A Multi-cellular Developmental Representation for Evolution of Adaptive Spiking Neural Microcircuits in an FPGA

2009 NASA/ESA Conference on Adaptive Hardware and Systems Pub Date : 2009-07-29 DOI:10.1109/AHS.2009.39
Hooman Shayani, P. Bentley, A. Tyrrell
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引用次数: 4

Abstract

It has been shown that evolutionary and developmental processes can be used for emergence of scalability, robustness and fault-tolerance in hardware. However, designing a suitable representation for such processes is far from straightforward. Here, a bio-inspired developmental genotype-phenotype mapping for evolution of spiking neural microcircuits in an FPGA is introduced, based on a digital neuron model and cortex structure suggested and verified previously by the authors. The new developmental process is based on complex multi-cellular protein-protein and gene-protein interactions and signaling. Suitability of the representation for evolution of useful architectures and its adaptability is shown through statistical analysis and examples of scalability, modularity and fault-tolerance.
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基于FPGA的自适应脉冲神经微电路进化的多细胞发展表征
研究表明,进化和发展过程可以用于硬件的可伸缩性、鲁棒性和容错性的出现。然而,为这些过程设计合适的表示方式远非易事。在此,基于数字神经元模型和作者先前提出并验证的皮层结构,介绍了一种基于FPGA的脉冲神经微电路进化的生物启发发育基因型-表型定位。新的发育过程是基于复杂的多细胞蛋白质-蛋白质和基因-蛋白质相互作用和信号传导。通过统计分析和可扩展性、模块化和容错性的实例,说明了表示对有用体系结构演化的适用性及其适应性。
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2009 NASA/ESA Conference on Adaptive Hardware and Systems
2009 NASA/ESA Conference on Adaptive Hardware and Systems
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