A hybrid quasi-digital/neuromorphic architecture for tactile sensing in humanoid robots

2015 6th International Workshop on Advances in Sensors and Interfaces (IWASI) Pub Date : 2015-06-18 DOI:10.1109/IWASI.2015.7184930

P. Ros, M. Crepaldi, D. Demarchi

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引用次数: 13

Abstract

Neuromorphic engineering aims to study and develop, among the others, a new class of systems mimicking key aspects of biological systems, such as spiking (event-driven) information processing and communication, adaptive and learning behavior. Common application domains are sensory and cognitive systems, with a strong relation with the (humanoid) robotic world. Indeed, several neuromorphic sensors, inspired by human senses, have been developed, except tactile ones. Here we fill the gap by presenting a hybrid quasi-digital/neuromorphic architecture for robotic tactile sensors. Quasi-digital sensors share many features with neuromorphic systems, first of all the information encoding in the time domain. They naturally fit into an asynchronous event-driven fully-digital system, but to be fully integrated into neuromorphic applications the right framework and architecture has to be defined. Thanks to this approach, it is possible to seamlessly combine a precise continuously measuring system and a reactive sensory systems, retaining at the same time the advantages of low complexity, low area, low power consumption, distributed, and robust data acquisition systems.

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仿人机器人触觉传感的准数字/神经形态混合结构

神经形态工程旨在研究和开发一类新的系统，其中包括模仿生物系统的关键方面，如脉冲(事件驱动)信息处理和通信，自适应和学习行为。常见的应用领域是感觉和认知系统，与(类人)机器人世界有很强的关系。事实上，除了触觉传感器外，受人类感官启发，已经开发出了几种神经形态传感器。在这里，我们通过提出机器人触觉传感器的准数字/神经形态混合架构来填补这一空白。准数字传感器与神经形态系统有许多共同的特点，首先是信息的时域编码。它们自然适合异步事件驱动的全数字系统，但要完全集成到神经形态应用程序中，必须定义正确的框架和体系结构。由于这种方法，可以无缝地结合精确的连续测量系统和反应传感系统，同时保留低复杂性、低面积、低功耗、分布式和强大的数据采集系统的优点。

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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2015 6th International Workshop on Advances in Sensors and Interfaces (IWASI)

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