Add to ORKGAn engineered system that hears, such as a speech recognizer, can be designed by modeling the cochlea, or inner ear, and higher levels of the auditory nervous system. To be useful in such a system, a model of the cochlea should incorporate a variety of known effects, such as an asymmetric lowpass/bandpass response at each output channel, a short ringing time, and active adaptation to a wide range of input signal levels. An analog electronic cochlea has been built in CMOS VLSI technology using micropower techniques to achieve this goal of usefulness via realism. The key point of the model and circuit is that a cascade of simple, nearly linear, second-order filter stages with controllable Q parameters suffices to capture the physics of the...
We show data from a working 45-stage analog VLSI cochlea, built on a 2.2 mm×2.2 mm tiny chip. The no...
Low-power wide-dynamic-range systems are extremely hard to build. The biological cochlea is one of t...
This thesis studies neural computation models and neuromorphic implementations of the auditory pathw...
An engineered system that hears, such as a speech recognizer, can be designed by modeling the cochle...
An engineered system that hears, such as a speech recognizer, can be designed by modeling the cochle...
An analog electronic cochlea has been built in CMOS VLSI technology using micropower techniques. The...
Absfracf-An engineered system that hears, such as a speech recog-nizer, can be designed by modeling ...
This paper presents the design and simulation results of a silicon cochlea system that has closely s...
The original “analog electronic cochlea” of Lyon and Mead (1988) used a cascade of second-order fil...
This paper presents the design and experimental results of a cochlea filter in analog very large sca...
The human auditory system vastly outperforms any machine in efficiency and robustness in perceiving ...
The challenge of making cost-effective implementations of auditory models has led us to pursue an an...
Wave propagation in the cochlea can be modeled at various levels and for vari-ous purposes. We are i...
This thesis presents a novel biomimetic cochlea filter which closely resembles the biological cochl...
A novel circuit is presented for implementing a bidirectional passive cochlear model in analog VLSI...
We show data from a working 45-stage analog VLSI cochlea, built on a 2.2 mm×2.2 mm tiny chip. The no...
Low-power wide-dynamic-range systems are extremely hard to build. The biological cochlea is one of t...
This thesis studies neural computation models and neuromorphic implementations of the auditory pathw...
An engineered system that hears, such as a speech recognizer, can be designed by modeling the cochle...
An engineered system that hears, such as a speech recognizer, can be designed by modeling the cochle...
An analog electronic cochlea has been built in CMOS VLSI technology using micropower techniques. The...
Absfracf-An engineered system that hears, such as a speech recog-nizer, can be designed by modeling ...
This paper presents the design and simulation results of a silicon cochlea system that has closely s...
The original “analog electronic cochlea” of Lyon and Mead (1988) used a cascade of second-order fil...
This paper presents the design and experimental results of a cochlea filter in analog very large sca...
The human auditory system vastly outperforms any machine in efficiency and robustness in perceiving ...
The challenge of making cost-effective implementations of auditory models has led us to pursue an an...
Wave propagation in the cochlea can be modeled at various levels and for vari-ous purposes. We are i...
This thesis presents a novel biomimetic cochlea filter which closely resembles the biological cochl...
A novel circuit is presented for implementing a bidirectional passive cochlear model in analog VLSI...
We show data from a working 45-stage analog VLSI cochlea, built on a 2.2 mm×2.2 mm tiny chip. The no...
Low-power wide-dynamic-range systems are extremely hard to build. The biological cochlea is one of t...
This thesis studies neural computation models and neuromorphic implementations of the auditory pathw...