Abstract: A power line communication apparatus is provided with an auto gain detector that detects a gain fluctuation of an AGC (Auto Gain Control) circuit that automatically adjusts a gain of a received signal; a retry ratio calculator that calculates a ratio of retry based on output from an ARQ (Automatic Repeat request) unit that detects an error in the received data and issues a repeat request; and a transmission rate calculator that calculates a transmission rate based on output from a channel estimation unit that calculates a CNR so as to estimate a transmission status. A display displays a transmission status, including the detected AGC noise fluctuation, retry ratio, transmission rate and the like.

Abstract: Systems and methods for communicating over a power line are configured to substantially simultaneously communicate over a plurality of wideband frequency ranges. Signals may be communicated two or from a communication node at two different frequencies simultaneously. These signals may be exchanged with different nodes and/or include independent data. In some embodiments, some of the wideband frequency ranges are above 30 MHz.

Abstract: There is disclosed a method and apparatus for transmitting a message to at least one group of users selected from a population of the users. The method comprises the steps of assigning to each member of the one group a common characteristic or indication, collecting from each member of the population an address to which the message may be sent, selecting the common characteristic of a group of message recipients and determining therefrom the users of a particular group or groups based upon the selected common characteristic, whereby messages may be quickly and efficiently sent to all of the users of the selected group(s).

Abstract: A method for transmitting a signal on a power line network (3) and a corresponding transmitting unit (T), a receiving unit (R) and a system is presented in order to enhance the coverage and throughput of power line communication systems. It is proposed to provide a plurality of transmission channels, with at least one transmission channel in the power line network (3) (S1), generate at least two auxiliary signals from the signal (S2), transmit said at least two auxiliary signals through at least two of the plurality of channels (S3), receive at least two auxiliary signals through at least two of the plurality of channels (S4) and combine said receive auxiliary signals to obtain said signal (S5).

Abstract: A network apparatus and method for managing power supplied to a network device. A plurality of power inputs to the network device are scanned to ascertain if a power signal is present and to identify an active power source. Available power is determined from the active power source and required power for the network device and any operatively connected auxiliary devices is also determined. The required power is compared to available power to determine if available power is sufficient to power the network device. An operation of the network device is controlled based upon the active power source and/or if available power is insufficient to power the network device.

Abstract: A system for transmitting data over power lines between a plurality of communication boxes, wherein each box is coupled to a neutral line such that at least one box can modulate data onto the neutral line and at least a second box can read modulated data off the neutral line. Accordingly, the system enables data to be transmitted over neutral lines, without requiring coupling to hot lines.

Abstract: A system and method of transmitting and receiving RF service signals between a base transceiver station (BTS) of a wireless communication system and subscriber units within a structure. In the forward link, the system demodulates the RF service signal from a BTS to recover a digital service signal; conditions the digital service signal for transmission via the powerline of a structure; and modulates an RF carrier with the digital service signal to generate the RF service signal for wireless transmission to subscriber units within the structure. In the reverse link, the system demodulates the RF service signal from subscriber unit(s) to generate a digital service signal; conditions the digital service signal for transmission via the powerline; and modulates an RF carrier with the digital service signal to generate the RF service signal for transmission to the BTS. Another embodiment eliminates the modulation of an RF carrier with the digital service signal to generate an RF service and vice-versa at the BTS.

Abstract: A power line communication apparatus is provided with an auto gain detector that detects a gain fluctuation of an AGC (Auto Gain Control) circuit that automatically adjusts a gain of a received signal; a retry ratio calculator that calculates a ratio of retry based on output from an ARQ (Automatic Repeat request) unit that detects an error in the received data and issues a repeat request; and a transmission rate calculator that calculates a transmission rate based on output from a channel estimation unit that calculates a CNR so as to estimate a transmission status. A display displays a transmission status, including the detected AGC noise fluctuation, retry ratio, transmission rate and the like.

Abstract: A communication device for use in adapting an appliance to a computer network consistent with certain embodiments has a data transmitter that receives data to be transmitted and generates output signals carrying the data at a plurality of carrier frequencies. A user configurable notch filter, receives the output signals from the data transmitter, for reducing the amplitude of a user selected range of frequencies, and producing a filtered output. A network communication medium interface receives the filtered output and transmitting the filtered output over a network communication medium. This abstract is not to be considered limiting, since other embodiments may deviate from the features described in this abstract.

