Methods, apparatuses, and embodiments related to a technique for changing topology of a wireless network in a multi-band wireless networking system. In a wireless network with multiple wireless networking devices and one or more client devices, communications between the wireless networking devices occurs via a backhaul channel, and communication between the client(s) and the wireless networking devices occurs via a fronthaul channel. At boot up, a wireless networking device configures the wireless network with a certain topology. After the topology is initially configured, the wireless networking device determines a network-related parameter and changes the topology of the wireless network based on the network-related parameter.

A method and apparatus for operating a satellite system including different satellites that may belong to different types of satellite constellations. In some implementations, the satellite system may include a LEO satellite constellation and one or more non-LEO satellite constellations that can be used to increase the forward link capacity of the LEO satellite constellation, for example, by allowing an LEO satellite to offload at least some of its forward link traffic to one of the non-LEO satellites. The user terminals can dynamically switch forward link communications between a LEO satellite and a non-LEO satellite while maintaining a return link connection with the LEO satellite.

There is provided a communication control device including an acquisition unit configured to acquire a result of measurement by a terminal device, and a control unit configured to control switching of an operation mode of a base station of a small cell overlapping with a macro cell partially or wholly based on the result of the measurement. The switching is switching of the operation mode from one of a first mode and a second mode to the other. The first mode is a mode in which the base station can perform wireless communication with a device in the small cell, and the second mode is a mode that consumes less power than the first mode.

In some aspects, the disclosure is directed to methods and systems for improved bandwidth for DVB-S2X bonded channels. A high bandwidth stream may be split to a plurality of partial streams, including inserted null packets. Modulators may remove the null packets while maintaining a synchronization counter. The counter value may be inserted in headers of transmitted data packets in reduced bandwidth output streams, without requiring explicit identification of removed or deleted null packets. Downstream modulators may recover and remerge the partial streams via the synchronization counters. As explicit deleted null packet identifiers are omitted, header sizes are reduced, further increasing payload/header efficiency ratios.

In some aspects, the disclosure is directed to methods and systems for improved bandwidth for DVB-S2X bonded channels. A high bandwidth stream may be split to a plurality of partial streams, including inserted null packets. Modulators may remove the null packets while maintaining a synchronization counter. The counter value may be inserted in headers of transmitted data packets in reduced bandwidth output streams, without requiring explicit identification of removed or deleted null packets. Downstream modulators may recover and remerge the partial streams via the synchronization counters. As explicit deleted null packet identifiers are omitted, header sizes are reduced, further increasing payload/header efficiency ratios.

Systems and methods for switching communication pathways between a mobile device and connected Internet of Things (IOT) device are described to improve scalability and communication between devices. An application on the mobile device may determine whether local or virtual local endpoints are available to route communications without using a remote IoT server endpoint. Communications and updates from multiple co-located, but not necessarily user-related connected devices may be aggregated, and sent to a remote IoT server to reduce the peak load scalability requirement of the server.

The embodiments of the present invention relate to a method, an apparatus, and a system for selecting a public land mobile network. In an embodiment method an eNodeB acquires PLMN information about a CSFB. The eNodeB then determines a target cell of a packet switching handover according to the PLMN information about the CSFB.

Methods, apparatuses, and embodiments related to a technique for controlling channel usage in a wireless network in a multi-band wireless networking system. In a wireless network with multiple wireless networking devices and one or more client devices, communications between the wireless networking devices occurs via a backhaul channel, and communication between the client(s) and the wireless networking devices occurs via a fronthaul channel. Based on interference characteristics of the wireless channels, a device determines a channel usage plan, and communicates the plan via the backhaul channel to the wireless networking devices of the wireless network.

A method and apparatus for mobility management, load management, sharing management and configuration update and setup in a mobile network having a first radio access technology node and a second radio access technology node, the first radio access technology node and the second radio access technology node communicating over a backhaul interface. In one aspect the method detects, at the first radio access technology node, that a handover for a user equipment to a new node is required; provides, from the first radio access technology node, handover information to the second radio access technology node over the backhaul interface; and performs the handover of the user equipment from the first radio access technology node to the new node.

A method is implemented by a network device in a cellular communication network. The method to improve handover processing by a source evolved universal terrestrial radio access network (E-UTRAN) node B (eNodeB) where the source eNodeB forwards traffic destined for a user equipment (UE) that is transferring its connection to a target eNodeB to enable mobility within the cellular communication network without anchor points. The method including receiving a handover request from the UE identifying the target eNodeB, sending a handover message to the target eNodeB, determining the UE is unavailable to the source eNodeB, and redirecting traffic for the UE to the target eNodeB.