Paper Website

STR Robot: Design of an Autonomous Mobile Robot from Simulation to Reality

A project website for presenting the development of an autonomous mobile robot, from simulation-based validation to real-world deployment with onboard control, self-localization, and navigation.

Vinh Nguyen^†, Gia-Uy Le^†, Tien-Dat Nguyen, Tri-Tin Nguyen, Vinh-Hao Nguyen*

Control and Automation Lab, Room 207, Building B3, Department of Control and Automation, Faculty of Electrical and Electronic Engineering, Ho Chi Minh City University of Technology, VNU-HCM

vinh.nguyen2604@hcmut.edu.vn | uy.legia7@hcmut.edu.vn | nguyentiendat.sdh242@hcmut.edu.vn | tin.nguyen2004@hcmut.edu.vn | vinhhao@hcmut.edu.vn

^† These authors contributed equally to this work. | * Corresponding author

Read Abstract Citation GitHub Code (Coming Soon)

Abstract

With the rapid development of simulation tools, the development and validation of autonomous robotic systems have become more efficient before real-world deployment. This paper presents a simulation-to-real implementation of an autonomous mobile robot based on an existing mechanical platform. Instead of focusing on mechanical design, our work concentrates on the development of the onboard control, self-localization, and autonomous navigation system. The proposed robot is equipped with onboard sensing and computation to estimate its pose and navigate autonomously in the environment. The overall framework is first developed and tested in simulation, and then deployed on the real robot for experimental evaluation. The results demonstrate the feasibility of the proposed approach and show that simulation provides an effective foundation for developing reliable autonomous mobile robot systems.

Project Introduction Video

Project Overview

This work studies a practical sim-to-real pipeline for autonomous mobile robots. The system is first designed and verified in simulation, then transferred to a real robot platform for deployment and testing. The emphasis is placed on three major components: onboard control, pose estimation, and autonomous navigation.

Simulation-to-Real Mobile Robot Autonomous Navigation Self-Localization Onboard Control

Main Contributions

1. Practical sim-to-real workflow

A full development pipeline from simulation testing to real robot deployment.

2. Autonomous robot system integration

Integration of sensing, computation, localization, and navigation into one onboard platform.

3. Experimental validation

Real-world experiments demonstrating the feasibility and reliability of the proposed system.

Simulation-to-Real pipeline

System overview

Media

Demonstration videos of the proposed system, including path planning, path tracking, dynamic obstacle avoidance, and autonomous navigation.

Path Planning

Path Tracking

Dynamic Obstacle Avoidance

Autonomous Navigation

Citation

@inproceedings{nguyen2026strrobot,
            title     = {STR Robot: Design of an Autonomous Mobile Robot from Simulation to Reality},
            author    = {Nguyen, Vinh and Le, Gia-Uy and Nguyen, Tien-Dat and Nguyen, Tri-Tin and Nguyen, Vinh-Hao},
            booktitle = {Proceedings of the 11th International Conference on Applying New Technology in Green Buildings},
            year      = {2026}
          }