Engineering Subsystems for Autonomous & Robotic Platforms
Precision motion, sensing, navigation, and embedded compute solutions with application-level engineering support.
Our Engineering Approach
Requirement Understanding
We analyze system requirements, operating conditions, and performance expectations.
Technology Evaluation
We identify and evaluate suitable components across sensing, motion, and compute.
Component Selection
We select the right technologies aligned with application-specific needs.
Subsystem Design
We define structured subsystem architecture ensuring compatibility and efficiency.
Integration Support
We assist in implementation, interfaces, and system-level integration.
Lifecycle Support
We support long-term performance, scalability, and system upgrades.
Defense-Grade Security
Built with zero-trust architecture from the silicon up.
AES-256 Encryption
All telemetry and video feeds are encrypted end-to-end to prevent interception.
Hardware Root of Trust
Secure boot and cryptographic key storage via embedded TPM 2.0 modules.
Anti-Jamming
Frequency-hopping spread spectrum (FHSS) communication for resilient control.
Green Robotics & Sustainability
Engineering for the future means protecting it.
Energy Efficient Drives
Our regenerative braking controllers recover up to 20% of kinetic energy.
RoHS Compliance
100% lead-free manufacturing and hazardous material elimination.
Extended Lifecycles
Hardened electronics designed to last 10+ years, reducing e-waste.
Featured Projects
Deployed engineering solutions in mission-critical scenarios.
Pioneering Autonomous Architecture
At Yashvi Autonomous, we bridge the gap between mechanical platforms and true intelligence. Our specialized engineering team designs and manufactures mission-critical subsystems that form the nervous system of modern autonomous vehicles and robotic arms.
Nexus Ground Robotics Architecture
Designed a ruggedized sensor-fusion hub processing LiDAR and stereoscopic vision for autonomous navigation in unmapped subterranean environments and tactical scenarios.
Deployed a fleet of 12 autonomous UAVs capable of navigating in GPS-denied environments to monitor structural integrity and thermal anomalies in real-time, reducing inspection times by 74% while maintaining 99.9% uptime.
Securing Offshore Energy Infrastructure
Frequently Asked Questions
Common technical inquiries regarding Autonomous Systems.
How is thermal management handled in high-performance Autonomous Systems units?
We utilize advanced conduction cooling, custom heat spreaders, and thermal interface materials (TIMs) to dissipate heat efficiently without the need for active cooling fans, ensuring reliability in dusty or harsh environments.
Is Autonomous Systems compatible with open-source robotics frameworks like ROS 2?
Yes, our Autonomous Systems architecture is fully compatible with modern middleware including ROS 2 and DDS. We provide comprehensive drivers, API access, and integration guides to facilitate seamless communication with your existing software stack.
Can Autonomous Systems be customized for unique operational requirements?
Absolutely. We offer ruggedized enclosures and conformal-coated electronics designed for extreme temperatures, moisture, and high vibration.
What makes our Autonomous Systems solutions suitable for mission-critical applications?
Our Autonomous Systems systems are engineered from the ground up for extreme environments. We utilize MIL-SPEC components, deterministic software architectures, and rigorous stress testing to ensure zero single points of failure, making them highly reliable for critical operations.
Engineering Subsystems
Comprehensive hardware and software solutions for your platform.
Drive & Control Systems
High-torque motor controllers and precision actuators with built-in closed-loop feedback algorithms.
Sensor Integration Nodes
Unified data collection modules interfacing with LiDAR, RADAR, Ultrasonic, and IMU sensors seamlessly.
Power Management (BMS)
Intelligent battery management systems ensuring prolonged operational uptime and thermal safety.
Telemetry & Comms
Encrypted, low-latency radio and cellular communication modules for remote command and control.
Partner with our engineers to architect and deploy your next-generation perception, compute, and navigation subsystems.