Abstract: Methods and systems for identifying a signal-of-interest in an over-the-air signal that includes a self-interfering signal. The over-the-air signal and the transmitted signal are sampled and passed to an adaptive filter. The adaptive filter processes a plurality of samples in parallel. The samples are subbanded by passing through an analysis filter, downsampled, and then used to update the adaptive filter coefficients. The updated filter coefficients may be updated based on a variable step-size that decreases as the system converges or a fixed step-size.

Abstract: A radio frequency (RF) receiver includes an analog receiver chain followed by digital circuitry for reducing nonlinear distortion components within an output signal of the analog receiver chain. In at least one embodiment, the digital circuitry includes a digital equalizer that is configured with a sparse set of Volterra series coefficients. In this manner, a desired level of linearity performance may be achieved in the receiver with relatively low power consumption.

Abstract: A radio frequency (RF) receiver includes an analog receiver chain followed by digital circuitry for reducing nonlinear distortion components within an output signal of the analog receiver chain. In at least one embodiment, the digital circuitry includes a digital equalizer that is configured with a sparse set of Volterra series coefficients. In this manner, a desired level of linearity performance may be achieved in the receiver with relatively low power consumption.

Abstract: A team sport entertainment simulation game-play innovation that enables the user to optionally choose the offensive or defensive player to control prior to the start of the play regardless of ball possession and to control that player until the play terminates, or for a portion of the play until the user cancels the player specific mode. The user is expected to perform the characteristic behavior of the controlled player's position (e.g. quarterback, running back, wide receiver, defensive back, etc. in the example of the team sport of football). Missions, which describe the characteristic behavior of the position, provide goals and incentives to play the position properly or in another manner. Upon completion of the tasks outlined in the missions the user is rewarded with player attribute upgrades that increase the player's odds of winning the game.

Abstract: A controllable-gain amplifier is connected between the transmitter and receiver of a telephone set and is controlled in response to the level of the telephone user's speech so as to provide an increase in gain when the user speaks too loud and a decrease in gain when the user speaks too low. This results in a sidetone which causes the user to change his or her voice level to obtain an acceptable level of sidetone. A better-controlled user voice level is thus achieved.

Abstract: An error reducing arrangement is provided for a signal receiver wherein a sequence of received signals is divided into groups and each group is partitioned into subgroups. A signal representative of the deviations among the signals of each group and a signal representative of the deviations among the signals of each subgroup of said group are generated. Responsive to a subgroup deviation signal exceeding its group deviation signal, the subgroup signals are altered to reduce the subgroup deviations. In this manner errors are reduced without affecting error free signals.

Abstract: Ideally, when a signal is quantized, the range of the quantizer should be matched to the power of the signal. Disclosed herein is adaptive quantizer apparatus which utilizes a particular quantizing scheme for those communications where the power of the signal to be quantized is unknown, but remains constant for the duration of a communication. The amplitude range of an adaptive quantizer is adjusted during an initial training period to a value appropriate to the power of the applied input signal. This is accomplished by successively altering the amplitude range by a multiplicative quantity that depends upon the amplitude of the quantizer output signal and upon the time elapsed since the onset of the training period.