← Back to Research Radar
Scientific Literature Scientific Literature

Virtual simulation and trajectory tracking control of an autonomous underwater vehicle in Unity environment

Gildardo Godinez-Garrido, Juan-Carlos González-Islas, Miriam Estrada-Segura, Ernesto Bolaños Rodríguez, Kristian-Freyri Maya-Gress, Gonzalo-Alberto Torres-Samperio
June 7, 2026
Published Date

Research Abstract & Technology Focus

In this study, we present a general framework for virtual simulation and trajectory tracking control of an AUV in Unity. Firstly, the conceptual design and 3D modelling are developed. Then the CAD model is optimized and exported to the virtual environment. Buoyancy effects, hydrodynamic forces, and trajectory-tracking behavior are integrated in a dynamic model, and a Linear Quadratic Regulator (LQR) controller is used to regulate depth and orientation, optimizing control effort while maintaining stability. Finally, a supervisory control and data acquisition (SCADA) system is applied for real-time monitoring and supervision of both the virtual and experimental platforms. The simulation results demonstrate that the LQR controller improves manoeuvrability and trajectory accuracy, supporting a low-risk and technically consistent approximation of the AUV response under the modeled conditions. The reported communication timing, rendering stability, frame-rate behavior, and memory usage provide technical evidence for synchronized Unity-based visualization, while full headset-based or user-centered VR evaluation remains future work. This work provides evidence that a Unity-based real-time visualization environment can serve as a flexible, low-cost environment for preliminary testing of underwater robots and establishes a methodological foundation for future integration of advanced control strategies and subsequent immersive and physical implementation stages.
Read Full Literature

AI Semantic Synergy Context

Connecting this academic literature to real-world market discussions and products.

openalex.org › research concept
0%

Integrating Proximal Policy Optimization with Physically Realistic Simulation for Robust Autonomous Underwater Vehicle Control

This study presents the design and implementation of a reinforcement learning (RL)-based framework for the control of an autonomous underwater vehicle (AUV) directly within Unreal Engine (UE). A hi...

openalex.org › research concept
0%

Instantaneous Planning, Control and Safety for Navigation in Unknown Underwater Spaces

Navigating autonomous underwater vehicles (AUVs) in unknown environments is significantly challenging due to poor visibility, weak signal transmission, and dynamic water currents. These factors pos...

openalex.org › research concept
0%

Analysis of advanced modified tuna swarm optimization technique for path planning of underwater vehicle

Purpose Path planning with obstacle avoidance is crucial for navigating an autonomous underwater vehicle (AUV) in an unknown and obstacle-rich three-dimensional space. This paper aims to develop an...

openalex.org › research concept
0%

A Method for Synthesis of Position-Force Control Systems for Electric Drives of Multi-Link Manipulators Mounted on Autonomous Underwater Vehicles. Part 2

In the first part of the article, the authors proposed a comprehensive method for solving the problem of synthesizing combined position-force control systems (CS) for electric drives (ED) of multi-...

openalex.org › research concept
0%

Pioneering Robotic Autonomous Underwater Vehicle (AUV) with Electric Field Gradient Sensor – Transforming UnderWater Pipeline Inspections

Abstract Conventional underwater pipeline inspections typically utilize Remotely Operated Vehicles (ROVs) tethered to Dynamic Positioning Class 2 (DP2) vessels, which entail significant expenses. T...

Frequently Asked Questions (FAQ)

Curated market intelligence mapped to this research.

What is the core focus of the research titled 'Virtual simulation and trajectory tracking control of an autonomous underwater vehicle in Unity environment'?

This literature focuses on: In this study, we present a general framework for virtual simulation and trajectory tracking control of an AUV in Unity. Firstly, the conceptual design and 3D modelling are developed. Then the CAD model is optimized and exported to the virtual env...

What other academic literature is closely related to 'Virtual simulation and trajectory tracking control of an autonomous underwater vehicle in Unity environment'?

Yes, highly correlated activity was mapped. An entry titled 'Integrating Proximal Policy Optimization with Physically Realistic Simulation for Robust Autonomous Underwater Vehicle Control' discusses this: This study presents the design and implementation of a reinforcement learning (RL)-based framework for the control of an autonomous underwater vehi...

Cite this Market Intelligence Report

Reference our AI-mapped synergy between this research and the commercial market to instantly build authority.