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

To thrive as a Postdoc in Robotics, you need a PhD in robotics, computer science, electrical engineering, or a related field, along with strong research and analytical skills. Proficiency with programming languages (such as Python or C++), robotics simulation tools (like ROS or Gazebo), and experience with machine learning or control systems is typically required. Excellent problem-solving abilities, collaboration, and clear scientific communication make a candidate stand out. These skills and qualities are crucial for advancing research, publishing impactful work, and contributing to innovative robotics projects.

What types of interdisciplinary collaboration can a Postdoc in Robotics expect, and how do these collaborations impact research outcomes?

As a Postdoc in Robotics, you can expect to work closely with professionals from various fields such as computer science, mechanical engineering, electrical engineering, and even biology or cognitive science, depending on the project. These interdisciplinary collaborations are crucial for addressing complex research problems, fostering innovation, and ensuring that robotic systems are both technically robust and practical for real-world applications. Effective teamwork and communication skills are essential, as you will often contribute your robotics expertise while integrating insights from collaborators to advance research outcomes and publish in high-impact journals.

What are Postdoc Robotics positions?

Postdoc Robotics positions are advanced research roles typically held by individuals who have recently completed their PhD in robotics or a related field. These positions involve conducting independent or collaborative research focused on robotics technologies, such as autonomous systems, artificial intelligence, machine learning, or human-robot interaction. Postdoctoral researchers in robotics often work at universities, research institutes, or industry labs, contributing to scientific publications and helping to develop new technologies. The role is meant to further develop research expertise and prepare for careers in academia, industry, or government research.

What is the difference between Postdoc Robotics vs Research Scientist Robotics?

AspectPostdoc RoboticsResearch Scientist Robotics
Required CredentialsPhD in Robotics, Engineering, or related fieldMaster's or PhD, often with more industry experience
Work EnvironmentAcademic labs, universities, research institutionsIndustry R&D labs, tech companies, startups
Employer & Industry UsageUniversities, government research agenciesPrivate companies, industry-focused research
Common Search & Comparison IntentUnderstanding academic vs industry roles in roboticsExploring career progression from academia to industry

Postdoc Robotics positions are primarily academic roles focused on research and publishing, often requiring a PhD. Research Scientist Robotics roles are industry positions that involve applied research, product development, and innovation within companies. While both roles involve robotics research, Postdocs are more academic-oriented, whereas Research Scientists work in commercial environments with a focus on practical applications.

What are popular job titles related to Postdoc Robotics jobs in Arizona? For Postdoc Robotics jobs in Arizona, the most frequently searched job titles are:
What job categories do people searching Postdoc Robotics jobs in Arizona look for? The top searched job categories for Postdoc Robotics jobs in Arizona are:
What cities in Arizona are hiring for Postdoc Robotics jobs? Cities in Arizona with the most Postdoc Robotics job openings:
Postdoc Robotics jobs near you
Infographic showing various Postdoc Robotics job openings in Arizona as of May 2026, with employment types broken down into 5% Locum Tenens, 62% Full Time, 21% Part Time, 7% Nights, and 5% Summer. Highlights an 95% Physical, and 5% Remote job distribution.
Postdoctoral Research Associate, Electrical and Computer Engineering

