Abstract: A method and system for providing suppression of near-end speech energy for tone signal detectors. In accordance with the invention a system or device is connected between the tip and ring on a subscriber loop, the subscriber loop being connected to office equipment and that subscriber's station set. The system also includes a receive interface that is connected to either a tone signal detector or a frequency shift keying modulator. The system achieves speech cancellation by forming a Wheatstone bridge with a mirror circuit possessing a scaled image of the loop and office equipment impedance. In one embodiment of the invention the Wheatstone bridge is formed using the combined impedance of the loop and office equipment as the impedance that is to be matched by a set of balanced networks included within the system.

Abstract: Utility failures are automatically detected and potential causes for these failures are automatically located and identified without having to physically search a utility provider's network. Detection systems capable of monitoring utility status are located at each, or a subset, of the customer premises serviced by a utility provider. A monitoring system, capable of correlating the geographical location of the detection systems with the geographical location of the equipment that comprises the utility provider's network, is located at a utility provider and interconnects with the detection systems through a communications network. The monitoring system queries the detection systems to determine utility status and to subsequently locate an outage and deduce a possible cause for the outage. Detection systems can also be configured to automatically contact the monitoring system to report utility status. The monitoring system is also capable of sending customer based information messages to the detection systems.

Abstract: PSTN and voice over packet telephony are integrated at a customer premises, thereby reducing the plurality of redundant user I/O devices on the desktop, simplifying management of multiple telephony interfaces, and interconnecting PSTN and VoP calls at the desktop. A desktop appliance interfaces to both the PSTN and a packet network and includes a single set of user I/O and user audio devices, analog telephony functionality, a digital interface, VoP telephony functionality, and a switching and bridging system for interconnecting/bridging the user devices, the PSTN, and the packet network. A desktop PC can also be incorporated with the appliance, the PC providing telephony applications and the appliance providing network connectivity for the PC. Similarly, the PC can provide network connectivity and telephony functionality, with the appliance integrating the PSTN and VoP calls.

Abstract: Reliably detecting voiceband signaling tones at a subscriber or network device in the presence of near-end and far-end speech occurs by eliminating, rather than balancing, near-end talk-off and by separately handling far-end talkoff and near-end talkdown. A tone detector is placed on the receive path of the device. One or more frequencies that comprise the tone to be detected by the tone detector are attenuated/removed from the near-end speech present on the send path of the device thereby preventing the near-end speech from talking-off the tone detector. Near-end talkdown and far-end talkoff are eliminated by utilizing two separate signal-to-guard ratios within the tone detector: a large signal-to-guard ratio to combat the effects of the far-end talkoff and a small signal-to-guard ratio to combat the effects of the near-end talkdown. The tone detector is switched between the two signal-to-guard ratios by predicting whether the near-end is speaking.

Abstract: Apparatus for interconnecting the Tip and Ring telephone line interface to subsequent communications equipment or circuits through a differential line bridge circuit that extracts one or more unidirectional paths containing predominantly far-end energy, wherein, near-end speech signals have been canceled. The differential line bridge circuit maintains the longitudinal balance of the telephone line and exhibits improved noise immunity in the recovered far-end signal. It permits all telephone supervisory, alerting and bidirectional communication signals to pass transparently between the telephone line interface and the subsequent communications equipment or circuits. Access to on-hook service signals, such as calling party identification and short text messaging data transmissions, is inherently provided by the line bridge.

Abstract: A method which, in response to an alerting signal from a source, manages a data transfer from the source, via a communications link, to at least two terminals coupled with the communications link. The method (a) dynamically designates one of the at least two terminals as a token terminal, (b) generates an acknowledgment signal with the token terminal, and (c) terminates the communications link during the data transfer with the token terminal. The dynamic designation of the token terminal is performed by (a) assigning a time delay for each of the terminals, and (b) determining, with each of the terminals, after the assigned time delay, whether the terminal will accept the data transfer from the source based on a condition of the communications link.

Abstract: A method and apparatus for detecting a dual tone alerting signal in the presence of speech for the purpose of initiating transfer of special service information on a telephone line is described. The apparatus includes two channels for separately detecting each tone. Each channel includes means for comparing the signaling energy around one of the tones with the energy in a selected weighted guard band portion of the voiceband. Based on this comparison, a determination is made whether a tone is or is not present. A pulse signal formed from the coincidences of tone detection in each channel is used by timing circuitry to determine whether the dual tone alerting signal is actually present or whether speech energy caused both tones to be erroneously detected (talkoff). Characteristics of this pulse signal are analyzed to determine whether an alerting signal is present.

Abstract: An inband tone signaling method results in improvements in talk-off and talk-down performance without sacrificing important human factors considerations. The inband tone signal transmitter has a monitor (60) for monitoring the power level in one or more guard bands (1 and 2) of a voiceband signal. A tone generator (64) which is responsive to the monitor (60) generates the inband tone signal consisting of one or more signaling frequencies each at a level such that a desired signal-to-guard ratio is achieved at a detector (50).