Spread spectrum-time diversity communications systems and transceivers for multidrop area networks
First Claim
1. A communications system comprising:
- A. at least two transceivers for transmitting messages on at least one of a plurality of transceiver selected frequencies at least one at a time and for detecting data errors in said messages; and
,B. control means for collecting error information on the data error rates being encountered on on each of said frequencies and for informing said transceivers of at least one frequency having the lowest current data error rate, said transceivers then transmitting messages on said at least one frequency having the lowest data error rate.wherein said messages are binary coded and are transmitted on one frequency and the complement of said messages are transmitted simultaneously on another frequency; and
wherein said messages are first transmitted on a first pair of frequencies, then retransmitted on a second pair of frequencies in a remapped bit order such that adjacent bits in when first transmitted are non-adjacent when retransmitted and identical bits are never spaced one onehundredtwentieth of a second apart when first transmitted and when retransmitted.
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Accused Products
Abstract
Messages are transmitted on pairs of frequencies that are orthogonal, that is the frequencies have no least common denominator (are prime to each other). A message is transmitted on the first of the pair of frequencies and, simultaneously, its complement is transmitted on the second of said pair of frequencies. The message is then retransmitted on another pair of orthogonal frequencies. In the second transmission, the message is remapped, such that, adjacent bits in the first transmission are not adjacent in the second transmission and the same bit in the first transmission and the second transmission are not spaced 1/120th of a second apart. Information is collected on the data error rates at each receiver. This information is periodically transmitted to a central frequency controller which collects this error information and determines the error rates on the frequencies being used. A hill-climbing technique is used to choose pairs of frequencies having the lowest current data error rates. The frequency controller transmits the identity of these frequencies to the various transceivers in each message. The transceivers comprise a frequency controlled carrier frequency generator, appropriate data keying for the carrier, a pair of digital state machines, each having a frequency controlled filter connected thereto, appropriate microprocessors for control and broad band coupling networks for coupling the transceiver to a communications channel, which may be an AC power line, a private line, the floor loop of an automatic guided vehicle system, or the like.
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Citations
11 Claims
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1. A communications system comprising:
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A. at least two transceivers for transmitting messages on at least one of a plurality of transceiver selected frequencies at least one at a time and for detecting data errors in said messages; and
,B. control means for collecting error information on the data error rates being encountered on on each of said frequencies and for informing said transceivers of at least one frequency having the lowest current data error rate, said transceivers then transmitting messages on said at least one frequency having the lowest data error rate. wherein said messages are binary coded and are transmitted on one frequency and the complement of said messages are transmitted simultaneously on another frequency; and wherein said messages are first transmitted on a first pair of frequencies, then retransmitted on a second pair of frequencies in a remapped bit order such that adjacent bits in when first transmitted are non-adjacent when retransmitted and identical bits are never spaced one onehundredtwentieth of a second apart when first transmitted and when retransmitted. - View Dependent Claims (2, 3, 4, 5, 8, 9, 10, 11)
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6. A transceiver for transmitting binary coded messages on a pair of frequencies, each message during a first transmission being transmitted on a first frequency while its complement is being transmitted simultaneously on a second frequency;
- said transceivers retransmitting in a second transmission each message and its complement on a second apir of frequencies; and
said message and its complement being remapped in said second transmission, such that adjacent bits in said first transmission are non-adjacent in said second transmission and the same bit is never transmitted at a rate of 1/120 of a second. - View Dependent Claims (7)
- said transceivers retransmitting in a second transmission each message and its complement on a second apir of frequencies; and
Specification