A particular overall architecture for transmission over a bonded channel system consisting of two interconnected MoCA (Multimedia over Coax Alliance) 2.0 SoCs (Systems on a Chip) and a method and apparatus for the case of a “bonded” channel network. With a bonded channel network, the data is divided into two segments, the first of which is transported over a primary channel and the second of which is transported over a secondary channel.

A computerized neural network training and testing environment trains and validates a neural network to produce outputs corresponding to a digital signal processing (DSP) algorithm. After validation and testing, the neural network is replicable in any processing environment, independent of device architecture. Such devices may also include a neural network having a reversed process flow to produce a digital signal corresponding to an inverse of the DSP algorithm.

A field device adapter for wireless data transfer, comprises at least: an adapter housing; an adapter electronics unit arranged in the adapter housing, the adapter electronics unit comprising a first supply circuit, which is introduced into the first connection line, for providing a first supply voltage from a loop current flowing in the first connection line, and a second supply circuit, which is introduced into the second connection line, for providing a second supply voltage from the loop current flowing in the second connection line, wherein the adapter electronics unit further comprises a HART modem and a wireless module with an antenna for transmitting and/or receiving, and the adapter electronics unit is configured such that the first supply circuit supplies the HART modem with the first supply voltage, and the second supply circuit supplies the wireless module with the second supply voltage.

Apparatus and methods for optimizing bandwidth utilization and services in a data network infrastructure. In one embodiment, the data network is a managed Hybrid Fiber Coaxial (HFC) cable network, and the network infrastructure is configured to enable dynamic allocate of frequency bands to individual consumer premises device (e.g., DOCSIS-compliant cable modems). In one variant, the improved network infrastructure enables creation of virtual Service Groups (vSGs), and allocation of individual ones of the CM to such vSGs, to some degree irrespective of topological or “hardwired” location within the network. The allocations can be dynamic, and based on factors such as load balancing, evacuation of portions of the physical network topology (such as to support infrastructure upgrades or replacement), or for yet other reasons such as relating to subscriber tier or service level agreement (SLA).

Personalized content delivery in a broadband network for an end-user includes a plurality of intelligent edge nodes deployed in the broadband network. Each of the plurality of intelligent edge nodes is capable of computing dynamic scores with respect to any content delivered to a corresponding end-user device connected in the broadband network. Based on a set of preference data, at least one query may be received from at least one authorized user and a corresponding response may be generated based on the preference data and the computed dynamic scores The at least one authorized user analyses the response and tag relevant content to be personalized for the end user. The at least one authorized user thereafter activates a functionality over a UI/UX interface that facilitates the end-user to access the personalized content.

A broadband digital access (BDA) architecture includes a BDA hub device in a headend/hub and one or more BDA node modules in one or more HFC nodes to enable digital communications between the headend/hub and the HFC node(s) in a CATV/HFC network. The BDA hub device and the BDA node module(s) are connected by one or more downstream optical fibers and one or more upstream optical fibers to enable digital optical communications therebetween. The BDA hub device provides an analog RF interface with equipment in the headend/hub and the BDA node module provides an analog RF interface with subscriber locations via one or more coaxial cables.

A server device for use with a service provider device, a service receiving device, a provisioning system, a client device, and a user. The server device includes: a memory and a processor configured to execute the instructions stored on the memory to cause the server device to: obtain monitored data application data; obtain a comparison of the monitored data to a low latency data threshold; automatically transmit an instruction to the service provider device or the provisioning system to instruct the service provider device to provide the temporary low latency service flow to the service receiving device; and automatically transmit an instruction to instruct the user of the temporary low latency service flow.

Techniques discussed herein can facilitate handshake procedures for Point-to-Multipoint (P2MP) communication in connection with various DSL (Direct Subscriber Line) technologies. Various embodiments can employ different methods of separation of signaling to arrange P2MP handshake procedures based on existing Point-to-Point (P2P) handshake procedures. Example embodiments can employ one of separation in frequency, separation in time, or separation in transmission power level.

This disclosure provides systems, methods, and apparatus, including computer programs encoded on computer storage media, for implementing multi-link aggregation and conditional inheritance in a first basic service set (BSS). In one aspect, an apparatus may establish a first communication link with a first station (STA) of the first BSS using a first frequency band. The apparatus may determine a first link profile for a second communication link by customizing one or more management elements of management information associated with the first communication link. The apparatus may configure a first non-inheritance element of the first link profile associated with the second communication link to indicate usage of at least one management element of the management information by the second communication link is disabled. The apparatus may generate a management frame that comprises at least the first link profile, and may output the management frame for transmission.

Provided are systems and methods for conversion and transmission of radio signals. A system for conversion and transmission of radio signals includes a frequency converter and a transmitter associated with a base station. The frequency converter is configured to receive, via a cable, a first radio signal having a predetermined frequency. The predetermined frequency is based on a Data over Cable Service Interface Specifications standard. The frequency converter is configured to convert the first radio signal into a second radio signal. The second radio signal has a frequency higher than the predetermined frequency. The transmitter is configured to wirelessly transmit the second radio signal to a customer premises equipment.