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Rehabilitation Robotics Engineer Jobs (NOW HIRING)

As a Robotics Simulation Engineer, you will build and maintain high-fidelity simulation ... of the Rehabilitation Act of 1973 (as amended) and the Vietnam Era Veterans' Readjustment ...

ICON is looking for a Robotics Framework Engineer II to join our Software team in Austin, TX. This ... of the Rehabilitation Act of 1973 (as amended) and the Vietnam Era Veterans' Readjustment ...

Senior Robotics & Controls Engineer Job Code: A011.1032 Job Location: Santa Clara, CA Job Type ... Rehabilitation Act. Johnson & Johnson is committed to providing an interview process that is ...

Controls Engineer

Corning, NY · On-site

$70K - $91K/yr

Information Technology (IT), Clinical Research, Rehabilitation Therapy and Nursing. Job Title: Controls Engineer IV Duration: 1 year Location: Corning ,NY SUMMARY : Robotics - Individuals will be ...

The Neuromuscular & Rehabilitation Robotics (NeuRRo) lab ( at the University of Michigan is looking ... Programming (e.g., Matlab, LabVIEW, etc.) skills are desired and would be highly beneficial for ...

Senior Robotics Software Engineer I

Austin, TX · On-site

$121K - $160K/yr

ICON is looking for a Senior Robotics Software Engineer to join our Software team in Austin, TX. As ... of the Rehabilitation Act of 1973 (as amended) and the Vietnam Era Veterans' Readjustment ...

Sr. Robotics Solutions Engineer

Santa Clara, CA · On-site

$122K - $168K/yr

... Robotics Solutions Engineer. This is a Field Based Role. A pre-identified candidate for ... Rehabilitation Act. Johnson & Johnson is committed to providing an interview process that is ...

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Rehabilitation Robotics Engineer information

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$29K

$105.6K

$169K

How much do rehabilitation robotics engineer jobs pay per year?

As of Jun 30, 2026, the average yearly pay for rehabilitation robotics engineer in the United States is $105,605.00, according to ZipRecruiter salary data. Most workers in this role earn between $83,500.00 and $127,000.00 per year, depending on experience, location, and employer.

What is the highest paid Rehabilitation Robotics Engineer?

Rehabilitation Robotics Engineers with advanced skills, experience, and certifications can earn salaries exceeding $120,000 annually, especially in high-demand regions or specialized industries. Senior engineers working on cutting-edge assistive devices or in leadership roles tend to have the highest compensation in this field.

What is the difference between Rehabilitation Robotics Engineer vs Biomedical Equipment Technician?

Rehabilitation Robotics EngineerBiomedical Equipment Technician
Designs, develops, and tests robotic systems for rehabilitation purposesMaintains, repairs, and calibrates medical equipment, including rehab devices
Requires engineering degrees and specialized training in robotics and biomechanicsRequires technical certifications and training in medical equipment maintenance
Works primarily in research labs, hospitals, and medical device companiesWorks mainly in hospitals, clinics, and biomedical service companies

While both roles support healthcare technology, Rehabilitation Robotics Engineers focus on creating and improving robotic systems for patient rehabilitation, whereas Biomedical Equipment Technicians maintain and repair existing medical devices. Their skills and work environments overlap but serve different stages of medical device lifecycle management.

What are the key skills and qualifications needed to thrive as a Rehabilitation Robotics Engineer, and why are they important?

To thrive as a Rehabilitation Robotics Engineer, you need a strong background in biomedical engineering, robotics, and human physiology, typically supported by a relevant degree. Familiarity with CAD software, embedded systems, control algorithms, and certifications in robotics or medical device standards are commonly required. Strong problem-solving skills, creativity, and the ability to collaborate with multidisciplinary teams help set top professionals apart. These skills ensure the development of safe, effective, and innovative robotic systems that improve patient rehabilitation outcomes.

How does a Rehabilitation Robotics Engineer typically collaborate with clinical teams during the development of assistive devices?

Rehabilitation Robotics Engineers often work closely with physical therapists, occupational therapists, and physicians to understand patient needs and clinical requirements. This collaboration ensures that the devices they design are both technically sound and practical for real-world therapy settings. Engineers may attend regular meetings with clinicians, participate in patient trials, and incorporate clinical feedback into iterative design improvements. Strong communication and teamwork are essential, as aligning technological solutions with therapeutic goals is key to successful device adoption.

What engineers make $500,000?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and aerospace engineering can earn $500,000 or more annually, especially with experience, advanced skills, and in high-demand industries. Executive or leadership roles in engineering firms may also reach this compensation level. Achieving this salary often requires advanced degrees, certifications, and extensive industry experience.

Is robotics a dead field?

Rehabilitation Robotics Engineers work in a growing field focused on developing assistive devices and robotic systems for patient recovery. Robotics remains a dynamic industry with ongoing advancements in sensors, control systems, and AI, making it a viable career path for those interested in engineering and healthcare technology.

What are Rehabilitation Robotics Engineers?

Rehabilitation Robotics Engineers are professionals who design, develop, and implement robotic systems to assist in the rehabilitation of patients with physical impairments. They work at the intersection of engineering, healthcare, and robotics to create devices such as exoskeletons, prosthetics, and therapy robots that aid in patient recovery and mobility. Their work often involves collaborating with medical professionals to ensure that the technology meets clinical needs and improves patient outcomes. Rehabilitation Robotics Engineers may also be involved in research, testing, and refining new robotic solutions for rehabilitation purposes.

Is there a high demand for robotics engineers?

