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NewSpacevia Indeed

Engineer III - Robotics

KA, INPosted 4mo ago
RoboticsMid Levelfulltime, internship#python#docker

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About the Role

Who we are:
We are a start-up based out of Bengaluru & Delhi NCR. We are engaged in development of next generation missions and technologies (NGM&T) towards future warfare needs of the Indian defence forces. It is undertaking research towards enhancing persistence and autonomy for unmanned vehicles and robotic swarms. NRT’s product development portfolio includes a solar power stratospheric high altitude pseudo satellite (HAPS) unmanned platform and an air/ground launched stand-off autonomous system.
Role Summary:
We’re hiring a Software Engineer to help build and ship production-grade perception systems for real robots operating in real environments. This role is hands-on, execution-focused, and tightly integrated with autonomy, hardware, and field operations (distributed systems, networking, and deployment tooling a plus). ROS/ROS2 and prior robotics application experience are required.
What You’ll Do:
  • Build and ship perception pipelines deployed on physical robotic systems.
  • Develop ROS/ROS2 nodes and distributed systems for real-time perception (publish/subscribe, services, actions, TF).
  • Build reliable inter-process and inter-device communication for on-robot and offboard perception (DDS/ROS2 networking, bandwidth/latency considerations).
  • Integrate and validate multi-sensor data (e.g., camera, LiDAR, radar, IMU, GPS) into reliable outputs for autonomy.
  • Implement and improve perception components (sensor drivers/interfaces, calibration plumbing, synchronization, preprocessing, detections/tracks integration, quality checks).
  • Debug and harden systems where sensor data is noisy, incomplete, and imperfect.
  • Collaborate with autonomy, hardware, and field teams to deploy quickly and iterate based on real-world results.
  • Set up, configure, and debug SITL (Software-in-the-Loop) environments to validate perception outputs and message flows before on-robot testing.
  • Improve runtime performance (latency/throughput), reliability, logging/telemetry, and maintainability.
  • Package and deploy services using Docker on-robot systems.
Must-Have Qualifications:
  • 2–3 years experience building real-world software, with exposure to robotics/perception systems.
  • ROS/ROS2 is required (experience building and debugging ROS-based systems through projects, internships, or professional roles).
  • Experience with SITL setup and debugging workflows (simulation, message flow validation, bag/replay, test scenarios).
  • Prior robotics application experience is required (robots, autonomous vehicles, drones, industrial automation, etc.) — this can include strong academic projects or internships, not only full-time roles.
  • Strong programming skills in Python or C++.
  • Working knowledge of Linux networking fundamentals (TCP/UDP, debugging connectivity issues, bandwidth/latency tradeoffs).
  • Experience taking perception-related work from development to on-robot testing (field trials, lab testing, or production-like environments).
  • Working understanding of sensor timing/synchronization, and comfortable doing system-level debugging in distributed robotics systems (network issues, time sync, message drops).
  • Comfortable making pragmatic engineering tradeoffs to meet performance and deployment goals.
  • Working knowledge of Docker for packaging and deploying robotics services.
  • Able to work on-site.
Strongly Preferred:
  • Exposure to sensor fusion, mapping, object detection/tracking, or multi-object tracking.
  • Familiarity with common robotics/perception tooling (e.g., tf2, rosbag, rviz, image_transport, calibration pipelines).
  • Familiarity with networking and communication for distributed robotics systems (multi-machine ROS/ROS2, DDS config, TCP/UDP basics, time sync).
  • Familiarity with SITL setup, configuration, and debugging to speed iteration before field testing.
  • Experience deploying to edge computers (e.g., NVIDIA Jetson) and optimizing runtime performance.
  • Field deployment experience: diagnosing issues from logs, telemetry, and on-robot behavior in messy environments.
  • Startup / rapid iteration background.
What Success Looks Like:
  • Perception outputs that are reliable enough to support autonomy in real conditions (not just offline metrics).
  • ROS/ROS2 perception stack that’s observable and debuggable (good logging, replay, tooling discipline).
  • Faster iteration loop from field feedback to shipped improvements.
Interview Focus Areas:
  • Python engineering fundamentals for robotics software
  • ROS/ROS2 architecture and debugging (TF, timing, message flow, bags, multi-machine networking/communications, SITL workflows)
  • Deployment fundamentals: Docker-based packaging and runtime debugging on Linux.
  • Perception fundamentals + pragmatic production decisions
  • Real-world deployment stories: failures, fixes, and what you learned
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