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Robotics Design Jobs (NOW HIRING)

The Physical Design Engineering team is responsible for working with our equipment vendors, general ... The Robotics Engineering will play a critical role in identifying current and future process and ...

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The Physical Design Engineering team is responsible for working with our equipment vendors, general ... The Robotics Engineering will play a critical role in identifying current and future process and ...

New

The Physical Design Engineering team is responsible for working with our equipment vendors, general ... The Robotics Engineering will play a critical role in identifying current and future process and ...

New

Robotics Engineer

Redmond, WA · On-site

$155K - $205K/yr

Design, execute, and analyze experiments with rigorous, well-defined hypotheses. * Data Engineering: Design data collection routines to acquire high-quality data from field tests for model fine ...

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Robotics Design information

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$84K

$96K

$116.5K

How much do robotics design jobs pay per year?

As of Jul 10, 2026, the average yearly pay for robotics design in the United States is $96,000.00, according to ZipRecruiter salary data. Most workers in this role earn between $90,000.00 and $102,000.00 per year, depending on experience, location, and employer.

Is robotics a dead field?

Robotics design is an active and evolving field with ongoing advancements in automation, AI integration, and sensor technologies. Demand for robotics engineers remains strong across industries such as manufacturing, healthcare, and logistics, requiring skills in programming, mechanical design, and control systems.

What engineers make $500,000?

Senior robotics engineers with extensive experience, specialized skills in automation, and advanced degrees can reach salaries around $500,000, especially in high-demand industries like aerospace or defense. Achieving this level often requires leadership roles, stock options, or bonuses in addition to base pay.

What does a robotics designer do?

A robotics designer develops and creates robotic systems and components, focusing on functionality, efficiency, and safety. They use engineering principles, CAD software, and programming skills to design robots for various applications, often collaborating with engineers and technicians throughout the development process.

What is robotics design?

Robotics design is the process of creating, developing, and refining robots for various applications, from industrial automation to healthcare or consumer use. It involves multiple disciplines such as mechanical engineering, electrical engineering, computer science, and artificial intelligence. Robotics designers work on everything from the robot's physical structure and movement mechanisms to its sensors, control systems, and programming. The goal is to develop robots that can perform specific tasks efficiently and safely, often solving complex problems or automating repetitive jobs.

What is the difference between Robotics Design vs Mechanical Engineering?

AspectRobotics DesignMechanical Engineering
Required CredentialsBachelor's in Robotics, Mechanical, or Electrical Engineering; certifications in CAD or roboticsBachelor's in Mechanical Engineering; Professional Engineer (PE) license often preferred
Work EnvironmentDesign labs, robotics development centers, collaborative teamsManufacturing plants, research labs, design offices
Industry UsageRobotics companies, automation firms, research institutionsManufacturing, automotive, aerospace, product design

Robotics Design focuses on creating robotic systems, integrating sensors, actuators, and control algorithms. Mechanical Engineering covers a broader scope of designing mechanical components and systems. While both roles require engineering fundamentals, Robotics Design emphasizes robotics-specific skills, whereas Mechanical Engineering offers a wider application base across industries.

What are some typical challenges faced by professionals in Robotics Design, and how can they be addressed?

Professionals in Robotics Design often encounter challenges such as integrating hardware and software components, ensuring systems reliability, and keeping up with rapidly advancing technologies. Effective collaboration with multidisciplinary teams—including mechanical engineers, software developers, and project managers—is key to overcoming these hurdles. Staying engaged in continuous learning, prototyping early, and leveraging simulation tools can help address technical obstacles and deliver innovative solutions efficiently.

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

To thrive as a Robotics Designer, you need a solid grounding in mechanical engineering, electronics, and programming, typically supported by a degree in robotics, mechatronics, or a related field. Proficiency in CAD software, microcontroller programming (such as Arduino or Raspberry Pi), and simulation tools is essential, and certifications like Certified Robotics Programmer can be beneficial. Strong problem-solving abilities, creativity, and effective teamwork are standout soft skills for this role. These skills and qualities are crucial to developing innovative, functional robotic systems that meet complex technical requirements and client needs.

Is robotics a high paying job?

Robotics design is generally considered a high-paying field within engineering, with salaries often exceeding those of many other technical roles. Factors such as education level, experience, and specialized skills in programming, control systems, and CAD tools influence earning potential.
More about Robotics Design jobs
What cities are hiring for Robotics Design jobs? Cities with the most Robotics Design job openings:
What states have the most Robotics Design jobs? States with the most job openings for Robotics Design jobs include:
Infographic showing various Robotics Design job openings in the United States as of July 2026, with employment types broken down into 89% Full Time, 8% Part Time, and 3% Contract. Highlights an 87% Physical, 3% Hybrid, and 10% Remote job distribution, with an average salary of $96,000 per year, or $46.2 per hour.

