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SIGNAL RECEIVER/TRANSMITTERS
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Technical Examples
- Enhanced reception of transmitted signals in a communication system is achieved by synchronously combining transmissions from a cluster of transmitters at a distant receiver. The transmitters coordinate transmissions such that each substantially simultaneously transmits the same signal on the same communication channel. As a consequence of the spatial diversity of the transmitters, the transmitted signals arrive at the receiver at different times. The receiver essentially treats the different transmitted signals as though they were different multipath signals from a single transmitter. A multipath equalizer or combiner is used to determine timing offsets among the received signals, and the received signals are time aligned by phase rotating the signals in accordance with the estimated timing offsets. The time-aligned signals are then coherently combined and detected. The combined signal has a greater signal-to-noise ratio than the individual received signals, permitting detection at a greater range or with a lower bit error rate.
- A method and mechanism for detecting interconnect and bridge defects. Contact points in a chip are assigned placement designation such that no two adjacent points have the same designation. A transmitter, receiver, and optional transmitter/receiver test are then run. During the transmitter test, transmitters with a given designation drive a particular test pattern while other transmitters drive a different test pattern. Receivers compare received test patterns against expected patterns. During a receiver test, transmitters drive a test pattern corresponding to the placement designation of the receivers to which they are coupled. During a particular receiver test, transmitters coupled to receivers of a given designation drive a particular stream, while other transmitters drive a different stream. Receivers then compare received streams against an expected stream. Finally, the placement designation of a transmitter or receiver of an adjacent transmitter/receiver pair may be temporarily assigned an alternate designation. A transmitter or receiver test is then run and receivers check received test patterns against expected patterns.
- A wireless telemetry system includes many radio transmitters using frequency-hopping carriers for intermittently transmitting very short messages indicative of status of stimuli associated with the transmitters. The transmitters can transmit independently of any receiver for receiving from the transmitters and independently of each other. Transmission frequency and time between transmissions are varied according to time-frequency patterns that can be different for each transmitter. Urgent messages, such as alarms, are transmitted at transmission opportunities at intervals smaller than routine transmissions. The transmission opportunities are also according to a time-frequency pattern. Power-up transmissions carry information about future transmission opportunities and/or routine transmissions. Power-up transmissions can also carry information about time-frequency pattern for controlling routine transmissions and/or transmission opportunities. The system comprises a receiver for receiving from the transmitters. The receiver holds data indicative of time and frequency of future routine transmissions and transmission opportunities simultaneously for each of the transmitters.
- A method of administering a game in a wireless embodiment utilizing multiple transmitters connected to a game server and base station controller is disclosed. The method comprises generating game state data describing game state in a bingo game; passing the game state data to each transmitter in a plurality of transmitters; and transmitting from transmitters in the plurality in sequence the game state signal to a wireless receiver, wherein the game state data are transmitted repeatedly.
- Transmitting non-polluting dummy pilot signals in a wireless communication network permits estimation of the downlink propagation channels between a number of joint transmitters and a lesser number of receivers. With fewer receivers than transmitters, loop back information from the receivers is not sufficient to determine the downlink propagation channels between the transmitters and receivers. For N transmitters and M receivers, (N-M) dummy pilot symbols are transmitted to facilitate downlink channel estimation. Each dummy pilot signal is transmitted to an imagined or dummy receiver that is virtually located such that its downlink channel coefficient vector is orthogonal to those of the real receivers. Transmit pre-filtering based on estimated propagation channels is applied to the information signals for the real receivers and to the dummy pilot signals. The extent to which the dummy pilot signals interfere at each receiver is an indication of mismatch between estimated and actual propagation channels.
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