A communication apparatus determines whether the communication apparatus is to operate as a transmission apparatus for transmitting service data to be transferred by a service performed via a network, or operate as both the transmission apparatus for transmitting the service data to be transferred by the service performed via the network and a reception apparatus for receiving the service data to be transferred by the service performed via the network, terminates a connection with a communication partner apparatus in response to completion of transmission of the service data if the communication apparatus operates as the transmission apparatus, and terminates the connection with the communication partner apparatus in response to a user operation if the communication apparatus operates as both the transmission apparatus and the reception apparatus.

A managing wireless device includes a local area communication device, a wide area communication device, a global position determination device, and a battery. The managing wireless device is attached to a first shipment component of a consolidated shipment. The managing wireless device is in communication with a server computing system. The managing wireless device has a unique identifier. Each of one or more additional wireless device(s) includes a local area communication device and a battery. Each of the additional wireless device(s) is attached to a respective shipment component of the consolidated shipment, other than the first shipment component. Each of the additional wireless device(s) is in bi-directional communication with the managing wireless device. Each of the additional wireless device(s) has a unique identifier. The managing wireless device and each of the additional wireless device(s) are associated with a same broadcast address.

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.

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.

A home network controller for use with a wireless client device and for communicating with an external network, where the home network controller can receive, via the external network, an initiate signal instructed by the wireless client device. The home network controller includes a memory, a processor, an internal communication component and an external communication component. The home network controller can: associate the home network controller with the wireless client device to establish a wireless network, communicate with the wireless network client over the wireless network, enable the wireless client to communicate with the external network by way of the wireless network, operate the home network controller in a first mode, and operate the home network controller in a second mode, switch operation of the home network controller from the first mode to the second mode based on a disassociation of the wireless client device, and switch operation of the home network controller from the second mode to the first mode based on receipt of the initiate signal from the external network via the external communication component.

A method for secure pairing between a sensor and a concentrator using a mobile terminal includes generating and emitting a confirmation code by the concentrator; converting by the sensor of the confirmation code into a sequence of light signals executed by at least one light-emitting diode; converting by the mobile terminal of the sequence of light signals into a sequence code; sending the sequence code to the concentrator; comparing, by the concentrator, the sequence code and the generated confirmation code: if the sequence code does not match the generated confirmation code, generating a warning; if the sequence code matches the generated confirmation code, pairing and exchanging information between the sensor and the concentrator.

A method for scheduling resources in a network where the scheduling activity is split across two nodes in the network is disclosed, comprising: receiving, from a local scheduler in a first radio access network, access network information at a global scheduler; accessing information regarding a second radio access network allocating, at the global scheduler, resources for secondary allocation by the local scheduler; applying a hash function to map the allocated resources for secondary allocation to a set of hash values; and sending, from the global scheduler, the set of hash values to the local scheduler.

A space-based communications network (100) includes at least one central ground station (116) having a transceiver that is configured to communicate with satellites, such as cube satellites (110). The cube satellites (110) form an ad hoc network of orbital cube satellites, in which each of the cube satellites (110) communicate with each other. One of the cube satellites communicates with the ground station (116). A ground-based control system (1000) communicates with the central ground station (116). The control system (1000) continuously determines a configuration of the ad hoc network (100) and communicates network control information for the cube satellites (110) to maintain communications in the ad hoc network (100). The cube satellites (110) disseminate the network control to each other via the ad hoc network (100).

There is provided mechanisms for handling a change in a physical environment in which a network provides service. A method includes obtaining an indication of change in the physical environment. The method includes performing an action when the indication fulfils a condition. The action pertains to at least one of obtaining radio measurements from network equipment operating in the network, providing radio measurement configuration to the network equipment, providing network configuration to the network equipment.

Provided herein is a system and method for a sensor system on a vehicle. The sensor system comprises sensors connected with one another in a daisy chain communication network. The sensor system further comprises a controller connected to at least one of the sensors. The controller is configured to operate the vehicle based on data from the sensors and to operate the daisy chain communication network.