Bilateral Teleoperation of a Formation of Mobile Robot Using Proportional Control and Obstacle Avoidance: Experimental Results †

Juan Cabrera; Gabriela M. Andaluz; Paulo Leica; Oscar Camacho

doi:10.3390/engproc2025115010

Bilateral Teleoperation of a Formation of Mobile Robot Using Proportional Control and Obstacle Avoidance: Experimental Results †

Juan Cabrera
, Gabriela M. Andaluz^*
, Paulo Leica
, Oscar Camacho

^*Corresponding author for this work

Ingeniería Electrónica y Automatización

Escuela Politecnica Nacional

Research output: Contribution to journal › Article › peer-review

Abstract

This article proposes a distributed formation control strategy for mobile robots (using TurtleBot3 Burger platforms) based on teleoperation using artificial forces and mechanical impedance modeling. The proposed control law is structured in cascade, consisting of an external loop responsible for maintaining the formation and an internal loop dedicated to obstacle avoidance. Bilateral teleoperation is enabled by integrating the Novint Falcon haptic device, which allows the human operator to issue velocity commands to the formation and receive force feedback based on the robots’ physical interactions with congested environments. This strategy improves remote perception of the environment and promotes safe and collaborative navigation, validated through experiments in real-world environments.

Original language	English
Article number	10
Journal	Engineering Proceedings
Volume	115
Issue number	1
DOIs	https://doi.org/10.3390/engproc2025115010
State	Published - 2025

Keywords

TurtleBot
bilateral teleoperation
haptic feedback
obstacle avoidance
robot formation

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10.3390/engproc2025115010

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title = "Bilateral Teleoperation of a Formation of Mobile Robot Using Proportional Control and Obstacle Avoidance: Experimental Results †",

abstract = "This article proposes a distributed formation control strategy for mobile robots (using TurtleBot3 Burger platforms) based on teleoperation using artificial forces and mechanical impedance modeling. The proposed control law is structured in cascade, consisting of an external loop responsible for maintaining the formation and an internal loop dedicated to obstacle avoidance. Bilateral teleoperation is enabled by integrating the Novint Falcon haptic device, which allows the human operator to issue velocity commands to the formation and receive force feedback based on the robots{\textquoteright} physical interactions with congested environments. This strategy improves remote perception of the environment and promotes safe and collaborative navigation, validated through experiments in real-world environments.",

keywords = "TurtleBot, bilateral teleoperation, haptic feedback, obstacle avoidance, robot formation",

author = "Juan Cabrera and Andaluz, \{Gabriela M.\} and Paulo Leica and Oscar Camacho",

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T1 - Bilateral Teleoperation of a Formation of Mobile Robot Using Proportional Control and Obstacle Avoidance

T2 - Experimental Results †

AU - Cabrera, Juan

AU - Andaluz, Gabriela M.

AU - Leica, Paulo

AU - Camacho, Oscar

PY - 2025

Y1 - 2025

N2 - This article proposes a distributed formation control strategy for mobile robots (using TurtleBot3 Burger platforms) based on teleoperation using artificial forces and mechanical impedance modeling. The proposed control law is structured in cascade, consisting of an external loop responsible for maintaining the formation and an internal loop dedicated to obstacle avoidance. Bilateral teleoperation is enabled by integrating the Novint Falcon haptic device, which allows the human operator to issue velocity commands to the formation and receive force feedback based on the robots’ physical interactions with congested environments. This strategy improves remote perception of the environment and promotes safe and collaborative navigation, validated through experiments in real-world environments.

AB - This article proposes a distributed formation control strategy for mobile robots (using TurtleBot3 Burger platforms) based on teleoperation using artificial forces and mechanical impedance modeling. The proposed control law is structured in cascade, consisting of an external loop responsible for maintaining the formation and an internal loop dedicated to obstacle avoidance. Bilateral teleoperation is enabled by integrating the Novint Falcon haptic device, which allows the human operator to issue velocity commands to the formation and receive force feedback based on the robots’ physical interactions with congested environments. This strategy improves remote perception of the environment and promotes safe and collaborative navigation, validated through experiments in real-world environments.

KW - TurtleBot

KW - bilateral teleoperation

KW - haptic feedback

KW - obstacle avoidance

KW - robot formation

UR - https://www.scopus.com/pages/publications/105025719639

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DO - 10.3390/engproc2025115010

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SN - 2673-4591

VL - 115

JO - Engineering Proceedings

JF - Engineering Proceedings

IS - 1

M1 - 10

ER -

Bilateral Teleoperation of a Formation of Mobile Robot Using Proportional Control and Obstacle Avoidance: Experimental Results †

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