Lead Mechanical Engineer - Mobile Manipulator Design at Origin

Bengaluru, karnataka, India -

Full Time

Start Date

Immediate

Expiry Date

26 May, 26

Salary

0.0

Posted On

25 Feb, 26

Experience

10 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Mechanical Engineering, Robotics, System Architecture, Structural Integrity, Kinematics, Dynamics, FEA, DFMEA, CAD, Onshape, Ansys, Abaqus, GD&T, Tolerance Stack-up, DFMA, Actuator Selection

Industry

Robotics Engineering

Description

About Origin Origin (previously 10xConstruction) is building general-purpose autonomous robots for US construction to tackle rising costs, safety risks, and labour shortages. Our modular, multi-trade platform combines purpose-built hardware with real-time site intelligence to navigate complex environments and execute tasks with precision. Trained in high-fidelity simulation and already deployed on live sites, our robots deliver 5x faster execution, 250%+ margin expansion, and significant cost savings. Join India’s most talent-dense robotics team consisting of individuals from IITs, Stanford, UCLA, etc. About the role As the Lead Mechanical Engineer for Mobile Manipulator (MoMa) Design, you will define the global mechanical architecture of our flagship robot. You will make the definitive decisions on structural integrity, dynamic stability, and the overall kinematic configuration required for general-purpose construction tasks. You will bridge the gap between abstract functional requirements and mass-manufacturable hardware, leading a team of engineers to build rugged, precise, and highly capable mobile manipulators. Key Responsibilities System Architecture & Strategy: Architect the complete mechanical topology of the mobile manipulator, balancing reachability, payload capacity, and dynamic stability (e.g., tip-over margins on uneven terrain). Define and benchmark key performance metrics for "general-purposeness," establishing the hardware limits for tool compatibility and workspace volumes. Drive the high-level Design Failure Modes and Effects Analysis (DFMEA) and risk management strategy for the entire physical platform. Advanced Kinematics & Structural Engineering: Lead complex dynamic, kinematic, and structural analyses (FEA) to validate the safety and efficiency of the robot under heavy, variable payloads. Oversee the 'real-to-virtual' translation, ensuring perfect fidelity between the physical robot and its high-fidelity URDF/simulation models (inertial properties, joint limits, stiffness). Manufacturing & Component Integration: Make final architectural decisions on actuator selection, custom transmission designs, and sensor integration topologies. Establish strict standards for Geometric Dimensioning and Tolerancing (GD&T) and manage highly complex tolerance stack-ups across the entire assembly. Drive the transition from advanced prototypes to Design for Manufacturing and Assembly (DFMA), working closely with tier-1 suppliers and contract manufacturers. Leadership: Mentor and lead a team of mechanical engineers, setting a culture of rigorous engineering, rapid iteration, and uncompromising quality. Required Qualifications and Skills Master's or PhD in Mechanical Engineering, Robotics, or a related field. 8+ years of deep experience designing complex robotic systems (mobile platforms, multi-axis arms, or heavy machinery). Expert-level proficiency in CAD software (Onshape) and advanced FEA tools (Ansys, Abaqus). Master of GD&T, tolerance stack-up analysis, and precision engineering principles. Deep mathematical understanding of robot kinematics and dynamics. Proven track record of taking complex electromechanical products from concept to mass production. Preferred Experiences Background in construction equipment, agricultural machinery, or industrial robotic arms. Experience with large sheet metal structures and mobile equipment. Gain experience in a dynamic startup environment at the forefront of robotics and AI innovation. Contribute to the development of technology that will revolutionize the construction industry. Work alongside a talented and passionate team committed to making a real-world impact. Learn from experienced professionals and gain valuable skills in robotics software engineering. Gain practical experience in a real-world engineering environment. Contribute to a project with the potential to make a significant impact on the construction industry.

Responsibilities

The Lead Mechanical Engineer will define the global mechanical architecture of the flagship mobile manipulator robot, making definitive decisions on structural integrity, stability, and kinematic configuration. This role involves leading a team to bridge abstract requirements with mass-manufacturable hardware, overseeing advanced analysis, and driving manufacturing transition.