Rehabilitation robotics engineers are in increasing demand due to advancements in medical technology and aging populations requiring assistive devices. The field offers growth opportunities, especially for those skilled in robotics design, control systems, and biomedical integration, with employment expected to rise faster than average in the coming years.
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What cities are hiring for Rehabilitation Robotics Engineer jobs? Cities with the most Rehabilitation Robotics Engineer job openings:
What states have the most Rehabilitation Robotics Engineer jobs? States with the most job openings for Rehabilitation Robotics Engineer jobs include:
What job categories do people searching Rehabilitation Robotics Engineer jobs look for? The top searched job categories for Rehabilitation Robotics Engineer jobs are:
Infographic showing various Rehabilitation Robotics Engineer job openings in the United States as of June 2026, with employment types broken down into 67% Full Time, 22% Part Time, and 11% Contract. Highlights an 89% In-person, and 11% Remote job distribution, with an average salary of $105,605 per year, or $50.8 per hour.
Part-Time Lecturer for Bioengineering Design for Robotic Rehabilitation

Part-Time Lecturer for Bioengineering Design for Robotic Rehabilitation

NorthEastern

Boston, MA • On-site

Part-time

Medical, Dental, Vision, Life, Retirement, PTO

Posted 21 days ago


Key responsibilities

  • Co-teach BIOE 5560 by delivering instruction on robotics systems, engineering design methodology, biomechanical analysis, and sensor integration.

  • Guide students through the engineering design cycle from needs identification to prototype development and testing.

  • Supervise hands-on lab and project sessions, evaluate student work, and oversee final project presentations.


Job description

About the Opportunity

Position Overview:

The Department of Bioengineering invites applications for a part-time faculty member to co-teach BIOE 5560: Bioengineering Design for Robotic Rehabilitation. This course is offered in partnership with the Department of Physical Therapy at Northeastern University, bringing together expertise from both engineering and clinical rehabilitation sciences. A Physical Therapy faculty member from Northeastern will cover the clinical, therapeutic, and movement science components of the course; the part-time faculty member sought through this posting will be responsible for the engineering and robotics content, from a user-centered design perspective.

This role is an exciting opportunity for a practitioner or researcher with a strong background in robotics and bioengineering to contribute to a graduate-level, project-based course that bridges rigorous engineering design with real-world rehabilitation applications. The course draws on Northeastern's established strength in Biomedical and Rehabilitation Robotics - a dedicated concentration within the university's interdisciplinary MS in Robotics program spanning the College of Engineering, Khoury College of Computer Sciences, and the Bouve College of Health Sciences - and extends that expertise into collaborative, clinically-grounded student projects.

Course Descriptions:

BIOE 5560 covers the intersection of robotics, physical therapy, rehabilitation, and movement sciences. The course is co-taught by faculty from the Departments of Bioengineering and Physical Therapy. The Physical Therapy faculty partner leads instruction on clinical rehabilitation, therapeutic principles, and movement sciences, while the engineering faculty member (this position) leads instruction on robotics systems, engineering design methodology, biomechanical analysis, and sensor integration.

Students engage in hands-on projects derived from real-world clinical challenges, following a systematic design process from conceptualization through prototype development. The course emphasizes the application of robotics to enhance therapeutic and rehabilitative outcomes, with key engineering topics including robot mechanics and control, assistive and rehabilitation robotics, sensing and navigation, mechatronic integration, prototyping, biomechanics, and motor control from an engineering perspective. Collaborative teamwork with peers, faculty from both departments, and clinical professionals is central to the course experience. The course concludes with a final project presentation in which student teams demonstrate functional prototypes designed to address specific needs in rehabilitation.

Primary Responsibilities:

Teach all scheduled sections of BIOE 5520, delivering high-quality instruction consistent with course learning objectives

Develop and maintain course materials including syllabi, lecture content, laboratory exercises, and assessment rubrics

Guide students through the full engineering design cycle, from needs identification and conceptualization through prototype development and testing

Facilitate collaboration between students, departmental faculty, and external clinical partners

Supervise hands-on lab and project sessions, ensuring safety and alignment with learning outcomes

Evaluate and provide timely, constructive feedback on student work, including design reports and prototype presentations

Coordinate and oversee the final project presentation event, including evaluation of functional prototypes

Maintain regular office hours and remain accessible to students for academic support

Participate in relevant departmental meetings as requested

Required Qualifications:

Graduate degree (Master's or Doctoral) in Bioengineering, Mechanical Engineering, Rehabilitation Science, Kinesiology, or a closely related field

Demonstrated expertise in one or more of the following areas: rehabilitation robotics, biomechanics, motor control and learning, or sensor integration

Experience with engineering design processes, including prototype development

Strong communication and interpersonal skills with the ability to mentor diverse student teams

Ability to work collaboratively with clinical professionals and external partners

Preferred Qualifications:

Prior teaching experience at the university level, particularly in project-based or laboratory courses

Active clinical, research, or industry experience in robotic rehabilitation or related applied fields

Established professional network with rehabilitation clinicians or healthcare institutions

Experience mentoring interdisciplinary student teams in capstone-style design projects

Familiarity with relevant platforms and tools (e.g., ROS, embedded sensors, motion capture systems, clinical assessment tools)

Position Type

Academic

Additional Information

Northeastern University considers factors such as candidate work experience, education and skills when extending an offer.

Northeastern has a comprehensive benefits package for benefit eligible employees. This includes medical, vision, dental, paid time off, tuition assistance, wellness & life, retirement- as well as commuting & transportation. Visit https://hr.northeastern.edu/benefits/ for more information.

All qualified applicants are encouraged to apply and will receive consideration for employment without regard to race, religion, color, national origin, age, sex, sexual orientation, disability status, or any other characteristic protected by applicable law.

Pay Range:

The rate per credit is $2988.