Abstract: Systems and methods for communicating over a power line are configured to substantially simultaneously communicate over a plurality of wideband frequency ranges. Signals may be communicated two or from a communication node at two different frequencies simultaneously. These signals may be exchanged with different nodes and/or include independent data. In some embodiments, some of the wideband frequency ranges are above 30 MHz.

Abstract: A method and corresponding system for communicating between stations in a network is presented. The method includes providing repeated beacon transmissions from a coordinator station for coordinating transmissions among the stations; transmitting a signal from a first station and receiving the signal at a second station; and performing one or both of: generating the signal based on a local clock at the first station and time adjustment information in a beacon transmission received by the first station, and sampling the signal at sample times based on a local clock at the second station and time adjustment information in a beacon transmission received by the second station.

Abstract: A power line communication method for realizing data communication between at least one first or sending power line communication partner device and at least one second or receiving power line communication partner device. The method checks transmission conditions of a plurality of possible communication channels, thereby generating transmission condition data descriptive for the communication conditions of the respective possible communication channels. Additionally, communication conditions of the plurality of possible communication channels are selected as actual communication conditions based on the transmission condition data.

Abstract: The present invention concerns a system for high frequency signal transmission in power line networks and also concerns signal hubs and repeaters to be used in such systems. The primary aim of the invention is to provide a communication system of a general type wherein the isolation between high frequency input and output signals is maintained. The hubs and repeaters are designed to be easily installed in the network. Radio and wireless links at subscriber nodes are also parts of the system.

Abstract: An exemplary method of operation of network devices with one device operating as a master device on a communication network involves the master device broadcasting a beacon during a communication session being carried out over the network; the master device determining that the communication session being carried out over the network has ended; the master device ceasing broadcast of the beacon; the master device entering a sleeping or power saving mode; at a client device on the network, transmitting a master search message requesting services of a master device while the master device is in the sleeping or power saving mode; the master device responding to the master search message; and the master device resuming broadcasting beacon signals. This abstract is not to be considered limiting, since other embodiments may deviate from or contain a subset of the features described in this abstract.

Abstract: Systems and methods for communicating over a power line are configured to substantially simultaneously communicate over a plurality of wideband frequency ranges. Signals may be communicated two or from a communication node at two different frequencies simultaneously. These signals may be exchanged with different nodes and/or include independent data. In some embodiments, some of the wideband frequency ranges are above 30 MHz.

Abstract: Provided is a telecommunication apparatus and a telecommunication method accomplishing a one-to-many, many-to-one, and many-to-many simultaneous accesses in a power line telecommunication of a code division multiple access (CDMA) by using an AC power line (including the ground).

Abstract: A device for simulating a data transmission via a data transmission network, especially in a motor vehicle, for evaluating the transmission quality via the network as a function of an interference environment and of a channel characteristic of the network.

Abstract: Systems and methods for providing in-building wireless communications are provided. A master base transceiver station can include a standards-compliant powerline modem coupled to one or more slave base transceiver stations and/or antenna modules. A bridge can be provided that includes a standards-compliant powerline modem coupled to one or more base transceiver stations. The standards-compliant powerline modems communicate standards-compliant digital signals over powerlines. The master base transceiver station or bridge is coupled to a mobile switching center/base station controller via a network.

Abstract: A power line communication modem within a network camera outputs a communication signal to an AC adaptor. Then, a signal superimposition and separation circuit of the AC adaptor separates a received communication signal from a DC voltage and an amplifier of the AC adaptor amplifies a signal level of the communication signal and then outputs the amplified signal to a power line through a plug. The communication signal is transmitted through a DC cable under a state in which a signal level of the communication signal is attenuated. Accordingly, even when the cable length of a DC cable is large, unnecessary radiation can be suppressed.

Abstract: A method of controlling interference from a transmitter (4) in one communication system to a receiver (1) in another communication system, the method comprising transmitting a beacon (3) beacon from a beacon transmitter associated with the receiver representative of a frequency at which the receiver is trying to receive; listening for the beacon at a beacon receiver associated with the transmitter; and deriving a power spectral density limit for a transmission (2) from the transmitter based upon the strength of the beacon received at the beacon receiver.

Abstract: A signal conditioner (SC) and method for communicating via a shared transport medium (STM) between a BTS and remote antenna entity (RAE). A first SC connects to the BTS and a second SC connects to the RAE. Each SC connects to a cable modem or BPL modem that interfaces to the STM. The first SC receives an RF signal carrying an analog baseband signal (ABS) representing digital signals for multiple communication channels. The first SC generates a CDS based on power level measurements of the ABS, and then transmits the CDS to the second SC via the STM. The second SC recovers the CDS, converts the CDS to another ABS, generates an RF signal carrying the other ABS, and transmits this RF signal to the RAE for transmission away from the RAE. The first SC and second SC also facilitate communication of a CDS from the RAE to BTS.

