A receiving device for receiving PLC signals, including a filtering stage linked to an input of the receiving device and configurable in at least two modes including a default mode, wherein the filtering stage passes at least first PLC signals included in a first frequency band and second PLC signals included in a second frequency band separate from the first frequency band, and a first selection mode, in which the filtering stage passes the first PLC signals and stops the second PLC signals; and a processing circuit linked to the filtering stage and arranged to receive frames of PLC signals, and, for each received frame, to analyse a preamble of the frame, and to dynamically configure the filtering stage in the first selection mode if the frame is a frame of first PLC signals.

A signal generator includes a data source, a power source, and a modulator. The modulator is configured to modulate a power signal from the power source with a data signal from the data source to generate a modulated power signal. Data values of the data signal correspond to variations in a voltage level of the modulated power signal over time. The modulator is coupled to output the modulated data signal to a one-wire interface.

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.

In accordance with one or more embodiments, a coupling system includes a transmitter configured to generate a first signal conveying first data. A coupler is configured to transmit the first signal as a first guided electromagnetic wave that is guided by at least a portion of a surface of a wrap wire that secures an overhead telephony cable to a messenger wire, wherein the first guided electromagnetic wave propagates along the at least the portion of the surface of the messenger wire without requiring an electrical return path.

An algorithm for the promotion of terminal nodes to switch nodes in a PLC network reduces overall network overhead and collisions, while ensuring the appropriate selection of a switch node and minimizing the number of levels in a PLC network. It also ensures that the terminal nodes with appropriate signal-to-noise ratios (SNRs) are promoted. It is desirable to have a network with fewer levels. The disclosed approach favors the nodes that are closer to the DC to promote them as switch nodes. This is achieved by waiting for a smaller number of PNPDUs for a node that is closer to the DC in comparison to a node that is farther away from the DC.

A method and computer readable medium for communication on a shared media. In one embodiment, the method comprises holding a token by a first coordinator on a virtual ring, only a token-holding coordinator is permitted to transmit data associated with a first service level; transmitting data associated with the first service level, by the first coordinator, to device(s) on a first local domain; passing, by the first coordinator, the token to a second coordinator; periodically transmitting data associated with the first service level, by the second coordinator, to device(s) on a second local domain; receiving, by a third coordinator while the second coordinator holds the token, a message to transmit data associated with a second service level to device(s) of a third local domain; and transmitting, by the third coordinator while the second coordinator is not transmitting, the data associated with the second service level.

A network node includes a pushbutton to provide a button-press event and a pairer to receive the button-press event while not being in a secure domain. In response to the button-press, the pairer alternates between acting as an endpoint node and acting as a temporary domain master, until pairing is completed. In an alternative embodiment, the node includes a multi-pairer to receive the button press event and, in response, to open a pairing window, to become a domain master of a secure network and to join more than one other network node receiving a button press event to the secure network until the pairing window closes.

A gateway device for a fire control system is described herein. One device includes a memory, and a processor configured to execute executable instructions stored in the memory to detect that an interface of a plurality of interfaces of the gateway device is connected to a control panel of a fire control system of a facility, select, from a plurality of communication protocol types included in the gateway device, a communication protocol type associated with the control panel to which the interface is connected, and communicate with the control panel to which the interface is connected using the selected communication protocol type.

Selecting a communication route between a first and a second node device of a mesh electrical supply network using powerline and/or radio-frequency communications is described. A route cost is obtained for each possible communication route. A communication route of the lowest route cost is selected. For a given route, the route cost is the sum of the link costs between successive node devices on the route, the link cost between two successive node devices is a weighted sum between a maximum value from a link cost in a forward direction and a link cost in a backward direction and a ratio between a number of active routes and a maximum number of active routes. A link cost in a given direction depends on the cost of the link, in the given direction, calculated for each frequency band of frequency bands used by the two successive node devices for communicating.

A method for determining a mode of transmission between two nodes of a power line communication network, the method comprising transmitting a first message from the first node to the second node in at least two frequency bands, said first message comprising, in each of the at least two frequency bands, information according to which a channel estimate is requested; the first node receiving at least one second message transmitted from the second node and comprising information representative of a channel estimate of at least one of the frequency bands in response to the first message; and determining a transmission mode for transmitting a third message to be transmitted based on the information received from the second node in response to the first message. The invention also relates to a device configured so as to execute the method.