A secondary power distribution box (SPDB), solid state power controller (SSPC) line replacement module or printed board assembly (LRM/PBA), integrated power distribution and avionics system, and method of power distribution are disclosed. For example, the method includes receiving electrical power from a power source at a power feeder network, communicating with at least one load of a plurality of loads at least in part over the power feeder network, and coupling the electrical power to the at least one load of the plurality of loads in response to the communicating.

An image reading apparatus includes an image reader, an image controller, and an FFC configured to connect the image controller and the image reader to each other. The FFC includes a first signal line, a second signal line, and a third signal line. The image reader includes a loop back portion configured to return a signal transmitted from the image controller through the first signal line back to the image controller through the second signal line. The third signal line forms a feedback portion configured to return a signal output from the image controller back to the image controller before the signal is received by the image reader. The image controller is configured to detect an abnormality in a cable, the image reader, and the image controller based on diagnosis results obtained with use of the loop back portion and the feedback portion.

In accordance with one or more embodiments, an antenna system includes a dielectric antenna having a feed point, wherein the dielectric antenna is a single antenna. At least one cable having a plurality of conductorless dielectric cores is coupled to the feed point of the dielectric antenna, wherein electromagnetic waves that are guided by differing ones of the plurality of conductorless dielectric cores to the dielectric antenna result in differing ones of a plurality of antenna beam patterns.

Aspects of the subject disclosure may include, a system for generating a plurality of electromagnetic waves having differing signal characteristics, each electromagnetic wave of the plurality of electromagnetic waves conveying a communication signal, and the plurality of electromagnetic waves propagating along a transmission medium without radiating into free space. The system can be further configured for generating, by an antenna coupled to the transmission medium, a plurality of wireless signals according to the plurality of electromagnetic waves. The differing signal characteristics of the plurality of electromagnetic waves thereby enables a device to obtain the communication signal by combining the plurality of wireless signals. Other embodiments are disclosed.

Aspects of the subject disclosure may include, a system that facilitates adjusting an adjustable waveguide structure according to properties of a physical transmission medium and inducing electromagnetic waves that are guided by the adjusted waveguide structure along the physical transmission medium. Other embodiments are disclosed.

Aspects of the subject disclosure may include, a system for determining from one or more conditions a range of energy that can be obtained from a transmission medium to power the first waveguide system, selecting according to the range of energy a group of components of a plurality of selectable components of the first waveguide system, and enabling the group of components and powering down a remainder of the plurality of selectable components, wherein the group of components facilitates an exchange of electromagnetic waves between the first waveguide system and a second waveguide system via the transmission medium. Other embodiments are disclosed.

Disclosed is a device for selectively receiving data broadcast in a network. The device includes first unit for receiving configuration data transmitted in point-to-point mode, second unit for receiving data broadcast by at least one transmitter, by radio and/or by power-line communication, a digital processing sub-assembly, at least one memory for storing at least one datum determining the selectivity of the broadcast, a low-voltage power supply sub-assembly supplied by an energy source and at least one program for determining whether data received by the second unit should be used or ignored by the device, as a function of previously stored data. Also disclosed is a system for allowing devices to selectively receive data broadcast in a network. Additionally disclosed is a method for allowing a device to selectively receive data broadcast in a network.

In accordance with the present disclosure, a communication network includes a surface wave transceiver, mounted on a medium voltage power line, configured to bidirectionally communicate wireless network data via guided electromagnetic waves that propagate along a surface of the medium voltage power line. A plurality of analog surface wave repeater pairs, a plurality of digital surface wave regenerator pairs, are mounted on the medium voltage power line. A plurality of access points, supported by corresponding ones of a plurality of utility poles that also support the medium voltage power line, is configured to wirelessly transmit the wireless network data to a plurality of client devices in accordance with a wireless network protocol and to wirelessly receive client data from the plurality of client devices in accordance with the wireless network protocol. A plurality of surface wave add/drop multiplexer pairs, is also mounted on the medium voltage power line.

A system, referred to as a reading system, used in an automated metering management system in the context of a fluid-distribution service comprising a plurality of fluid meters is disclosed. The first communication module in accordance with a wireless communication standard is used by each fluid meter and a second communication module suitable for communicating by powerline with a data concentrator via a first network, said data concentrator communicating with a management entity of the automated metering management system via a second network. Instancing an application emulating a virtual fluid meter able to communicate directly with the data concentrator for each fluid meter in the plurality, and, for each fluid meter in the plurality, the corresponding virtual fluid meter takes responsibility for retransmitting information representing a fluid-consumption reading, said information having been supplied to the reading system by said fluid meter to the management entity via the data concentrator.

A distributed antenna and backhaul system provide network connectivity for a small cell deployment. Rather than building new structures, and installing additional fiber and cable, embodiments described herein disclose using high-bandwidth, millimeter-wave communications and existing power line infrastructure. Above ground backhaul connections via power lines and line-of-sight millimeter-wave band signals as well as underground backhaul connections via buried electrical conduits can provide connectivity to the distributed base stations. An overhead millimeter-wave system can also be used to provide backhaul connectivity. Modules can be placed onto existing infrastructure, such as streetlights and utility poles, and the modules can contain base stations and antennas to transmit the millimeter-waves to and from other modules.