Patent application number | Description | Published |
20090067841 | FIBER AND WIRE COMMUNICATION SYSTEM - This invention provides a new architecture for a communication system between head-ends and end-users which expands bandwidth and reliability of the communication system. A mux-node receives communication signals from a head-end and forwards the received communication signals to one or more mini-fiber nodes. The connection to the head-end is via a small number of optical fibers and the connections to each of the mini-fiber nodes may be via one or more optical fibers that may provide full duplex communication. The head-end may communicate with the mux-node using digital or digital and analog signals. The mini-fiber nodes may combine the signals received from the head-end with loop-back signals used for local media access control prior to forwarding the signals to the end-users. Upstream data are received by the mini-fiber nodes and transmitted to the mux-node. The mux-node may route upstream communication signals received from the mini-fiber nodes as downstream signals to other mini-fiber nodes also connected to the mux-node without head-end interaction. | 03-12-2009 |
20090205007 | Fiber-optic access network utilizing CATV technology in an efficient manner - A system is provided for combining conventional HFC plants with fiber-optic access systems (e.g., fiber-to-the-home or fiber-to-the-curb) that share a head-end and other equipment. A robust modulation format, such as QPSK, having a sufficient SNR to transmit information (e.g., data, digital audio and digital video) downstream to users' premises via a fiber-optic access system is used. Also, a method and apparatus is provided for converting a first modulation format for information received via a fiber-optic access system to a modulation format compatible with customer premises equipment. | 08-13-2009 |
20090290543 | Transmit and Receive Method for a Data Service - A method includes receiving a plurality of radio frequency (RF) channels in parallel at a receive site, and demodulating the RF channels using a plurality of demodulators of the receive site to generate a plurality of streams of packets, each stream of packets having a first address space. The method also includes combining the plurality of streams of packets at a tunneling destination of the receive site to generate a first stream of packets having a second address space. | 11-26-2009 |
20100124391 | Growable multi-degree ROADM - A multi-degree expandable reconfigurable optical add drop multiplexer (ROADM) based on a wavelength-selective crossconnect (WSXC), and method for upgrading the same. The WSXC generally consists of an outer layer of optical fan-out devices, and an outer layer of optical fan-in devices. At least one inner layer of optical fan-out or fan-in devices, including at least one wavelength switch, is disposed between the outer layer of optical fan-out devices and the outer layer of optical fan-in devices in a cascaded arrangement relative to the outer layers. At least one output port of an optical fan-out device in the outer layer of optical fan-out devices is connected to an input port of an optical device in the at least one inner layer, and at least one output port of an optical device in the at least one inner layer is connected to an input port of an optical fan-in device in the outer layer of optical fan-in devices. | 05-20-2010 |
20100208751 | Method, System, and Device for Sending Data in a Cable Data Service - A method of sending data from a transmit site to a receive device includes dividing a first transmit data stream having a first bit rate into multiple data streams with each of the multiple data streams having a bit rate that is lower than the first bit rate. Each of the multiple data streams is transmitted over a cable network having multiple radio frequency channels. The multiple data streams are recombined at the receive device to provide a receive data stream having a bit rate equal to the first bit rate. A second transmit data stream is transmitted over one of the radio frequency channels to a legacy user connected to the one radio frequency channel between the transmit site and the receive device. | 08-19-2010 |
20100265942 | Receive Device for a Cable Data Service - A receive device includes a plurality of demodulators and a tunnel destination. The demodulators are configured to receive multiple data streams, each of the multiple data streams having a bit rate that is lower than a bit rate of a transmit data stream. The tunnel destination is configured to recombine the multiple data streams to provide a receive data stream having a bit rate equal to the bit rate of the transmit data stream. At least one of multiple radio frequency channels is connected to a legacy user between a transmit site and the receive device. | 10-21-2010 |
20110261737 | TRANSMIT AND RECEIVE METHOD FOR A DATA SERVICE - A method includes receiving, at a transmit site, a first stream of packets addressed to an end user device in a first address space. The first stream of packets is encapsulated to form a second stream of packets addressed in a second address space. A first packet of the second stream of packets is assigned to a first radio frequency channel of a plurality of radio frequency channels. A second packet of the second stream of packets is assigned to a second radio frequency channel of the plurality of radio frequency channels. The first packet is transmitted via the first radio frequency channel and, in parallel, the second packet is transmitted via the second radio frequency channel. | 10-27-2011 |
20140369353 | DATA SERVICE INCLUDING CHANNEL GROUP - A method at a cable modem termination system includes dividing a transmit stream into multiple data streams and transmitting the multiple data streams over multiple radio frequency channels of a group of channels. The group of channels supports traffic to a plurality of destinations. Each channel in the group of channels is a downstream channel. | 12-18-2014 |