Full-time

Re-posted 5 days ago


Job description

As a robotics professor, you will join a dedicated, award-winning faculty in the School of Creative Technology. You will play a key role in shaping a progressive curriculum and encourage interdisciplinary collaboration across SCAD locations, fostering connections with related disciplines such as industrial design, mechanical engineering, interaction design, animation, and immersive media. You will prepare talented students for rapidly evolving careers at the intersection of robotics, design, and human experience - guiding them to build systems that are not only intelligent and expressive, but physically realized and structurally sound.
You will do so through professional, positive, and engaging courses that cultivate curiosity and critical thinking, empowering students to work across the full arc of robotic creation: from mechanical design and fabrication to behavior, character, and social responsiveness.
Areas of exploration include kinetic systems, soft robotics, wearable mechanisms, biomimicry, animatronics, and physically embodied storytelling.
In this position, you will anchor the Body pillar of the robotics curriculum - the physical, mechanical, and fabrication foundations that give robotic systems their form and physical integrity.
You will guide students through the translation of character and behavioral concepts into structurally sound, manufacturable robotic platforms, including mechanisms, drive systems, linkages, material selection, and iterative build processes. You will work in close collaboration with faculty across software, simulation, AI, and ethics to deliver a fully integrated robotics education.
You will advocate for interdisciplinary collaboration and foster an environment that encourages diverse perspectives and innovation to create robotic systems that are functional, expressive, emotionally resonant, and socially responsive.
Responsibilities include adherence to all duties and expectations outlined in the SCAD Faculty Handbook, which encompasses coursework preparation, syllabus design and approval, office hours, midterm grade reviews, and more. Among other responsibilities, you will provide students with extra help sessions, extended learning opportunities, and field trips outside of regular class hours.
In this role, you will model professionalism, fulfill all grading and academic documentation requirements, and record attendance. You will assist with all academic assessment and institutional effectiveness efforts. Occasionally, you may support departmental and university-wide initiatives by attending both in-person and virtual events, such as faculty councils, admission activities, accreditation support, curriculum development, and exhibitions, among other duties. Professors must fulfill teaching assignments determined by contact hours as specified in the Employment Agreement.
The ideal candidate is passionate about teaching in higher education and brings deep expertise in mechanical design, mechatronics, and physical fabrication alongside a strong understanding of robotics development, human-centered design principles, and behavioral systems. They are equally fluent in building a robot body as they are in discussing how that body moves, communicates, and exists in the world alongside people.
They are adept at guiding diverse groups of students through hands-on, studio-based learning that integrates mechanical design with electronics, embedded systems, and character-driven inquiry. The candidate demonstrates strong project management, organization, and curriculum-building skills to prepare students for real-world challenges - from animatronic characters to autonomous platforms to wearable systems.
To succeed in this role, the candidate must be forward-thinking and able to thrive in an environment that values collaboration, creativity, and experimentation. They possess a strong understanding of form, mechanism, and interaction design - and can help students understand that the physical body of a robot is itself a design decision with expressive, functional, and ethical dimensions. They are also interested in speculative, critical, or future-oriented approaches to robotics and human-machine interaction.
Minimum qualifications:
  • Terminal degree in robotics, mechanical engineering, mechatronics, industrial design, or a relevant field
  • Academic and professional credentials to teach in robotics or a related discipline
  • Two or more years of professional experience in robotics, physical computing, mechanical design, or interactive systems - or equivalent post-secondary teaching experience
  • Demonstrated expertise in mechanical design and fabrication, including experience with CNC machining, additive manufacturing, casting, or comparable physical production methods
  • Hands-on experience building and iterating on physical robotic platforms, including mechanisms, actuators, drive systems, and structural assemblies
  • Background in electronics, sensors, embedded systems, and the integration of hardware and software in physically embodied systems
  • Cross-disciplinary design experience or collaboration across industrial design, UX, animation, computation, or media arts
  • Background in studio-based teaching, iterative prototyping, and experiential learning

Preferred qualifications:
  • Experience with animatronics, themed entertainment, or character-driven robotic systems
  • Familiarity with simulation environments (e.g., NVIDIA Isaac Sim, Unreal Engine) and their relationship to physical prototyping and digital twin workflows
  • Interest in speculative, critical, or future-oriented design approaches to robotics and human-machine interaction
  • Experience working within or alongside themed entertainment, interactive installation, or immersive experience industries

Travel required:
  • Less than 10%

Required application documents:
  • Current résumé and/or CV
  • Cover letter
  • Portfolio demonstrating technical execution and design thinking
  • Unofficial academic transcripts

Work hours: As noted in the Employment Agreement.
ADA tag: To perform this job successfully, an individual must be able to perform each essential duty satisfactorily. The requirements and minimum qualifications listed are representative of the knowledge, skill, and/or ability required. Reasonable accommodations may be made to enable qualified individuals with disabilities to perform the essential functions and/or meet the minimum qualifications.