ROSIC: Enhancing secure and accessible robot control through open-source instant messaging platforms

IF 1.5 Q3 AUTOMATION & CONTROL SYSTEMS IET Cybersystems and Robotics Pub Date : 2024-03-29 DOI:10.1049/csy2.12112
Rasoul Sadeghian, Shahrooz Shahin, Sina Sareh
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Abstract

Ensuring secure communication and seamless accessibility remains a primary challenge in controlling robots remotely. The authors propose a novel approach that leverages open-source instant messaging platforms to overcome the complexities and reduce costs associated with implementing a secure and user-centred communication system for remote robot control named Robot Control System using Instant Communication (ROSIC). By leveraging features, such as real-time messaging, group chats, end-to-end encryption and cross-platform support inherent in the majority of instant messenger platforms, we have developed middleware that establishes a secure and efficient communication system over the Internet. By using instant messaging as the communication interface between users and robots, ROSIC caters to non-technical users, making it easier for them to control robots. The architecture of ROSIC enables various scenarios for robot control, including one user controlling multiple robots, multiple users controlling one robot, multiple robots controlled by multiple users, and one user controlling one robot. Furthermore, ROSIC facilitates the interaction of multiple robots, enabling them to interoperate and function collaboratively as a swarm system by providing a unified communication platform that allows for seamless exchange of data and commands. Telegram was specifically chosen as the instant messaging platform by the authors due to its open-source nature, robust encryption, compatibility across multiple platforms and interactive communication capabilities through channels and groups. Notably, the ROSIC is designed to communicate effectively with robot operating system (ROS)-based robots to enhance our ability to control them remotely.

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ROSIC:通过开源即时通讯平台加强机器人控制的安全性和可及性
确保安全通信和无缝接入仍然是远程控制机器人的主要挑战。作者提出了一种新颖的方法,利用开源即时通信平台克服复杂性,降低成本,为远程机器人控制实现安全和以用户为中心的通信系统,该系统被命名为 "使用即时通信的机器人控制系统(ROSIC)"。我们利用大多数即时通信平台固有的实时通信、群组聊天、端到端加密和跨平台支持等功能,开发了中间件,通过互联网建立了一个安全高效的通信系统。通过使用即时信息作为用户和机器人之间的通信接口,ROSIC 迎合了非技术用户的需求,使他们更容易控制机器人。ROSIC 的架构可实现多种机器人控制场景,包括一个用户控制多个机器人、多个用户控制一个机器人、多个用户控制多个机器人以及一个用户控制一个机器人。此外,ROSIC 还能促进多个机器人之间的互动,通过提供一个统一的通信平台,实现数据和命令的无缝交换,使它们能够互通有无,以蜂群系统的形式协同运作。作者特别选择 Telegram 作为即时通讯平台,因为它具有开源性、强大的加密功能、跨平台兼容性以及通过频道和群组进行互动交流的能力。值得注意的是,ROSIC 的设计目的是与基于机器人操作系统(ROS)的机器人进行有效通信,以增强我们远程控制它们的能力。
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来源期刊
IET Cybersystems and Robotics
IET Cybersystems and Robotics Computer Science-Information Systems
CiteScore
3.70
自引率
0.00%
发文量
31
审稿时长
34 weeks
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