The Perplexus bio-inspired reconfigurable circuit

被引:0
|
作者
Upegui, Andres [1 ]
Thoma, Yann
Sanchez, Eduardo
Perez-Uribe, Andres
Moreno, Juan Manuel
Madrenas, Jordi
机构
[1] HEIG VD, Yverdon, Switzerland
[2] UPC, Barcelona, Spain
来源
NASA/ESA CONFERENCE ON ADAPTIVE HARDWARE AND SYSTEMS, PROCEEDINGS | 2007年
关键词
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
This paper introduces the ubichip, a custom reconfigurable electronic device capable of implementing bio-inspired circuits featuring growth, learning, and evolution. The ubichip is developed in the framework of Perplexus, a European project that aims to develop a scalable hardware platform made of bio-inspired custom reconfigurable devices for simulating large-scale complex systems. In this paper we describe the configurability and architectural mechanisms that will allow the implementation of evolvable and developmental cellular and neural systems in an efficient way. These mechanisms are dynamic routing, self-reconfiguration, and a neural-friendly logic cell's architecture.
引用
收藏
页码:600 / 605
页数:6
相关论文
共 50 条
  • [1] A dynamic routing algorithm for a bio-inspired reconfigurable circuit
    Thoma, Y
    Sanchez, E
    Arostegui, JMM
    Tempesti, G
    [J]. FIELD-PROGRAMMABLE LOGIC AND APPLICATIONS, PROCEEDINGS, 2003, 2778 : 681 - 690
  • [2] A Bio-inspired Reconfigurable Robot
    Tan, Ning
    Elara, Mohan Rajesh
    Elangovan, Karthikeyan
    [J]. ADVANCES IN RECONFIGURABLE MECHANISMS AND ROBOTS II, 2016, 36 : 483 - 493
  • [3] The PERPLEXUS bio-inspired hardware platform: A flexible and modular approach
    Upegui, Andres
    Thoma, Yann
    Sanchez, Eduardo
    Perez-Uribe, Andres
    Manuel Moreno, Juan
    Madrenas, Jordi
    Sassatelli, Gilles
    [J]. INTERNATIONAL JOURNAL OF KNOWLEDGE-BASED AND INTELLIGENT ENGINEERING SYSTEMS, 2008, 12 (03) : 201 - 212
  • [4] Prototyping with a bio-inspired reconfigurable chip
    Thoma, Y
    Sanchez, E
    Roggen, D
    Hetherington, C
    Moreno, JM
    [J]. 15TH IEEE INTERNATIONAL WORKSHOP ON RAPID SYSTEM PROTOTYPING, PROCEEDINGS: SHORTENING THE PATH FROM SPECIFICATION TO PROTOTYPE, 2004, : 239 - 246
  • [5] A Bio-Inspired Spatial Patterning Circuit
    Chen, Kai-Yuan
    Joe, Danial J.
    Shealy, James B.
    Land, Bruce R.
    Shen, Xiling
    [J]. 2014 36TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC), 2014, : 86 - 89
  • [6] Bio-inspired reconfigurable architecture for reliable systems
    Zhang, X
    Dragffy, G
    Pipe, AG
    [J]. VLSI'03: PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON VLSI, 2003, : 34 - 40
  • [7] Compound Reconfigurable Bio-Inspired Antenna Design
    Al-Juwhari, Mohammad H.
    Al-Makdadi, Qusai W.
    Sabbah, Zaid A.
    Issa, Saeed H.
    Faouri, Yanal S.
    [J]. PROCEEDINGS OF THE 2022 21ST MEDITERRANEAN MICROWAVE SYMPOSIUM (MMS 2022), 2022, : 264 - 267
  • [8] Bio-inspired kinematics of reconfigurable linkage structures
    Georgiou, N.
    Phocas, M. C.
    [J]. CURRENT PERSPECTIVES AND NEW DIRECTIONS IN MECHANICS, MODELLING AND DESIGN OF STRUCTURAL SYSTEMS, 2022, : 147 - 148
  • [9] Bio-inspired kinematics of reconfigurable linkage structures
    Georgiou, N.
    Phocas, M. C.
    [J]. CURRENT PERSPECTIVES AND NEW DIRECTIONS IN MECHANICS, MODELLING AND DESIGN OF STRUCTURAL SYSTEMS, 2022, : 421 - 426
  • [10] Morphological design of the bio-inspired reconfigurable HexaQuaBip robot
    Veinguertener, A.
    Hoinville, T.
    Bruneau, O.
    Fontaine, J. -G.
    [J]. MOBILE ROBOTICS-SOLUTIONS AND CHALLENGES, 2010, : 205 - 214
12345