Autonomous operation of a robot dog for point-cloud data acquisition

Panagiotis Petropoulakis; Mohammad Reza Kolani; André Borrmann

doi:10.17868/strath.00093277

Autonomous operation of a robot dog for point-cloud data acquisition

Panagiotis Petropoulakis, Mohammad Reza Kolani, André Borrmann

Architecture

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

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Abstract

This paper presents the development of an autonomous operation for a robot dog, the Unitree Go1, to acquire a detailed point cloud of a building’s interior, from simulation to real-world experiments. The system integrates a 3D LiDAR, an RGB-D camera, and a mini-PC, enabling the Go1 to autonomously navigate, avoid obstacles, and collect data. The process includes developing the solution inside a simulation environment within the Robot Operating System (ROS) to simulate the Go1 movement in a building model. Real-Time Appearance-Based Mapping (RTAB-Map) has been adapted for the robot's 3D localization. In addition, real-world experiments were conducted to validate the pipeline. Our proposed framework provides valuable insights for the construction community, outlining current limitations and suggesting directions for future work. To promote transparency and enable reproducibility, we have made the code used and developed in our experiments publicly available at: https://github.com/MooKol/unitree_go1.

Original language	English
Title of host publication	EG-ICE 2025
Subtitle of host publication	AI-Driven Collaboration for Sustainable and Resilient Built Environments Conference Proceedings
Editors	Alejandro Moreno-Rangel, Bimal Kumar
Place of Publication	Glasgow
Number of pages	8
DOIs	https://doi.org/10.17868/strath.00093277
Publication status	Published - 1 Jul 2025
Event	EG-ICE 2025: International Workshop on Intelligent Computing in Engineering - The Technology and Innovation Centre, Glasgow, United Kingdom Duration: 1 Jul 2025 → 3 Jul 2025 https://egice2025.co.uk/

Conference

Conference	EG-ICE 2025: International Workshop on Intelligent Computing in Engineering
Country/Territory	United Kingdom
City	Glasgow
Period	1/07/25 → 3/07/25
Internet address	https://egice2025.co.uk/

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 11 Sustainable Cities and Communities

Keywords

legged robot
point cloud acquisition
autonomous navigation
construction robots
LiDAR

Access to Document

10.17868/strath.00093277Licence: CC BY 4.0

Petropoulakis-etal-EG-ICE-2025-Autonomous-operation-of-a-robot-dog-forFinal published version, 1.01 MBLicence: CC BY 4.0

EG-ICE 2025: AI-Driven Collaboration for Sustainable and Resilient Built Environments Conference Proceedings
Moreno-Rangel, A. & Kumar, B., 6 Mar 2026, Glasgow.
Research output: Book/Report › Book

Open Access
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Cite this

@inproceedings{172022ef82f44c8d9e9a1a16a9cd6c97,

title = "Autonomous operation of a robot dog for point-cloud data acquisition",

abstract = "This paper presents the development of an autonomous operation for a robot dog, the Unitree Go1, to acquire a detailed point cloud of a building{\textquoteright}s interior, from simulation to real-world experiments. The system integrates a 3D LiDAR, an RGB-D camera, and a mini-PC, enabling the Go1 to autonomously navigate, avoid obstacles, and collect data. The process includes developing the solution inside a simulation environment within the Robot Operating System (ROS) to simulate the Go1 movement in a building model. Real-Time Appearance-Based Mapping (RTAB-Map) has been adapted for the robot's 3D localization. In addition, real-world experiments were conducted to validate the pipeline. Our proposed framework provides valuable insights for the construction community, outlining current limitations and suggesting directions for future work. To promote transparency and enable reproducibility, we have made the code used and developed in our experiments publicly available at: https://github.com/MooKol/unitree\_go1.",

keywords = "legged robot, point cloud acquisition, autonomous navigation, construction robots, LiDAR",

author = "Panagiotis Petropoulakis and Kolani, \{Mohammad Reza\} and Andr{\'e} Borrmann",

