Bone-conductive stereo headphones
First Claim
1. A communication system for transmitting incoming analog audio signals to a human person through the mastoid bone structure adjacent the ear canals of the person by utilizing sonic frequency conductivity data ranges of the mastoid bone structure, comprising:
- at least one accoustical transducer positioned adjacent each ear canal of the person in sound transmitting conduction with a predetermined site on the mastoid bone structure, said transducers being adapted to transmit accoustical signals to its associated bone structure site in response to signals indicative of a predetermined audio frequency data range, means for storing the sonic frequency conductivity data ranges of said sites of the mastoid bone structure, means for comparing the stored sonic frequency conductivity data ranges with the incoming analog audio signals and for producing said signals indicative of said predetermined audio frequency data range corresponding to one of the sonic frequency conductivity data ranges, and means for transmitting said signals indicative of said predetermined audio frequency data range to said transducers thereby effecting the transmission of the incoming audio audio signals to the human person.
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Accused Products
Abstract
An arrangement was devised for the delivery of stereophonic soundwaves through the mastoid bone structure of the human skull. The system allows for the partial bypassing of the use of the auditory canals, and for the conduction of audio output signals generated in a stereo radio, tape player or other audio device, leaving the auditory canals unobstructed and able to receive airborne sound waves. The system includes one or more accoustical transducers applied to the sides of a person'"'"'s head adjacent each of his ear canals and in accoustical conduction with the mastoid bone structure thereat. Incoming audio signals to be received through the bone structure are processed in a manner in which these signals are compared to the sonic conductivity data for the bone structure so that selective amplification of the sonic frequency spectrum which are more poorly or slowly conducted through the mastoid bone structure may be enhanced thereby increasing the efficiency of the reception of the incoming audio signals by the person.
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Citations
10 Claims
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1. A communication system for transmitting incoming analog audio signals to a human person through the mastoid bone structure adjacent the ear canals of the person by utilizing sonic frequency conductivity data ranges of the mastoid bone structure, comprising:
- at least one accoustical transducer positioned adjacent each ear canal of the person in sound transmitting conduction with a predetermined site on the mastoid bone structure, said transducers being adapted to transmit accoustical signals to its associated bone structure site in response to signals indicative of a predetermined audio frequency data range, means for storing the sonic frequency conductivity data ranges of said sites of the mastoid bone structure, means for comparing the stored sonic frequency conductivity data ranges with the incoming analog audio signals and for producing said signals indicative of said predetermined audio frequency data range corresponding to one of the sonic frequency conductivity data ranges, and means for transmitting said signals indicative of said predetermined audio frequency data range to said transducers thereby effecting the transmission of the incoming audio audio signals to the human person.
- View Dependent Claims (2, 3, 4, 5)
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6. A communication system for transmitting incoming, analog audio signals to a human person through the mastoid bone structure of the person by utilizing sonic frequency conductivity data ranges of the mastoid bone structure, comprising:
- at least one accoustical transducer positioned adjacent each ear canal of the person and in sound transmitting conduction with a predetermined site on the mastoid bone structure, means for storing said sonic frequency conductivity data ranges of the sites of the mastoid bone structure, said transducers being adapted to transmit accoustical signals to its associated site of the bone structure in response to signals indicative of a predetermined range of a plurality of audio frequency data ranges applied thereto, means for comparing said stored sonic frequency conductivity data ranges with the incoming audio signals, for separating the data representing those audio signals which fall within said predetermined range of said plurality of audio frequency data ranges, and for producing sonic signals indicative of said predetermined range of said plurality of audio frequency data ranges corresponding to one of said sonic frequency conductivity ranges, and means for transmitting said sonic signals to said transducers indicative of the incoming audio signals.
- View Dependent Claims (7, 8, 9)
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10. A method for providing a human person with the reception of stereo audio signals other than through the ear canals of the person, comprising:
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positioning an accoustical transducer in sound conduction relationship to the mastoid bone structure on both side of the head of the person, comparing the stereo audio signals with a plurality of sonic frequency conductivity data ranges of the mastoid bone structure, separating the data representing those signals which fall within a predetermined range of said plurality of sonic frequency conductivity data ranges; producing sonic signals indicative of said signals which fall within said predetermined range of said plurality of said sonic frequency conductivity data ranges and which correspond to one of said predetermined range of said plurality of sonic frequency conductivity data ranges, and transmitting said sonic signals indicative of said predetermined range of said plurality of sonic frequency conductivity data ranges to said transducers.
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Specification