电光与控制
電光與控製
전광여공제
ELECTRONICS OPTICS & CONTROL
2014年
11期
83-87,105
,共6页
孟田珍%蔡金燕%朱赛%孟亚峰
孟田珍%蔡金燕%硃賽%孟亞峰
맹전진%채금연%주새%맹아봉
电路设计%仿生硬件%电子细胞%自修复
電路設計%倣生硬件%電子細胞%自脩複
전로설계%방생경건%전자세포%자수복
circuit design%bio-inspired hardware%electronic cell%self-repair
胚胎型仿生硬件自提出以来已取得很大的研究进展,但偏重理论研究,与实际应用还有一定的差距。从工程应用的角度出发,详细介绍了如何设计一个基于电子细胞阵列的平台来实现具有自修复能力的数字电路。首先,对作为实现平台的细胞阵列结构进行简要的介绍,然后对阵列中电子细胞内的关键模块进行详细分析和具体设计,并以一个简单的数字电路为例说明了以上设计的合理性、可行性及通用性。
胚胎型倣生硬件自提齣以來已取得很大的研究進展,但偏重理論研究,與實際應用還有一定的差距。從工程應用的角度齣髮,詳細介紹瞭如何設計一箇基于電子細胞陣列的平檯來實現具有自脩複能力的數字電路。首先,對作為實現平檯的細胞陣列結構進行簡要的介紹,然後對陣列中電子細胞內的關鍵模塊進行詳細分析和具體設計,併以一箇簡單的數字電路為例說明瞭以上設計的閤理性、可行性及通用性。
배태형방생경건자제출이래이취득흔대적연구진전,단편중이론연구,여실제응용환유일정적차거。종공정응용적각도출발,상세개소료여하설계일개기우전자세포진렬적평태래실현구유자수복능력적수자전로。수선,대작위실현평태적세포진렬결구진행간요적개소,연후대진렬중전자세포내적관건모괴진행상세분석화구체설계,병이일개간단적수자전로위례설명료이상설계적합이성、가행성급통용성。
The research on embryonic bio-inspired hardware has made great progress since it was put forward.However,many researchers focused on theoretical research rather than application.From the viewpoint of engineering application,a detailed illustration is given on how to design a platform based on electronic cell array to implement digital circuits with self-healing ability.The cell array structure used as implementation platform is introduced briefly.Then,key modules of electronic cells in the array are analyzed and designed.The rationality,feasibility and universality of the design are presented by taking a simple digital circuit as an example.
