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Job description
Our Opportunity: Chewy Robotics is seeking a Staff Research Scientist to advance the orchestration of heterogeneous fleets of humanoid and mobile robots by tackling some of the hardest systems problems in robotics and Physical AI based out of our state-of-the-art Robotics Lab in Woburn MA. You will work at the intersection of multi-agent systems optimization semantic mapping federated learning and learning-based planning designing and deploying algorithms that decide which robot does what when and where.
In this role you will own and drive portions of the fleet intelligence roadmap leading research programs end-to-end from problem framing through publication-quality evaluation and lab validation. You will lead the development of multi-agent control and sensing systems that enable mobile robotic systems to perform orchestrated tasks for manipulation and monitoring applications. Areas of interest include but are not limited to SLAM federated learning perception systems task allocation multi-agent path finding and multi-agent control architectures.
An ideal candidate possesses broad technical mastery with demonstrated technical leadership in at least one relevant research area as well as robotics system design algorithm development experimental validation excellent cross-functional collaboration abilities and routinely using AI coding and writing tools to accelerate algorithm development experimentation and business communication. You will validate ideas in simulation and experiments and the expectation is that your work results in publishable research at top-tier venues reusable components and real-world deployable methods that shape Physical AI at Chewy and inform the broader robotics community.
What You'll Do
- Lead research and technical strategy for one or more core fleet-intelligence areas such as:
- Multi-agent perception and estimation
- Large-scale multi-robot task allocation and scheduling (LSTA)
- Multi-agent path finding (MAPF) routing and congestion-aware coordination
- Fleet-level safety supervision and constraint-aware decision-making
- Learning-assisted planning and decision-making (RL/IL/model-based approaches)
- Research and design control methods for multi-agent robotic systems such as collaborative and active SLAM multi-robot task allocation routing estimation and fleet-level decision-making under real-world constraints (battery congestion different sensing modalities safety zones SLAs)
- Design and run simulation-first experiments define metrics for throughput coordination latency/replanning responsiveness robustness and safety-event rate comparing algorithms against strong baselines instrumenting experiments and analyzing fleet telemetry to understand performance and failure modes at scale
- Collaborate with scientists and engineers to develop pipelines for deploying the methods to real-world heterogeneous robotic systems
- Collaborate with scientists and engineers to integrate learning-based control into orchestration working with RL/IL/model-based controllers for navigation manipulation or local behaviors and defining interfaces rewards and telemetry for end-to-end learning loops
- Build benchmarks and research artifacts including reusable datasets experiment harnesses and publications for top-tier venues while mentoring co-ops and junior contributors on related projects
- Contribute to the architecture and deployment of distributed robotic systems including communication frameworks and APIs for full-scale deployment
- Utilize modern simulation and training environments such as Isaac Lab or Gym for robot learning and Isaac Sim Gazebo or Mujoco for robotic system modeling and validation
What You'll Need
- PhD from an internationally recognized institution in Robotics Computer Science Electrical/Mechanical Engineering Applied Mathematics Operations Research or a related field with focus on controls optimization multi-agent systems or AI for physical systems
- Deep expertise in at least one of the following and demonstrated experience with several of:
- Estimation and mapping for multi-agent systems (e.g. C-SLAM semantic 3D mapping active SLAM multi-modal sensor fusion)
- Multi-agent systems task allocation or fleet-level scheduling
- Motion planning or multi-agent path finding (MAPF routing graph search or sampling-based planning)
- Control theory and state estimation for robotic systems (e.g. MPC impedance control Kalman filtering particle filtering)
- Machine learning for decision-making (e.g. reinforcement learning imitation learning model-based planning)
- Familiarity with robot perception (vision tactile or multimodal sensing) for navigation manipulation or safety monitoring
- Experience with robotics middleware and simulation (e.g. ROS/ROS2 and simulators such as MuJoCo Isaac Sim PyBullet or Gazebo)
- Proven track record of peer-reviewed publications and innovative research including evidence of leading projects that deliver measurable outcomes
- Strong programming skills in at least one of Python C/C++ ROS/ROS2 Julia
- Excellent written and verbal communication skills for both technical and cross-functional audiences; ability to drive alignment on goals metrics and tradeoffs
Preferred Experience
- Demonstrated experience working with heterogeneous robot fleets and capability-aware sensing scheduling or routing
- Experience designing or contributing to orchestration systems: fleet management dispatch or industrial automation at scale
- Background in learning-based control (RL IL sim-to-real) for robotic or simulated agents
- Exposure to safety-critical or high-availability systems including safety envelopes and fallback behaviors
- Experience with tools such as PyTorch or JAX and/or modern optimization libraries/solvers (e.g. OR-Tools Gurobi CasADi)
- Experience mentoring students co-ops or interns and collaborating with academic partners
- Demonstrated experience in real-time/embedded systems
- Experience using AI coding and writing tools to accelerate algorithm development experimentation and business communication
The base salary range for this role is $186500 - $265000.00.
- The specific salary offered to a candidate may be influenced by a variety of factors including but not limited to the candidate's relevant experience education and work location. In addition this position is eligible for 401k and a new hire and annual equity grant. C08+ positions may also be eligible for annual bonus.
We offer different types of insurance and benefits such as medical/Rx vision dental life disability hospital indemnity critical illness and accident. We offer parental leave family services benefits backup dependent care flexible spending accounts telemedicine pet adoption reimbursement employee assistance program and many discounts including 10% off pet insurance and 20% off at Chewy.com.
Exempt salary team members have unlimited PTO subject to manager approval. Team members will receive six paid holidays per year. Team members may be eligible for paid sick and family leave in compliance with applicable state and local regulations.
Chewy is an equal opportunity employer. All qualified applicants will receive consideration for employment without regard to race color ancestry national origin gender citizenship marital status religion age disability gender identity results of genetic testing veteran status as well as any other legally-protected characteristic. If you have a disability under the Americans with Disabilities Act or similar law and you need an accommodation during the application process or to perform these job requirements or if you need a religious accommodation please contact [email protected].
To access Chewy's California CPRA Job Applicant Privacy Policy please click here.
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