Postdoctoral Research Associate, Electrical and Computer Engineering

University of Arizona

Tucson, AZ • On-site

Full-time

Medical, Dental, Vision, Life, PTO

Posted 15 days ago

University Of Arizona rating

7.0

Company rating: 7.0 out of 10

Based on 65 frontline employees who took The Breakroom Quiz

366th of 530 rated colleges and universities

Job description

Postdoctoral Research Associate, Electrical and Computer Engineering
Posting Number
req24051
Department
Electrical and Computer Engr
Department Website Link
https://ece.engineering.arizona.edu/
Location
Tucson Campus
Address
1230 E. Speedway Blvd., Tucson, AZ 85721 USA
Position Highlights
The Electrical and Computer Engineering (ECE) Department at the University of Arizona is seeking a qualified and highly motivated Postdoctoral Research Associate to work with Dr. Ehsan Azimi.
We invite qualified candidates to join our group and participate in cutting-edge research. The chosen candidate will advance research at the intersection of robotics, control & prototyping, and AI/ML. The Postdoc will design, implement, and evaluate robotic systems - including real-time control stacks - and develop learning-enabled perception, planning, and vision-language model (VLM) pipelines. The role includes disseminating results via publications, patents, demos, and grants, in addition to mentoring students and contributing to course modules/workshops in robotics and related topics.
Outstanding UA benefits include health, dental, vision, and life insurance; paid vacation, sick leave, and holidays; UA/ASU/NAU tuition reduction for the employee and qualified family members; access to UA recreation and cultural activities; and more!
The University of Arizona has been recognized for our innovative work-life programs. For more information about working at the University of Arizona and relocations services, please click here.
Duties & Responsibilities
  • Lead, design, build and test cycles for robotic platforms and experimental rigs; develop real-time control (e.g., model-based, optimal, learning-augmented control), perception, and planning modules; run structured experiments and benchmarking.
  • Architect high-quality research codebases in C++/Python/C# (e.g., ROS/ROS 2, RT frameworks, Unity/Unreal integration as needed); implement data pipelines, simulation, and CI/testing; maintain reproductible artifacts and documentation.
  • Mentor undergraduate and graduate students; develop short course modules and/or run workshops in Robotics/AI/Control; support inclusive team culture and lab best practices.
  • Lead and co-author journal/conferencepapers; prepare manuscripts for publication in peer-reviewed journals; createcompelling presentations/demos and contribute to IP (invention disclosures andpatents); present research at national and international conferences.
  • Contribute to proposaldevelopment and grant writing (including preliminary data, methods, budgetstext); prepare progress reports, and coordination with internal/externalcollaborators; interface with sponsors where applicable.
  • Foster collaborationswithin the Department, with other units across the University, and with teammembers at other institutes.
  • Participate andcontribute to meetings with industry, academia and sponsors.
  • Additional duties as assigned.

Knowledge, Skills, and Abilities
  • Strong analysisskills, research, and technical writing skills.
  • Ability to communicateprofessionally in a clear, concise manner orally and in writing.
  • Knowledge of prototyping, specifically control (PID, MPC, optimal/robust, learning-augmented); perception &planning; sensor fusion; calibration; system identification.
  • Programming skills, including C++,Python, C#; ROS/ROS 2; Git; Linux; build systems (CMake);real-time/latency-aware coding; simulation (Gazebo/Isaac/Unity/Unreal asapplicable).
  • Knowledge of experimental design, statistics, ablation studies, replicable pipelines,technical writing.
  • Ability to create clear presentations and use strong interpersonal skills with a collaborativemindset; effective mentoring.

Minimum Qualifications
  • PhD in Robotics, Electrical & Computer Engineering, Mechanical Engineering, Biomedical Engineering, Computer Science, or closely related field.
  • Must have PhD conferred upon hire.

Preferred Qualifications
  • Hands-on experience integrating hardware + software for robots (arms, mobile, mechatronics) and real-time control.
  • Experience in computer vision, multimodal perception, or foundation models (VLMs/LLMs) applied to robotics.
  • Track record of patent contributions and/or technology transfer.
  • Experience preparing grants (NSF/NIH/DoD/industry) and coordinating collaborative deliverables.
  • Prior experience mentoring/teaching, curriculum or workshop development.
  • Experience with safety standards for robotics labs and human-robot interaction studies.
  • Experience with CUDA/accelerators; optimization; SLAM; tactile/force control; AR/XR interfaces; Unity/C# for robotics visualization; DevOps/containers.
  • Experience with AI/ML: Deep learning for vision/perception; VLMs and LLM tooling; dataset curation; evaluation/benchmarks; basic MLOps.

FLSA
Exempt
Full Time/Part Time
Full Time
Number of Hours Worked per Week
40
Job FTE
1.00
Work Calendar
Fiscal
Job Category
Research
Benefits Eligible
Yes - Full Benefits
Rate of Pay
NIH salary guidelines-Depends on Experience
Compensation Type
salary at 1.0 full-time equivalency (FTE)
Type of criminal background check required:
Name-based criminal background check (non-security sensitive)
Number of Vacancies
1
Target Hire Date
Expected End Date
Contact Information for Candidates
Ehsan Azimi
eazimi@arizona.edu
Open Date
10/6/2025
Open Until Filled
Yes
Documents Needed to Apply
Curriculum Vitae (CV) and Cover Letter
Special Instructions to Applicant
Notice of Availability of the Annual Security and Fire Safety Report
In compliance with the Jeanne Clery Disclosure of Campus Security Policy and Campus Crime Statistics Act (Clery Act), each year the University of Arizona releases an Annual Security Report (ASR) for each of the University's campuses.Thesereports disclose information including Clery crime statistics for the previous three calendar years and policies, procedures, and programs the University uses to keep students and employees safe, including how to report crimes or other emergencies and resources for crime victims. As a campus with residential housing facilities, the Main Campus ASR also includes a combined Annual Fire Safety report with information on fire statistics and fire safety systems, policies, and procedures.
Paper copies of the Reports can be obtained by contacting the University Compliance Office at cleryact@arizona.edu.

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