Abstract: A network for power transmission to a receiver that converts the power into current includes a first node for transmitting power wirelessly in a first area. The first area has a minimum electric or magnetic field strength. The network includes a second node for transmitting power wirelessly in a second area. The second area has a minimum electric or magnetic field strength and overlaps the first area to define an overlap area. In another embodiment, the network includes a source in communication with the first and second nodes which provides power to them. Also disclosed are methods for power transmission to a receiver that converts the power into current.

Abstract: A method and corresponding system for communicating between stations in a network are presented. The method includes providing repeated beacon transmissions from a coordinator station for coordinating transmissions among a plurality of the stations; transmitting from a first station to a second station during a time slot assigned to the first station by at least one of the beacon transmissions; and transmitting from the first station information that grants permission to the second station to transmit during at least a portion of a time slot assigned to the first station.

Abstract: In Situ Re-Configurable Wireless Communications System (IRCWCS) in combination with a wearable computer provides an individual user at a public gathering place, fixed facility or non-stationary object with new and enhanced capabilities. In one embodiment of the invention, the re-configurable wireless communication system includes a portable wireless access unit and a Long Range Ethernet (LRE) network switch that connects to an existing LAN. A bridge device such as an LRE puck connects the portable wireless access unit to the LRE network switch through a communications infrastructure. A wearable computer in wireless communication with the portable wireless access unit using a radio frequency link allows communication of video, voice and data to and from the existing LAN through the LRE network switch. The LRE network switch couples to a central command station through the existing LAN.

Abstract: An underground power line is coupled to an overhead power line at a riser pole. In a power line communication system, a first and a second communication device are communicatively coupled to the underground power line at different locations. A third communication device is located in the vicinity of the riser pole. The third communication device is coupled to one of either the underground power line or the overhead power line. The first communication device is configured to transmit data received from said second communication device for reception by said third communication device. The third communication device may include a backhaul link for communicating via a non-power line medium, such as to an upstream node or aggregation point coupled to an IP network.

Abstract: A versatile power line communication device is provided. One embodiment of the device includes a controller having memory, a first modem in communication with the controller, and a first power line interface including a second modem, wherein the second modem is in communication with the controller. The embodiment may also include a switch communicatively coupled to the controller and having an upstream port and a downstream port. The switch may be configured to communicate data from one of the upstream port to the downstream port, and vice versa, without the data being supplied to the controller. The switch may also have a data port configured to be coupled to high data rate devices such as mobile telephone cell sites.

Abstract: A method and corresponding system for communicating between stations in a network are presented. The method includes providing repeated beacon transmissions from a coordinator station for coordinating transmissions among a plurality of the stations; transmitting from a first station to a second station during a time slot assigned to the first station by at least one of the beacon transmissions; and transmitting from the first station information that grants permission to the second station to transmit during at least a portion of a time slot assigned to the first station.

Abstract: A method and system for communicating audio signals between an input device and an output device via a network. The output device can include loudspeakers and headphones. In some embodiments an output device, for example a center channel speaker, transmits audio signals to other output devices. In some embodiments, the output device is coupled to, or combined with, a speaker stand or speaker bracket. The network can be wireless, wired, infrared, RF, and powerline.

Abstract: A power line adapter and its controlling method to be operated in a power-saving mode are disclosed. The power line adapter includes a power-transmitting module for generating a DC supply voltage and a data-transmitting module for transmitting data. Furthermore, the data-transmitting module at least includes a power line communication circuit and an Ethernet physical layer transceiver. The controlling method comprises steps of: monitoring a link signal generated by the Ethernet physical layer transceiver when the power line adapter is operated in an active mode; and, disconnecting the DC supply voltage to the power line communication circuit and entering the power-saving mode if the link signal indicates a disconnection over a first time period.

Abstract: A system and method is herein provided to implement advanced power line communication services. The system may include, for example, a power line modem fitted with BPL core hardware components and BPL core software components, the modem further fitted with a plurality of application specific APIs; and a network management software (NMS) unit adapted to remotely manage the application modules in the power line modem.

Abstract: A method and corresponding system for operating in a network in which stations communicate over a shared medium are presented. The shared medium has at least one varying channel characteristic that varies approximately periodically. The method includes providing repeated beacon transmissions from a coordinator station for coordinating transmissions among a plurality of the stations, wherein at least some beacon transmissions are synchronized to the varying channel characteristic; and transmitting from a first station to at least one receiving station during a time slot determined based on at least one of the beacon transmissions received by the first station from the coordinator station.

