A Method of Hardware Implementation of Membrane Computing Architectures for Mobile Robot Control

2022 International Conference on Development and Application Systems (DAS) Pub Date : 2022-05-26 DOI:10.1109/DAS54948.2022.9786079

V. Ababii, V. Sudacevschi, Viorel Carbune, Silvia Munteanu, V. Alexei, Victor Lasco

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引用次数: 1

Abstract

This paper proposes a method of hardware implementation of the membrane computing architecture for the control of a mobile robot. The basic idea is to use in the development of control systems the models of functional description of living cells, which should ensure a process of design, modeling and implementation based on cognitive models. The implementation algorithm presents a sequence of operations involving: functional development and modeling of Computing Cells, development and modeling of the topology of the membrane computing system (P-System), their implementation in hardware description languages (AHDL), and configuration of the FPGA circuit for realization of the control system. For validation and analysis of the performance of the Computing Cells, Petri Net models are used, which ensure the identification of the concurrent processes while maintaining a maximum parallelism. Functional testing of membrane computing models was performed based on the Quartus II development environment, the AHDL hardware description language, and the Altera DE0 Board.

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移动机器人控制膜计算体系结构的硬件实现方法

本文提出了一种膜计算体系结构的硬件实现方法，用于移动机器人的控制。其基本思想是在控制系统的开发中使用活细胞功能描述模型，该模型应确保基于认知模型的设计、建模和实现过程。实现算法提出了一系列操作，包括:计算单元的功能开发和建模，膜计算系统(P-System)拓扑的开发和建模，它们在硬件描述语言(AHDL)中的实现，以及用于实现控制系统的FPGA电路的配置。为了验证和分析计算单元的性能，使用了Petri网模型，该模型在保持最大并行度的同时确保了并发进程的识别。基于Quartus II开发环境、AHDL硬件描述语言和Altera DE0 Board对膜计算模型进行了功能测试。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Development and Application Systems (DAS)

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