- Analog ear
An analog ear or analog cochlea is a model of the
earor of the cochlea(in the inner ear) based on an electrical, electronic or mechanical analog. An analog ear is commonly described as an interconnection of electrical elements such as resistors, capacitors, and inductors; sometimes transformers and active amplifiers are included.
The ear of the typical mammal consists of three parts. The
outer earcollects sounds like a horn and guides them to the eardrum. Vibrations of the drum are conveyed to the inner earvia a system of bones called ossicles. These leverage the larger motions of the eardrumto the smaller vibrations of the oval window. This window connects to the cochleawhich is a long dual channel arrangement consisting of two channels separated by the basilar membrane. The structure, about 36 mm in length, is coiled to conserve space. The oval windowintroduces sounds to the upper channel. The lower channel has a round windowbut this is not driven by the bones of the middle ear. The far end of the structure has a hole between the two channels called the helicotremathat equalizes slowly varying pressures in the two channels. A series of sensory hair cellsalong the basilar membranerespond to send neural pulses towards the brain.
Models for the ear of a direct kind have been created, most notably by (Nobel Laureate)
Georg von Bekesy. He used glass slides, razor blades, and an elastic membrane to represent the helicotrema. He could measure vibrations along the basilar membranein response to different excitations frequencies. He found that the pattern of displacements for given frequency sine wave along the basilar membranerose somewhat gradually to a peak and thereafter fell. High freequencies favored shorter distances from the oval windowthan did lower ones. Frequency values approximate a logarithmic distribution with distance.
Detailed discussions of the direct models by
von Bekesywill be found in his book, "Experiments in Hearing", McGraw-Hill, 1960. Also see his article and others in S. S. Stevens, "Handbook of Experimental Psychology", John Wiley and Sons, 1951. This handbook is singled out as a major source of information on speech and hearing, word recognition, and other topics as well as data on the human ear.
Mechanical and electrical analogs
Early mechanical and electrical analog ears were recounted in the 1954 book "Analog Methods in Computation and Simulation": [cite book | title = Analog Methods in Computation and Simulation | author = Walter W. Soroka | publisher = McGraw-Hill | year = 1954 | url = http://books.google.com/books?id=WHlQAAAAMAAJ&q=%22analog+ear%22+inauthor:soroka&dq=%22analog+ear%22+inauthor:soroka&lr=&as_brr=0&ei=cEhoSNDvNabUswP5xOy5Bg&pgis=1 ]
A direct (mechanical) model uses the variables of air and water pressure, fluid velocity and viscosity, and displacement. An electrical analog model uses a different set of variables, namely, voltage and current. The outer and middle parts of the ear can be represented with a collection of coils, capacitors, and an ideal transformer to represent the leveraging effect of the
ossicles. This circuit terminates with a capacitor representing the oval window. From there, the two channels are represented with a sequence of inductors and resistors for fluid flow within each channel with the two channels joined with a sequence of series resonant RLC circuits. Voltages across capacitances represent basilar membranedisplacements. Element values along the cochlea are tapered in a logarithmic fashion to represent lowering frequency responses with distance.
The pattern of voltages along the
basilar membranecan be viewed on an oscilloscope. Average values can be obtained with rectification and shown as patterns using a high speed commutator. The analog ear shows patterns that closely follow those observed by Georg von Békésyon his more direct model.
The first relatively complete model was constructed in the early 1960s at the University of Arizona by two graduate students and their faculty mentor with support from the newly established Air Force
Bionicsprogram. This work was first summarized in a report: "An Electronic Analog of the Ear", Technical Documentary Report No. AMRL-TDR-63-60, June, 1963, Biophysics Laboratory, 6570-th Aerospace Medical Research Laboratories, Aerospace Medical Division, Air Force Systems Command, by E. Glaesser, W. F. Caldwell, and J. L. Stewart. The report contains an extensive list of references. The work was also reported at Bionicssymposia.