Abstract: Systems and methods for communicating over a power line are configured to substantially simultaneously communicate over a plurality of wideband frequency ranges. Signals may be communicated two or from a communication node at two different frequencies simultaneously. These signals may be exchanged with different nodes and/or include independent data. In some embodiments, some of the wideband frequency ranges are above 30 MHz.

Abstract: Systems and methods are disclosed for providing wireless communications through, for example, a utility pole mounted antenna. The disclosed systems and methods may include receiving first data from a wire line network at a transceiver placed at a location on the wire line network. The location may be a place where the wire line network is present, where electrical power for the transceiver is present, or where a service provider of the wireless communications has a legal right to locate the transceiver. Furthermore, the disclosed systems and methods may include transmitting the first data wirelessly from the transceiver through an antenna wherein the transceiver and the antenna are located on a utility pole. Moreover, the disclosed systems and methods may include receiving second data at the transceiver wirelessly from a wireless device.

Abstract: Systems and methods are disclosed for providing wireless network communications. The disclosed systems and methods may include receiving first data from a wire line network at a transceiver placed at a location on the wire line network. The location may comprise a place where the wire line network is present, where electrical power for the transceiver is present, and where a service provider of the wireless network communications has a legal right to locate the transceiver. Furthermore, the disclosed systems and methods may include transmitting the first data wirelessly from the transceiver to a wireless device and receiving second data at the transceiver wirelessly from the wireless device.

Abstract: A communication device for use in adapting an appliance to a computer network consistent with certain embodiments has a data transmitter that receives data to be transmitted and generates output signals at a plurality of frequencies. A user configurable notch filter, receives the output signals from the data transmitter, for reducing the amplitude of a user selected range of frequencies, and producing a filtered output. A network communication medium interface receives the filtered output and transmitting the filtered output over a network communication medium. This abstract is not to be considered limiting, since other embodiments may deviate from the features described in this abstract.

Abstract: A signal is received from a first portion of a power line via a connection to the power line and at least a portion of the signal is converted to a non-electrically conducting signal. The non-electrically conducting signal may be communicated to a non-electrically conductive communication path. In this manner, the non-electrically conducting signal may have properties that do not provide imminent danger from human contact.

Abstract: An information terminal incorporates a network interface and an extension interface, and in the case of outside call, an audio send signal is modulated into an audio signal frequency band, and sent to the exchange through a private telephone line and a subscriber's line by way of the network interface. An audio receive signal sent from the exchange through the subscriber's line and private telephone line is demodulated into an ordinary audio frequency band through the network interface. On the other hand, in the case of extension service, an audio send signal is converted into a packetized digital signal by an extension interface circuit, and is further modulated into a higher frequency band so as not to overlap with the audio signal frequency band, and is transmitted through the private telephone line.

Abstract: A system for receiving a satellite digital radio signal, the system comprising: a repeater having a unibody housing and an antenna disposed within the housing, the antenna being configured for receiving the satellite digital radio signal; a repeater circuit for receiving the satellite digital radio signal of the antenna, the repeater circuit being configured to condition and re-transmit the satellite digital radio signal as a first signal containing audio data capable of being transmitted through electrical wiring; a satellite digital radio signal receiver having a receiver circuit being configured to receive the first signal; and wherein the receiver circuit receives the first signal from a power cable of the satellite digital radio signal receiver.

Abstract: A power line communication apparatus is provided with an auto gain detector that detects a gain fluctuation of an AGC (Auto Gain Control) circuit that automatically adjusts a gain of a received signal; a retry ratio calculator that calculates a ratio of retry based on output from an ARQ (Automatic Repeat request) unit that detects an error in the received data and issues a repeat request; and a transmission rate calculator that calculates a transmission rate based on output from a channel estimation unit that calculates a CNR so as to estimate a transmission status. A display displays a transmission status, including the detected AGC noise fluctuation, retry ratio, transmission rate and the like.

Abstract: At a first site, a first antenna exchanges first communications with wireless devices, and exchanges the first communications with a first base station. The first base station exchanges the first communications with a service node. At a second site, a second antenna exchanges second communications with other wireless devices, and exchanges the second communications with a first surface wave interface. The first surface wave interface exchanges the second communications with a second surface wave interface at the first site. The second surface wave interface exchanges the second communications with a second base station at the first site. The second base station exchanges the second communications with the service node. The service node processes the first and second communications to provide a communication service to the wireless devices.

