Abstract: Techniques are provided for up-converting a downstream set-top box control signal to a frequency that is above a cable television system upstream communications band. The downstream set-top box control signal is down-converted to a frequency in a set-top box control band and injected into a set-top box communications pathway. The downstream set-top box control signal may be up-converted from baseband or from the set-top box control band to a frequency in cable television system downstream communications band and transmitted on a DOCSIS RF channel.

Abstract: Some embodiments of the present invention may include a method to stream packets into a queue for an upstream transmission, send multiple requests for upstream bandwidth to transmit data from the queue and receiving multiple grants to transmit data, and transmit data from the queue to the upstream as grants are received. Another embodiment may provide a network comprising a cable modem termination system (CMTS), and a cable modem wherein the cable modem may transmit data to the CMTS with a streaming protocol that sends multiple requests for upstream bandwidth to transmit data and receives multiple grants to transmit data, and transmits data to the CMTS as grants are received.

Abstract: Techniques are provided herein for transmitting data across multiple carriers using Motion Picture Experts Group (MPEG) Transport Stream (TS) packet multiplexing. At a processing device coupled to at least one subscriber device data associated with the at least one subscriber device are received. The data are encapsulated into MPEG-TS packets, where the MPEG-TS packet headers identify a single data channel for the at least one subscriber device. The MPEG-TS packets are multiplexed across a plurality of radio-frequency (RF) carriers for transmission, and the MPEG-TS packets are transmitted using the plurality of RF carriers. Each of the plurality of RF carriers have the same RF modulation, use the same symbol rate, and are driven by the same clock such that the carriers are synchronous. Techniques are also provided recover the data at the subscriber device.

Abstract: A wideband cable modem system increases available bandwidth of a single channel by encoding a data stream into wideband packets. The wideband packets are associated with a logical wideband channel that extends over multiple physical downstream cable channels.

Abstract: A time domain duplex cable system includes a mechanism to change the communication direction of spectrum used in a cable plant including a Cable Modem Termination System (CMTS), a Fiber Node and a plurality of cable modems in communication with the CMTS via the Fiber Node. Active devices, e.g., directional amplifiers switch the communication direction of the cable plant in response to timing information received from the CMTS. To avoid collisions of downstream and upstream packets, a guard time is determined and used in connection with generating the timing information. In one embodiment, the timing information is transmitted in one or more Data Over Cable Service Interface Specifications (DOCSIS) Media Access Protocol (MAP) messages transmitted by the CMTS towards the cable modems.

Abstract: Techniques are provided for controlling downstream Converged Cable Access Platform (CCAP) access points. At the CCAP access point having a network interface and a coaxial interface, control plane information is received from a Cable Modem Termination System (CMTS) via the network interface, where the control plane information is designed to configure the CCAP access point to enable communication over the network interface and the coaxial interface. At the CCAP access point, data plane and control plane information is received from the CMTS, and the data plane information transmitted via the coaxial interface to one or more customer termination devices.

Abstract: Techniques are provided for enabling multicast traffic for a Cable Modem Termination System (CMTS) Modular Headend Architecture (MHA) system. The techniques allow a single modular CMTS core Media Access Control (MAC) domain to service a plurality of physical layer devices. When combined with an independent control plane, Downstream External physical layer (PHY) Interface (DEPI), and Upstream External physical layer (PHY) Interface (UEPI), a downstream PHY device becomes a completely independent and scalable network element.

Abstract: Techniques are provided for controlling downstream Converged Cable Access Platform (CCAP) access points or other devices using a Generic Control Protocol (GCP). At the CCAP access point having a network interface and a coaxial interface, GCP control plane information is received from a Cable Modem Termination System (CMTS) via the network interface, where the control plane information is designed to configure the CCAP access point to enable communication over the network interface and the coaxial interface. GCP can be used to send data structures and register control messages across a network to embedded devices.

Abstract: Techniques are provided for controlling downstream Converged Cable Access Platform (CCAP) access points. At the CCAP access point having a network interface and a coaxial interface, control plane information is received from a Cable Modem Termination System (CMTS) via the network interface, where the control plane information is designed to configure the CCAP access point to enable communication over the network interface and the coaxial interface. At the CCAP access point, data plane and control plane information is transmitted to the CMTS, and may include information from one or more customer termination devices.

Abstract: A system, and related methodology, are provided that are configured to receive, at a first network element such as a Universal Edge Quadrature Amplitude Modulator (UEQAM), multiple channels of data delivered as respective streams of packets, form a packet switched communication frame including a sub-layer header, encapsulate packets from the respective multiple channels into a payload field of the packet switched communication frame, identify the packets encapsulated in the payload field with respective tags in the sub-layer header, and transmit the packet switched communication frame to a second network element such as a Downstream Physical (DS-PHY) entity where the individual packets are recovered and mapped to selected respective stream processing resources based on respective tags.

