Patent application number | Description | Published |
20130315238 | Method and Apparatus for Extending Multipoint Control Protocols to Mixed Media Access Systems - A method and apparatus for extending multipoint control protocols to mixed media access systems. A medium-to-medium adaptor can be provided in an adaptor node that can interface with an upstream optical line terminal in a PON domain and a downstream device in a non-PON domain. The medium-to-medium adaptor enables an implementation of end-to-end services across multiple quality of service (QoS) domains by passing all traffic with controlled delay and without contention. | 11-28-2013 |
20130315593 | System and Method for Applying an Extended Multipoint Protocol to Wireless Access Systems - A system and method for applying an extended multipoint control protocols to wireless access systems. A medium-to-medium adaptor can be provided in an adaptor node that can interface with an upstream optical line terminal in a PON domain and a downstream device in a non-PON wireless domain. The medium-to-medium adaptor enables an implementation of end-to-end services across multiple quality of service (QoS) domains by passing all traffic with controlled delay and without contention. | 11-28-2013 |
20140079102 | Physical Layer (PHY) Link Signaling for Cable Networks - Embodiments include systems and methods for enabling a physical layer (PHY) link signaling channel between a network termination modem and a cable modem in a cable network. The PHY link signaling channel is embedded within the same multi-carrier channel as the data and enables PHY link up between the network termination modem and cable modem without involvement of higher layers (e.g., MAC). The PHY link signaling channel can be implemented in the downstream (from the network termination modem to the cable modem(s)) or in the upstream from a cable modem to the network termination modem. Embodiments are applicable to any known cable network, and particularly to cable networks implementing the DOCSiS and EPoC standards. | 03-20-2014 |
20140079399 | Time to Time-Frequency Mapping and Demapping for Ethernet Passive Optical Network over Coax (EPoC) - Embodiments include, but are not limited to, systems and methods for enabling Orthogonal Frequency Division Multiple Access (OFDMA) in the upstream in an Ethernet Passive Optical Network over Coax (EPoC) network. Embodiments include systems and methods for translating Ethernet Passive Optical Network (EPON) upstream time grants to OFDMA resources represented by individual subcarriers of an upstream OFDMA frame. In an embodiment, the translation of EPON upstream time grants to OFDMA resources ensures that Coaxial Network Units (CNUs) sharing an OFDMA frame do not use overlapping subcarriers within the frame. Embodiments further include systems and methods for timing upstream transmissions by the CNUs in order for the transmissions to be received within the same upstream OFDMA frame at a Fiber Coax Unit (FCU). Embodiments further include systems and methods for re-generating a data burst from OFDMA resources for transmission from the FCU to an Optical Line Terminal (OLT). | 03-20-2014 |
20140133856 | Multiple Downstream Modulation Profiles for Ethernet Passive Optical Network over Coax (EPoC) - Embodiments provide systems and methods for supporting the use of multiple downstream modulation profiles in an Ethernet Passive Optical Network over Coax (EPoC) network. This includes, at the Fiber Coax Unit (FCU), processing downstream traffic to determine its intended destination Coaxial Network Unit (CNU) and using a customized downstream modulation profile for the traffic based on its intended destination CNU. In addition, with the downstream modulation profile used for the downstream traffic varying in time, a downstream map indicating upcoming downstream modulation profiles in the downstream traffic is sent along with the downstream traffic from the FCU. A CNU can read the downstream map to determine upcoming downstream modulation profiles in the downstream traffic and can decide to decode a given transmitted modulation profile in the downstream traffic when the transmitted modulation profiles matches one or more downstream modulation profiles associated with the CNU. | 05-15-2014 |
20140341577 | Ethernet Passive Optical Network Over Coaxial (EPoC) System Rate Mechanism - An Ethernet passive optical network over coaxial (EPOC) system rate mechanism. A network device is provided that includes a physical layer device (PHY) that is configured for coupling to a coaxial cable, a medium independent interface that facilitates data transmission at 10 Gbit/s or greater, and a reconciliation sublayer that is coupled to the PHY via the medium independent interface. The reconciliation sublayer has a codeword detector that is configured to detect a reserved codeword that is received from the PHY over the medium independent interface. The codeword detector can be configured to forward a rate control signal to a media access control (MAC) based on the detection of the reserved codeword. | 11-20-2014 |