Spectrally efficient broadband transmission system
First Claim
1. A communication system comprising a broadband transmission medium, a plurality of node devices coupled to said broadband transmission medium, each node device includingmeans for accepting a first packet of digital data from a data terminal equipment,means for inserting a gap in said first packet of digital data,means for modulating a first radio frequency carrier with said first packet of digital data,means for coupling said first radio frequency carrier onto said broadband transmission medium,means for coupling a second radio frequency carrier from said broadband transmission medium,said second radio frequency carrier being modulated by a second packet of digital data,means for demodulating said second radio frequency carrier and recovering said second packet of digital data,means for transferring said second packet of digital data to said data terminal equipment, anda headend device coupled to said broadband transmission medium, said headend device includingmeans for demodulating said first radio frequency carrier and recovering said first packet of digital data and locating said gap,means for detecting a signal level present on said first radio frequency carrier during said gap, said signal level being indicative of simultaneously transmitted signals, and means for modulating said second radio frequency carrier with said first packet of digital data and a signal indicating an alarm when said signal level indicates simultaneously transmitted signals, said means for modulating said second radio frequency carrier transmitting a continuous bit pattern to said node devices in the absence of a received first packet of digital data.
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Accused Products
Abstract
A baseband signal is spectrally efficiently transmitted on a broadband transmission medium by inserting gaps in packets of digital data transmitted in a modulated first radio frequency carrier. The transmitted packets of data are received by demodulating the modulated first radio frequency carrier, and the gap is monitored for the presence of digital data thus indicating a collision of simultaneously transmitted packets of digital data. A seed of arbitrary digital bits are used in scrambling each packet of digital data and is transmitted with the packet of data for use in descrambling the data. In retransmitting the packet of data the seed is included. The originally transmitting node receives the retransmitted packet and compares the retransmitted seed with the originally transmitted seed for detecting an error in retransmission.
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Citations
21 Claims
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1. A communication system comprising a broadband transmission medium, a plurality of node devices coupled to said broadband transmission medium, each node device including
means for accepting a first packet of digital data from a data terminal equipment, means for inserting a gap in said first packet of digital data, means for modulating a first radio frequency carrier with said first packet of digital data, means for coupling said first radio frequency carrier onto said broadband transmission medium, means for coupling a second radio frequency carrier from said broadband transmission medium, said second radio frequency carrier being modulated by a second packet of digital data, means for demodulating said second radio frequency carrier and recovering said second packet of digital data, means for transferring said second packet of digital data to said data terminal equipment, and a headend device coupled to said broadband transmission medium, said headend device including means for demodulating said first radio frequency carrier and recovering said first packet of digital data and locating said gap, means for detecting a signal level present on said first radio frequency carrier during said gap, said signal level being indicative of simultaneously transmitted signals, and means for modulating said second radio frequency carrier with said first packet of digital data and a signal indicating an alarm when said signal level indicates simultaneously transmitted signals, said means for modulating said second radio frequency carrier transmitting a continuous bit pattern to said node devices in the absence of a received first packet of digital data.
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7. The communication system as defined by 1 wherein said headend device further includes a reference clock and means for aligning in time bits in said first packet of digital data and said reference clock.
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14. A communication system comprising a plurality of node devices, each one of said node devices having means for
accepting a packet of digital data from a controlling unit, modulating the data onto a radio frequency carrier, and inserting a hole in the transmission at a predetermined location relative to the start of the packet whereby no data from the packet is lost by inserting the hole, recovering a digital bit stream from a continuous radio frequency signal, identifying the beginning a data packet, locating and removing the hole from the packet and transmitting the reconstructed packet to the controlling unit, and detecting the presence of a collision alarm in the received signal, indicated by a specific pattern of phase shift in the recovered bit stream, a first broadband communication medium coupled to said node device, a second broadband communications medium coupled to said node device, and a headend device having demodulator means coupled to said first broadband communications medium for receiving signals upstream from said node devices, and having modulator means coupled to said second broadband communications medium for transmitting continuous signals downstream to said node devices, the demodulator means comprising means for recovering the transmitting data packet, identifying the beginning of the packet, locating the transmitted hole, and detecting the signal level present on the said first medium during the transmission of the hole, a signal level which exceeds a minimum threshold being interpreted as a collision of a plurality of transmitted signals, said modulator means comprising means for transmitting a continuous bit pattern as downstream in the absence of a received signal, remodulating and transmitting the received data packet when an upstream signal is present, and transmitting an alarm signal when a collision is detected, the alarm signal being pseudosilence with a specific pattern of phase shift imposed on the transmitted bit stream.
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19. A method of communicating a baseband signal over a broadband transmission medium comprising the steps of
establishing a packet of baseband digital data to be transmitted, said packet including a signal with a phase shifted bit stream indicating a collision of transmitted packets, inserting a gap in said packet of digital data, modulating a first radio frequency carrier with said packet of digital data to provide a modulated first radio frequency carrier, transmitting said modulated first radio frequency carrier over the broadband transmission medium, receiving and demodulating said modulated first radio frequency carrier to obtain said packet of digital data, monitoring said gap in said packet of digital data for the presence of digital data thereby determining if a plurality of packets of data have been transmitted simultaneously and a collision of data packets has occurred, modulating a second radio frequency carrier with said packet of digital data to obtain a modulated second radio frequency carrier, and transmitting said modulated second radio frequency carrier over the broadband transmission medium.
Specification