Abstract: An accurate non-Data Over Cable Service Interface Specification (non-DOCSIS) clock signal is generated at the downstream output of a DOCSIS network. In one example method, a downstream DOCSIS Timing Protocol (DTP) client in the DOCSIS network is frequency synchronized to an upstream DTP server in the DOCSIS network. DOCSIS timing information, along with one or more timing correction factors received at the DTP client, is used to time synchronize the DTP client to the DTP server. Based on the time and frequency synchronization between the DTP server and the DTP client, the clock signal is generated at the output of the DTP client in accordance with the non-DOCSIS timing protocol.

Abstract: A modular Cable Modem Termination System (CMTS) includes a packet shelf operating a Data Over Cable Service Interface Specifications (DOCSIS) Media Access Control (MAC) framer. One or more downstream Physical Interface (PHY) shelves receive DOCSIS data from the packet shelf over a packet switched network and modulate the DOCSIS data for sending on a downstream path of a cable plant. One or more upstream PHY shelves send DOCSIS data received from an upstream path of the cable plant over the packet switched network to the packet shelf. By separating the PHY components from the MAC and from the system software, the PHY components for a Hybrid Fiber Coax (HFC) plant may be replaced with different PHY components for other access technologies such as wireless, Digital Subscriber Lines (DSL), Ethernet-to-the-Home, Fiber-to-the-Home, or fiber Passive Optical Networks (PONs).

Abstract: A network device has a communications port to provide communication with a data network and a cable port to provide communication with a cable network across multiple channels. The network device also has a processor to receive data from the data network, format the data into packets for transmission across the multiple channels and provide an identifier to allow the packets to be reconstructed.

Abstract: An M-CMTS compatible UEQAM device implements circuitry to identify and analyze MAP message in the data stream sent from the M-CMTS Core with respect to timing information embedded in those messages. The improved UEQAM will then create a specific message as an extension to DEPI to communicate that information to the M-CMTS Core. The M-CMTS Core will employ that analysis to automatically adjust MAP message advance time to reduce delay and thus improve system performance. This invention will provide a closed-loop between the M-CMTS Core and the UEQAM where valuable transmission information will periodically be fed back from UEQAM-to-M-CMTS Core in real-time.

Abstract: An apparatus may include a port to receive a ranging request from a cable modem and a processor in communication with the port. The processor may assign a service identifier to the cable modem, match the service identifier with a link layer address of the cable modem, receive a router advertisement and comparing the source link layer address from the router advertisement to the link layer address of the cable modem, and determine if the link layer address of the cable modem is the same as the source link layer address.

Abstract: In one example, a routing protocol is used to propagate or flood information over a network of Cable Modem Termination Systems (CMTSs) in response to a fiber node split that changes which of the CMTSs a cable modem is coupled thereto. The network processes the information and dynamically changes a pseudowire placement to maintain the Layer 2 Virtual Private Network (L2VPN) connectivity among cable modems of different CMTSs after the fiber node split.

Abstract: A network device has a port to allow the device to communicate with user devices. The network device also has a processor to assign any user devices in communication with the device to a group. The processor also monitors traffic of the user devices so as to control a traffic rate of the group.

Abstract: An embodiment method may comprise establishing a link layer connection to an access server, obtaining a management address, wherein the management address is at least one of an IPv6 and an IPv4 address, obtaining a TFTP server address, wherein the server address is either IPv6 or IPv4, downloading a configuration file from the TFTP server, registering with the access server as IPv6 capable, maintaining an IP address/prefix-MAC mapping database, and determining whether the IPv6 address belongs to a particular media access control (MAC) address based on the IP address/prefix-MAC mapping database.

Abstract: Techniques are provided herein for transmitting data across multiple carriers using Motion Picture Experts Group (MPEG) Transport Stream (TS) packet multiplexing. At a processing device coupled to at least one subscriber device data associated with the at least one subscriber device are received. The data are encapsulated into MPEG-TS packets, where the MPEG-TS packet headers identify a single data channel for the at least one subscriber device. The MPEG-TS packets are multiplexed across a plurality of radio-frequency (RF) carriers for transmission, and the MPEG-TS packets are transmitted using the plurality of RF carriers. Each of the plurality of RF carriers have the same RF modulation, use the same symbol rate, and are driven by the same clock such that the carriers are synchronous. Techniques are also provided recover the data at the subscriber device.

Abstract: A wideband cable modem system increases available bandwidth of a single channel by encoding a data stream into wideband packets. The wideband packets are associated with a logical wideband channel that extends over multiple physical downstream cable channels.