Abstract: An access pointer for interconnecting a power line communication (PLC) network of a home network and a wireless network and a method therefor are provided. When data is received from the PLC network through media access control of a data link layer, data on upper layers above a network layer in the received data is converted into a format suitable to a wireless network layer. The converted data is transmitted to the wireless network through the media access control of the data link layer. Accordingly, the PLC network and the wireless network are easily interconnected.

Abstract: A system for supplying power in a communication network includes a network element and a plurality of subscriber devices in communication with the network element. Each of the plurality of subscriber devices is configured to communicate with the network element via a respective communication line, each of the plurality of subscriber devices includes a power supply for supplying power to the subscriber device. Each subscriber device of at least a subset of the plurality of subscriber devices includes a power transmission circuit in communication with the respective power supply. The power transmission circuit is configured to transmit a portion of the power supplied by the power supply of the subscriber device to the network element via the respective communication line. The portions of power supplied from the at least subset of the plurality of subscriber devices are aggregated to provide power for the network element.

Abstract: A power line communications system and method for multi-dwelling unit structures that provides broadband communications for internet access, voice over IP (VoIP), streaming video, audio, and other high speed applications and services is provided. One example embodiment includes a first communication device comprising an upstream port and a downstream port. The embodiment also includes a plurality of second communication devices with each second communication device configured to provide communications to user devices located on a different floors. The second communication devices may each include a low voltage power line port configured to communicate with a plurality of user devices via a low voltage power line and a second port for communicating with the first communication device. The first and second devices may also include router functionality.

Abstract: The present invention relates to a communication system and method in a ship area network. In a network of a structure including a plurality of shielded regions, communication is performed between terminals provided in the shielded region by using wireless communication, and communication is performed between terminals provided in different shielded regions by further using power line communication, optical communication, or the power line communication and the optical communication in addition to the wireless communication. Therefore, it is possible to obtain advantages of minimizing inconvenience, which is caused by using only wire communication in the related art, and enlarging a working area.

Abstract: Novel system and methodology for determining resistance of wires in a communication cable having at least two pairs of wires used for providing power from a power supply device to a powered device. A measuring mechanism may determine DC resistance of the wires before the power supply device applies power to the communication cable.

Abstract: A redundant powering system for a powered device receiving power over communication cabling, the redundant powering system comprising: a redundant power supply comprising a first power sourcing equipment and a second power sourcing equipment; a powered device; communication cabling connecting the redundant power supply to the powered device, the communication cabling comprising a first path connecting the first power sourcing equipment to the powered device and a second path connecting the second power sourcing equipment to the powered device, the first and second paths at least partially being constituted of a single structured cable, the at least one powered device comprising at least one signature impedance, the redundant power supply being operable so that power is operably supplied to the powered device from only one of the first and second power sourcing equipment.

Abstract: There is provided a method of facilitating communication in an electrical power network having a complex impedance. The method includes modifying the complex impedance, and determining whether the modifying affected a quality of the communication.

Abstract: An adapter and method for coupling an inline powered communications device to a primary network and to a secondary network, the communications device configured for having an assigned device identification and configurable for using an assigned network address for use in routing data over at least one of the networks. The adapter and method comprise a first port for connecting to the communications device to facilitate the communication of the data and inline power between the adapter and the communications device, the inline power for use in operating the communications device.

Abstract: A network device comprises a hybrid-mode transmitter for transmitting a differential transmission signal at a first transmission rate or a second transmission rate. The network device includes a first mode channel and a second mode channel. The first mode channel includes a voltage mode driver and a current mode driver for outputting the differential transmission signal. The second mode channel includes a second mode driver, which is one of a voltage mode driver and a current mode driver. The network device transmits the differential transmission signal at the first transmission rate through the voltage mode driver of the first mode channel and the second mode driver. The network device transmits the differential transmission signal at the second transmission rate through at least one of the current mode driver and the voltage mode driverfirst mode channel.

Abstract: A method of powering from a power sourcing equipment to a powered device over communication cabling, the method comprising: determining the effective resistance between a power sourcing equipment and a powered device; determining the length of communication cabling between the power sourcing equipment and the powered device; calculating a metric of the constituent wires of the communication cabling between the power sourcing equipment and the powered device responsive to the determined effective resistance and the determined length of communication cabling; and setting current limits for the powering of the powered device from the power sourcing equipment responsive to the calculated metric. In one embodiment the metric is one of a cross-sectional, an effective resistance per unit length and a current carrying capability of the constituent wires.