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.

The present disclosure relates to a virtual Intranet acceleration method and system, a configuration method, a storage medium and a computer apparatus, pertaining to the field of SD-WAN and addressing the problem in which existing processing methods for preventing packet loss consume a large amount of resources and do not achieve a satisfactory results. The method comprises: upon receiving a TCP request sent from a server at an initiating end to a server at a receiving end, customer premise equipment (CPE) at the initiating end transmitting information of the TCP request to CPE at the receiving end; the CPE at the receiving end configuring a connection link between the server at the initiating end and the server at the receiving end according to the information of the TCP request; and transmitting the TCP request and/or TCP response data via the connection link. The technical solution provided by the present disclosure is applicable to data transmission between SD-WAN subsystems, and achieves transparency and acceleration of the TCP connection between the initiating end and the receiving end.

Embodiments of the present disclosure provide a communication method, a remote device and a computer readable medium. In this method, a remote device receives from one of a plurality of core devices connected to the remote device, configuration indicating a priority of at least one of the plurality of core devices for serving as a principal core device of the remote device. The remote device updates priorities of the plurality of core devices for serving as the principal core device based on the configuration. In response to a trigger condition for a switchover being satisfied, the remote device reselects the principal core device of the remote device from the plurality of core devices based on the updated priorities. Embodiments of the present disclosure improve the process that a remote device reselects a principal core device.

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 method for end point data communications anonymization for a local communications hub is provided. The method commences with receiving a first request addressed to a server from a computing device. The method further includes selecting a first remote communications hub from a plurality of remote communications hubs. The method continues with modifying the first request to generate a first modified request and sending the first modified request to the first remote communications hub. The first remote communications hub modifies the first modified request to produce a second modified request and forwards the second modified request to the server. The method further includes receiving a first response to the second modified request from the server, modifying the received first response to produce a first modified response, modifying the first modified response to produce a second modified response, and providing the second modified response to the computing device.

In order to achieve location transparency and routing slip extensibility, a system and a method for orchestrating a web service using Business Process Execution Language are disclosed. The method includes: receiving a message, wherein the message comprises an address identifying an extension element; determining, from the address, a location of the extension element identified by the address; responsive to determining the location of the extension element, directing the message to an appropriate location; and storing the message in a computer readable storage medium.

Implementations of the disclosure are directed to network layer channel bonding. In one implementation, a method comprises: operating a first communication device to transmit data to a second communication device over multiple communication links, each of the communication links associated with a respective communication medium; receiving, at the first communication device, an input data stream for transmission to the second communication device, the input data stream comprising packets; determining, at the first communication device, a throughput and latency of each of the communication links; based on the determined throughput and latency of each of the communication links: dividing the packets into multiple sets, each of the sets configured to be transmitted by the first communication device over a respective one of the communication links; and transmitting, from the first communication device to the second communication device, each of the sets of packets over the set's respective communication link.

A method for bandwidth sharing is provided. The method may include getting a list of neighboring communications hubs, the neighboring communications hubs being disposed in respective neighboring residences. The neighboring communications hubs may be communicatively coupled to the first communications hub using a first broadband data network provisioned by an Internet Service Provider (ISP), and the neighboring residences may be within a same predetermined geographic region as the first residence or within a predetermined temporal distance on a data network from the first residence. The method determines if a data requirement exceeds bandwidth available to the first communications hub and provides a request for data to a neighboring communications hub. The request corresponds to the data requirement. The method then receives data responsive to the request from the neighboring communications hub.

In a transmission apparatus, signal carrier signal circuitry that generates two single carrier signals including a legacy preamble signal, a legacy header signal and an extension header signal respectively. OFDM signal circuitry that generates one OFDM signal by performing an IFFT processing on one or more payload signals. Transmission circuitry that transmits the two single carrier signals by allocating to a bonding channel which is formed by bonding two adjacent channels used in a bonding transmission scheme and the one OFDM signal by allocating to the bonding channel which is frequency-shifted.

Determining when to provide a Proactive Grant Service (PGS) scheduling grant. A plurality of PGS grants are issued to a cable modem (CM). The PGS grants that were utilized by the CM are monitored as well as those PGS grants that were not utilized by the CM. A compromise PGS grants pattern for that CM is generated based on the observations of which PGS grants the CM utilized and which PGS grants the CM did not utilize. The compromise PGS grants pattern for that CM optimizes a projected experienced latency and jitter for particular data flows of the CM verses a projected wasted upstream capacity.