year = "2025",

month = jul,

day = "1",

doi = "10.17868/strath.00093277",

language = "English",

isbn = "9781914241826",

editor = "Alejandro Moreno-Rangel and Bimal Kumar",

booktitle = "EG-ICE 2025",

note = "EG-ICE 2025: International Workshop on Intelligent Computing in Engineering ; Conference date: 01-07-2025 Through 03-07-2025",

url = "https://egice2025.co.uk/",

}

Petropoulakis, P, Kolani, MR & Borrmann, A 2025, Autonomous operation of a robot dog for point-cloud data acquisition. in A Moreno-Rangel & B Kumar (eds), EG-ICE 2025: AI-Driven Collaboration for Sustainable and Resilient Built Environments Conference Proceedings. Glasgow, EG-ICE 2025: International Workshop on Intelligent Computing in Engineering, Glasgow, United Kingdom, 1/07/25. https://doi.org/10.17868/strath.00093277

Autonomous operation of a robot dog for point-cloud data acquisition. / Petropoulakis, Panagiotis; Kolani, Mohammad Reza; Borrmann, André.
EG-ICE 2025: AI-Driven Collaboration for Sustainable and Resilient Built Environments Conference Proceedings. ed. / Alejandro Moreno-Rangel; Bimal Kumar. Glasgow, 2025.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution book

TY - GEN

T1 - Autonomous operation of a robot dog for point-cloud data acquisition

AU - Petropoulakis, Panagiotis

AU - Kolani, Mohammad Reza

AU - Borrmann, André

PY - 2025/7/1

Y1 - 2025/7/1

N2 - This paper presents the development of an autonomous operation for a robot dog, the Unitree Go1, to acquire a detailed point cloud of a building’s interior, from simulation to real-world experiments. The system integrates a 3D LiDAR, an RGB-D camera, and a mini-PC, enabling the Go1 to autonomously navigate, avoid obstacles, and collect data. The process includes developing the solution inside a simulation environment within the Robot Operating System (ROS) to simulate the Go1 movement in a building model. Real-Time Appearance-Based Mapping (RTAB-Map) has been adapted for the robot's 3D localization. In addition, real-world experiments were conducted to validate the pipeline. Our proposed framework provides valuable insights for the construction community, outlining current limitations and suggesting directions for future work. To promote transparency and enable reproducibility, we have made the code used and developed in our experiments publicly available at: https://github.com/MooKol/unitree_go1.

AB - This paper presents the development of an autonomous operation for a robot dog, the Unitree Go1, to acquire a detailed point cloud of a building’s interior, from simulation to real-world experiments. The system integrates a 3D LiDAR, an RGB-D camera, and a mini-PC, enabling the Go1 to autonomously navigate, avoid obstacles, and collect data. The process includes developing the solution inside a simulation environment within the Robot Operating System (ROS) to simulate the Go1 movement in a building model. Real-Time Appearance-Based Mapping (RTAB-Map) has been adapted for the robot's 3D localization. In addition, real-world experiments were conducted to validate the pipeline. Our proposed framework provides valuable insights for the construction community, outlining current limitations and suggesting directions for future work. To promote transparency and enable reproducibility, we have made the code used and developed in our experiments publicly available at: https://github.com/MooKol/unitree_go1.

KW - legged robot

KW - point cloud acquisition

KW - autonomous navigation

KW - construction robots

KW - LiDAR

U2 - 10.17868/strath.00093277

DO - 10.17868/strath.00093277

M3 - Conference contribution book

SN - 9781914241826

BT - EG-ICE 2025

A2 - Moreno-Rangel, Alejandro

A2 - Kumar, Bimal

CY - Glasgow

T2 - EG-ICE 2025: International Workshop on Intelligent Computing in Engineering

Y2 - 1 July 2025 through 3 July 2025

ER -

Autonomous operation of a robot dog for point-cloud data acquisition

Abstract

Conference

UN SDGs

Keywords

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Research output

EG-ICE 2025: AI-Driven Collaboration for Sustainable and Resilient Built Environments Conference Proceedings

Cite this