The authors present a novel architecture for implementing general-purpose fuzzy chips which allows fully-parallel rule processing employing a reduced number of mixed-signal computing blocks and minimum-sized digital memories. The resulting fuzzy processor can interact directly with continuous sensors and actuators and the subsequent digital processing system
A new architecture is presented for the implementation of fuzzy systems using analog-digital techniq...
This paper describes the architecture of two VLSI Fuzzy chips designed to run at very high speed: 50...
Analog circuits provide better area/power efficiency than their digital counterparts for low-medium ...
This paper presents a novel architecture to implement general-purpose fuzzy chips. It allows fully-p...
Limits to precision impose limits to the complexity of analog circuits, hence fuzzy analog controll...
Limited precision imposes limits on the complexity of analogue circuits, and hence fuzzy analogue co...
This paper presents a mixed-signal neuro-fuzzy controller chip which, in terms of power consumption,...
Analog circuits are natural candidates to design fuzzy chips with optimum speed/power figures for pr...
This paper focus on the design of adaptive mixed-signal fuzzy chips. These chips have parallel archi...
The low/medium precision required for many fuzzy applications makes analog circuits natural candidat...
This paper presents mixed-signal current-mode CMOS circuits to implement programmable fuzzy control...
The escalating performance demands of context-aware applications have recently motivated the use of ...
This paper describes a programmable fuzzy controller chip designed with mixed-signal IC techniques. ...
Analog circuits provide better area/power efficiency than their digital counterparts for low-medium ...
We present a fuzzy inference chip capable to evaluate 16 programmable rules at a speed of 2.5Mflips ...
A new architecture is presented for the implementation of fuzzy systems using analog-digital techniq...
This paper describes the architecture of two VLSI Fuzzy chips designed to run at very high speed: 50...
Analog circuits provide better area/power efficiency than their digital counterparts for low-medium ...
This paper presents a novel architecture to implement general-purpose fuzzy chips. It allows fully-p...
Limits to precision impose limits to the complexity of analog circuits, hence fuzzy analog controll...
Limited precision imposes limits on the complexity of analogue circuits, and hence fuzzy analogue co...
This paper presents a mixed-signal neuro-fuzzy controller chip which, in terms of power consumption,...
Analog circuits are natural candidates to design fuzzy chips with optimum speed/power figures for pr...
This paper focus on the design of adaptive mixed-signal fuzzy chips. These chips have parallel archi...
The low/medium precision required for many fuzzy applications makes analog circuits natural candidat...
This paper presents mixed-signal current-mode CMOS circuits to implement programmable fuzzy control...
The escalating performance demands of context-aware applications have recently motivated the use of ...
This paper describes a programmable fuzzy controller chip designed with mixed-signal IC techniques. ...
Analog circuits provide better area/power efficiency than their digital counterparts for low-medium ...
We present a fuzzy inference chip capable to evaluate 16 programmable rules at a speed of 2.5Mflips ...
A new architecture is presented for the implementation of fuzzy systems using analog-digital techniq...
This paper describes the architecture of two VLSI Fuzzy chips designed to run at very high speed: 50...
Analog circuits provide better area/power efficiency than their digital counterparts for low-medium ...