Middleware for Multi-robot Systems

Sahni, Yuvraj; Cao, Jiannong; Jiang, Shan

doi:10.1007/978-3-319-92384-0_18

Cited by 10 publications

(4 citation statements)

References 75 publications

(84 reference statements)

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“…Unlike physical engines, multi-robot middleware focuses on hardware and software abstraction, interoperability, dynamic source discovery and configuration, software reuse, and real-time service [83]. Usually, middleware and physical simulators work together to complete the interaction and simulation.…”

Section: B Simulator and Middlewarementioning

confidence: 99%

Multi-Robot Systems and Cooperative Object Transport: Communications, Platforms, and Challenges

Lin

et al. 2023

IEEE Open J. Comput. Soc.

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Multi-robot systems gain considerable attention due to lower cost, better robustness, and higher scalability as compared with single-robot systems. Cooperative object transport, as a well-known use case of multi-robot systems, shows great potential in real-world applications. The design and implementation of a multi-robot system involve many technologies, specifically, communication, coordination, task allocation methods, experimental platforms, and simulators. However, most of recent multi-robot system studies focus on coordination and task allocation problems, with little focus on communications among multiple robots. In this review, we focus on the communication, validation platform, and simulator of multi-robot systems, and discuss one of the important applications, cooperative object transport. First, we study the multi-robot system fundamentals and comprehensively review the multi-robot system communication technologies. Then, the multi-robot system validating platform, testbed, simulator, and middleware used in academia and industry are investigated. Finally, we discuss recent advances in cooperative object transport, and challenges and possible future research directions for multi-robot systems.

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Section: B Simulator and Middlewarementioning

confidence: 99%

Multi-Robot Systems and Cooperative Object Transport: Communications, Platforms, and Challenges

Lin

et al. 2023

IEEE Open J. Comput. Soc.

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“…Robotic middleware can be roughly divided into three types: object‐oriented design, component‐based design, and service‐oriented design 5,20 . An overview of existing robotic middleware is shown in Table 1.…”

Section: Related Workmentioning

confidence: 99%

“…In recent years, multi‐robot systems (MRSs) have been increasingly used in different applications, for example, area exploration, 1‐3 battlefield surveillance, 4,5 and package delivery 6,7 . These applications usually require various types of robots with different functions which are realized by different sensors (e.g., camera and lidar) and actuators (e.g., gripper and mechanical arm) to work cooperatively 8,9 .…”

Section: Introductionmentioning

confidence: 99%

GraphWare: A graph‐based middleware enabling multi‐robot cooperation

Chen

Cao

Liang

et al. 2022

Concurrency and Computation

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Multi-robot systems are widely used to handle complex and cooperative missions in various industrial applications. Although robotic middleware has become the key to reducing the complexity of multi-robot application development, existing works still have limitations in controlling multiple robots to perform missions cooperatively.To enable multi-robot cooperation, middleware should provide high-level abstraction support, dynamic configuration, communication, and synchronization. In this article, we propose GraphWare, a novel middleware that provides a graph-based programming abstraction and its underlying runtime kernel for programming and building multi-robot cooperation applications. The graph-based programming abstraction can express cooperative missions without exposing the complexity of managing multiple robots. The runtime kernel configures and manages multiple heterogeneous robots to intelligently perform cooperative missions. We implement GraphWare and evaluate its performance with ball collection missions which are cooperatively accomplished by a group of mobile robots, and study the fault-tolerance, flexibility, and scalability of the middleware in the realistic simulation. The experimental results demonstrate that GraphWare facilitates the multi-robot cooperative mission with efficient mission completion time, high success rate, and marginal runtime overhead.

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“…An alternative RAMP implementation could avoid having such a single point of failure, e.g. using multi-master ROS extensions (Tiderko et al 2016;Tardioli et al 2019), or ROS2, 5 or some completely different robotic middleware like (Sahni et al 2019).…”

Section: Robot Operating Systemmentioning

confidence: 99%

Reliable distribution of computational load in robot teams

2021

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Modern multi-robot systems often need to solve computationally intensive tasks but operate with limited compute resources and in the presence of failures. Cooperating to share computational tasks between robots at the edge reduces execution time. We introduce and evaluate a new computation load management technology for teams of robots: Reliable Autonomous Mobile Programs (RAMPs). RAMPs use information about the computational resources available in the team and a cost model to decide where to execute. RAMPs are implemented in ROS on a collection of Raspberry Pi-based robots. The performance of RAMPs is evaluated using route planning, a typical computationally-intensive robotics application. A systematic study of RAMPs demonstrates a high likelihood of optimal or near-optimal distribution and hence efficient resource utilisation. RAMPs successfully complete in the presence of simultaneous, or successive, robot failures and network failures, while preserving near-optimal distribution.

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Middleware for Multi-robot Systems

Cited by 10 publications

References 75 publications

Multi-Robot Systems and Cooperative Object Transport: Communications, Platforms, and Challenges

Multi-Robot Systems and Cooperative Object Transport: Communications, Platforms, and Challenges

GraphWare: A graph‐based middleware enabling multi‐robot cooperation

Reliable distribution of computational load in robot teams

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