with hands-on robotics experience. They are comfortable developing controllers on physical hardware, building automated validation frameworks, troubleshooting complex system behaviors, and using data to drive continuous performance improvements. Strong attention to detail, technical rigor, and ownership of results are essential for success in this role.
Show more Show less