John L. Stewart and Covox
Unlike models based on a series of active filters or represented with digital equations, an analog ear can incorporate nonlinearities that represent nonlinear actions of the
basilar membrane, perhaps caused by non-symmetric motions of sensory cells resulting in non-symmetric motions of the basilar membrane. Difference frequencies could be generated as are observed in the human. Some difference frequencies originating in the cochela can be observed in the outer ear.
Neural signals responding to motions of the
basilar membraneshow responses in one direction as in rectification. At all but low frequencies, the neural measure averages over multiple cycles to give the equivalent of rectification followed by averaging (low-pass filtering). Over the entire cochlea, response shows as a pattern that varies more slowly that the applied frequency but that does follow the envelope of the applied signal. Each group of cells can give rise to a semi-periodic wave that can be analyzed by neurons in the brain. The total pattern that arises from a sound can thus be thought of as a two-dimensional pattern in time with one axis being the distance along the basilar membraneand the other being distance along some sequence of neurons. These patterns, varying at rates less than lower audio frequencies, have shapes that can be identified much like patterns in vision. The concept of the "neural analyzer" as an extension of cochlear patterns is discussed in U. S. patent 3,387,093, "Speech Bandwidth Compression System", June 4, 1968. (Filed in 1964.)
It was found that the analog ear with its asymmetric overlapping bands was more reliable in identifying speech sounds that is a conventional
frequency spectrum. The second formantis the most significant single measure. Speech sounds of interest include whisperedand clipped speech. See "Speech Processing with A Cochlear-Neural Analog, John L. Stewart, 1967, Technical Documentary Report No. AMRL-TR-66-229. An article published in the journal Behavioral Science studied constraints to sensory discrimination imposed by two kinds of neural noise. Considerable information on speech patterns and recognition is reported by a number of different authors in the "Handbook of Experimental Psychology" referred to above.
Applications were made to animals and insects with appropriate ear models. See "Aural Systems Simulation for Birds and Insects," Robert L. Lucas, John L. Stewart, and Richard A. Schaeffer. Technical Report AFAL-TR-66-12. January, 1966. Another study using the analog ear was "Simulating Mechanisms in Animal Echoranging," John L. Stewart and James M. Kasson. Technical Report AMRL-TR-68-194. September, 1969.
Many reports, articles, and patents followed the research as cited in the reports listed here. The last full report employed a relatively early version of a computer program written in time-shared
BASIC. See "A Theory and Physical Model for Cochlear Mechanics," John L. Stewart. Acta Oto-Laryngologica, Supplement 294, 1972. Parameters of the analog ear and patterns obtained with the computer program are shown. Patterns and parameters given in this report are sufficient to reproduce analog ears.
Stewart also self-published several books, doing business as Santa Rita Technology, and later as Covox, including "The Analog Ear Story" and "The Analog Ear–brain System" in 1964, and "The Bionic Ear" in 1979. [http://books.google.com/books?q=inauthor%3Ajohn+inauthor%3Astewart+intitle%3Aear]
The research resulting from analog ear studies fueled the creation of special sounds for use in repelling birds and other pests. Sounds were synthesized to follow natural bird calls but were of a switching kind. The concept is similar to the use of a babble of human voices for jamming another person's communications. The "Av-Alarm" was the principal product. It was also adapted to the transonic and ultrasonic regions with a device called "Transonic."
The research also led to development of an early speech word recognizer that operated with 8-bit computers as well as later ones based on 16 bit processors. The product line was developed by Covox, Inc. with product names of "Speech Thing" and "Voice Master."
A number of U.S. (and foreign) patents on topics related to Stewart's analog ear were granted. In the order of filing dates starting in 1962, numbers are 3,294,909, 3,325,597, 3,387,093, 3,432,618, 3,378,700, 3,483,325, 3,459,034, 3,543,138, and 3,510,588.
Analog VLSI cochlea models
Several groups have built analog VLSI hearing chips in recent decades. [http://scholar.google.com/scholar?q=vlsi+cochlea+analog]
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