Rust for Robotics & Embedded Systems

Reactive Publishing

Rust has emerged as the most compelling language for robotics, embedded systems, and cyber-physical platforms that demand low-latency, high-reliability, and strict memory safety. As autonomous machines grow in complexity, the need for deterministic execution, strong type guarantees, and concurrency without data races is transforming how engineers build real-world robotic systems.

Rust for Robotics & Embedded Systems is a comprehensive guide to designing intelligent machines with Rust from the firmware up. This book shows engineers how to interface sensors, actuators, and microcontrollers; build motion control primitives; and implement safety-critical mechanisms for robots that must operate without failure in real time. Through practical examples and executable code, readers learn how to combine embedded Linux, no_std environments, RTOS integration, and robotics middleware to deliver deterministic performance without compromising safety.

Key topics include:

- Deterministic execution and concurrency without data races
- Microcontrollers, embedded Linux, and no_std Rust environments
- Real-time motion control, path planning, and servo coordination
- Sensor integration for IMUs, lidar, encoders, cameras, and depth sensors
- Safety-critical design patterns for robotics & embedded systems
- Rust for ROS2, PX4, and other robotics middleware ecosystems
- Firmware architecture, messaging, and scheduling
- Testing, verification, and simulation frameworks for robot software
- Deploying to drones, manipulators, autonomous vehicles, and industrial machines
- Memory safety, performance engineering, and resource constraints

Rust for Robotics & Embedded Systems is written for robotics engineers, embedded developers, systems programmers, and researchers who want to leverage Rust to build machines that are safe, intelligent, and reliable. Whether you are prototyping motion control on a microcontroller or building large-scale autonomous systems, this book delivers a unified technical foundation for the next generation of robotics software.