Method of signal transmission and reception utilizing wideband signals
First Claim
1. A method for communication utilizing radiation of electromagnetic energy, said method comprising:
- assigning a predetermined different set of time-frequency coded waveforms within a predetermined frequency spectrum to each of a plurality of users, each said set having pulses containing a multiplicity of frequencies with coding including changing the sequence of frequency occurrence;
transmitting electromagnetic energy in said predetermined frequency spectrum with said transmitted electromagnetic energy including a predetermined set of time-frequency coded waveforms for communication by and with the assigned user of said set of time-frequency coded waveforms; and
receiving transmitted electromagnetic energy that includes said set of time-frequency coded waveforms by and from the assigned user of said set of time-frequency coded waveforms whereby the user assigned said set of time-frequency coded waveforms can effect communication regardless of other users in the same frequency spectrum.
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Abstract
A method is disclosed for signal transmission and reception utilizing wideband signals, and, more particularly, the use of time-frequency coded signals to achieve more efficient use of the electromagnetic spectrum. The method can be generally utilized for signal transmission and reception, including personal communication uses such as utilized for land-mobile radio communications. Each user is assigned a unique set of time-frequency coded waveforms for both transmission and reception, and both message and control signals are transmitted and received using the assigned unique set of signals. Message modulation is effected by digitizing the message, such as a speech message, and several types of message digitization, including PCM are set forth. For land-mobile radio service, the geographical area is divided into a series of cells each of which has a base station therein for communication with the mobile units then in the cell. Each mobile unit transmitter utilizes automatic power control to maintain the received signal level at the base station constant regardless of the location of the mobile unit within the cell.
95 Citations
11 Claims
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1. A method for communication utilizing radiation of electromagnetic energy, said method comprising:
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assigning a predetermined different set of time-frequency coded waveforms within a predetermined frequency spectrum to each of a plurality of users, each said set having pulses containing a multiplicity of frequencies with coding including changing the sequence of frequency occurrence; transmitting electromagnetic energy in said predetermined frequency spectrum with said transmitted electromagnetic energy including a predetermined set of time-frequency coded waveforms for communication by and with the assigned user of said set of time-frequency coded waveforms; and receiving transmitted electromagnetic energy that includes said set of time-frequency coded waveforms by and from the assigned user of said set of time-frequency coded waveforms whereby the user assigned said set of time-frequency coded waveforms can effect communication regardless of other users in the same frequency spectrum. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for cellular communication utilizing a spread spectrum, said method comprising:
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transmitting and receiving from a plurality of base stations in different cells different predetermined sets of time-frequency coded waveforms, each said set having pulses containing a multiplicity of frequencies with coding including changing the sequence of frequency occurrence; and transmitting and receiving only one of said predetermined sets of time-frequency coded waveforms in each of a plurality of mobile units capable of moving between said cells whereby selected communication is established for each of said mobile units. - View Dependent Claims (8, 9, 10, 11)
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Specification