Smart-pixel array processors based on optimal cellular neural networks for space sensor applications

Wai Chi Fang; Bing J. Sheu; Holger Venus; Rainer Sandau

Smart-pixel array processors based on optimal cellular neural networks for space sensor applications

Wai Chi Fang^*
, Bing J. Sheu
, Holger Venus
, Rainer Sandau

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

2 Scopus citations

Abstract

A smart-pixel cellular neural networks with hardware annealing capability, digitally programmable synaptic weights, and multisensor parallel interface has been under development for advanced space sensor applications. The smart-pixel CNN architecture is a programmable multi-dimensional array of optoelectronic neurons which are locally connected with their local neurons and associated active-pixel sensors. Integration of the neuroprocessor in each processor node of a scalable muliprocessor system offers orders-of-magnitude computing performance enhancements for on-board real-time intelligent multisensor processing and control tasks of advanced small satellites. The smart-pixel CNN operation theory, architecture, design and implementation, and system applications are investigated in details. The VLSI implementation feasibility was illustrated by a prototype smart-pixel 5X5-neuroprocessor array chip of active dimensions 1380 x 746 μm in a 2-μm CMOS technology.

Original language	English
Pages (from-to)	9-23
Number of pages	15
Journal	D L R - Forschungsberichte
Issue number	3
State	Published - 1997
Externally published	Yes

Keywords

Array processors
Image sensor
Multichip module
Neural networks
Optoelectronic integrated circuit
Parallel processing
Small satellite
Smart pixels
VLSI

Cite this

@article{ced719c908ba4dd58b328def7c8bedb0,

title = "Smart-pixel array processors based on optimal cellular neural networks for space sensor applications",

abstract = "A smart-pixel cellular neural networks with hardware annealing capability, digitally programmable synaptic weights, and multisensor parallel interface has been under development for advanced space sensor applications. The smart-pixel CNN architecture is a programmable multi-dimensional array of optoelectronic neurons which are locally connected with their local neurons and associated active-pixel sensors. Integration of the neuroprocessor in each processor node of a scalable muliprocessor system offers orders-of-magnitude computing performance enhancements for on-board real-time intelligent multisensor processing and control tasks of advanced small satellites. The smart-pixel CNN operation theory, architecture, design and implementation, and system applications are investigated in details. The VLSI implementation feasibility was illustrated by a prototype smart-pixel 5X5-neuroprocessor array chip of active dimensions 1380 x 746 μm in a 2-μm CMOS technology.",

keywords = "Array processors, Image sensor, Multichip module, Neural networks, Optoelectronic integrated circuit, Parallel processing, Small satellite, Smart pixels, VLSI",

author = "Fang, \{Wai Chi\} and Sheu, \{Bing J.\} and Holger Venus and Rainer Sandau",

year = "1997",

language = "英语",

pages = "9--23",

journal = "D L R - Forschungsberichte",

issn = "1434-8454",

publisher = "Deutschen Forschungsanstalt fur Luft-und Raumfahrt",

number = "3",

}

TY - JOUR

T1 - Smart-pixel array processors based on optimal cellular neural networks for space sensor applications

AU - Fang, Wai Chi

AU - Sheu, Bing J.

AU - Venus, Holger

AU - Sandau, Rainer

PY - 1997

Y1 - 1997

N2 - A smart-pixel cellular neural networks with hardware annealing capability, digitally programmable synaptic weights, and multisensor parallel interface has been under development for advanced space sensor applications. The smart-pixel CNN architecture is a programmable multi-dimensional array of optoelectronic neurons which are locally connected with their local neurons and associated active-pixel sensors. Integration of the neuroprocessor in each processor node of a scalable muliprocessor system offers orders-of-magnitude computing performance enhancements for on-board real-time intelligent multisensor processing and control tasks of advanced small satellites. The smart-pixel CNN operation theory, architecture, design and implementation, and system applications are investigated in details. The VLSI implementation feasibility was illustrated by a prototype smart-pixel 5X5-neuroprocessor array chip of active dimensions 1380 x 746 μm in a 2-μm CMOS technology.

AB - A smart-pixel cellular neural networks with hardware annealing capability, digitally programmable synaptic weights, and multisensor parallel interface has been under development for advanced space sensor applications. The smart-pixel CNN architecture is a programmable multi-dimensional array of optoelectronic neurons which are locally connected with their local neurons and associated active-pixel sensors. Integration of the neuroprocessor in each processor node of a scalable muliprocessor system offers orders-of-magnitude computing performance enhancements for on-board real-time intelligent multisensor processing and control tasks of advanced small satellites. The smart-pixel CNN operation theory, architecture, design and implementation, and system applications are investigated in details. The VLSI implementation feasibility was illustrated by a prototype smart-pixel 5X5-neuroprocessor array chip of active dimensions 1380 x 746 μm in a 2-μm CMOS technology.

KW - Array processors

KW - Image sensor

KW - Multichip module

KW - Neural networks

KW - Optoelectronic integrated circuit

KW - Parallel processing

KW - Small satellite

KW - Smart pixels

KW - VLSI

UR - https://www.scopus.com/pages/publications/0010353168

M3 - 文章

AN - SCOPUS:0010353168

SN - 1434-8454

SP - 9

EP - 23

JO - D L R - Forschungsberichte

JF - D L R - Forschungsberichte

IS - 3

ER -

Smart-pixel array processors based on optimal cellular neural networks for space sensor applications

Abstract

Keywords

Other files and links

Fingerprint

Cite this