Add to ORKGWhile the previous chapter was about neuromorphic silicon retinas, this one is on silicon cochleas. The cochlea is biology's sound sensor - it turns vibrations in the air into a neural signal. This chapter briefly explains the operation of the various components of the biological cochlea and introduces circuits that can simulate these components. Silicon cochlea designs typically divide the biological cochlea into several sections that are equally spaced along its length. Each section is then modeled by an electronic circuit. Silicon cochlea designs may be classified as 10 or 20, depending on the coupling between these sections. Circuits for both variants are presented. They may also be classified as active or passive, depending on whether...
The original “analog electronic cochlea” of Lyon and Mead (1988) used a cascade of second-order fil...
Absfracf-An engineered system that hears, such as a speech recog-nizer, can be designed by modeling ...
Fast wideband spectrum analysis is expensive in power and hardware resources. We show that the spect...
This chapter introduced neuromorphic engineering, and a number of different silicon models that rep...
The human auditory system vastly outperforms any machine in efficiency and robustness in perceiving ...
We present a novel cochlear model implemented in analog very large scale integration (VLSI) technolo...
This paper presents the design and simulation results of a silicon cochlea system that has closely s...
This chapter goes into the details of some of the circuit blocks used in the silicon cochleas discus...
This dissertation describes silicon integrated circuits that model known and proposed physiological ...
We present a mixed-signal very-large-scale-integrated chip that emulates nonlinear active cochlear s...
This paper presents the design and simulation results of a silicon cochlea system that has closely s...
Several research groups are implementing analog integrated circuit models of biological auditory pro...
This dissertation presents the design and fabrication of two generations of a silicon microelectrode...
An engineered system that hears, such as a speech recognizer, can be designed by modeling the cochle...
This paper reviews many recent analog silicon implementations of computational models of neural audi...
The original “analog electronic cochlea” of Lyon and Mead (1988) used a cascade of second-order fil...
Absfracf-An engineered system that hears, such as a speech recog-nizer, can be designed by modeling ...
Fast wideband spectrum analysis is expensive in power and hardware resources. We show that the spect...
This chapter introduced neuromorphic engineering, and a number of different silicon models that rep...
The human auditory system vastly outperforms any machine in efficiency and robustness in perceiving ...
We present a novel cochlear model implemented in analog very large scale integration (VLSI) technolo...
This paper presents the design and simulation results of a silicon cochlea system that has closely s...
This chapter goes into the details of some of the circuit blocks used in the silicon cochleas discus...
This dissertation describes silicon integrated circuits that model known and proposed physiological ...
We present a mixed-signal very-large-scale-integrated chip that emulates nonlinear active cochlear s...
This paper presents the design and simulation results of a silicon cochlea system that has closely s...
Several research groups are implementing analog integrated circuit models of biological auditory pro...
This dissertation presents the design and fabrication of two generations of a silicon microelectrode...
An engineered system that hears, such as a speech recognizer, can be designed by modeling the cochle...
This paper reviews many recent analog silicon implementations of computational models of neural audi...
The original “analog electronic cochlea” of Lyon and Mead (1988) used a cascade of second-order fil...
Absfracf-An engineered system that hears, such as a speech recog-nizer, can be designed by modeling ...
Fast wideband spectrum analysis is expensive in power and hardware resources. We show that the spect...