Abstract: A radio communication device is described comprising: a receiver configured to receive radio signals on a radio channel; a noise level determination circuit configured to determine a noise level of the radio signals; an interference determination circuit configured to determine interference information indicating an amount of interference of the radio signals with other signals; an equalizer configured to determine a softbit based on the radio signals and based on the noise level; and a scaling circuit configured to scale based on the determined interference information at least one of the noise level or the softbit.

Abstract: A system including a receiver to receive, over a wireless channel, a packet including a preamble portion that includes a plurality of training fields and a first signal field and a controller to generate a first estimate of the wireless channel based on one or more of the plurality of training fields, and decode the first signal field based on the first estimate. Subsequent to decoding the first signal field, the controller re-encodes the first signal field to generate a second signal field. The controller verifies whether the first signal field was properly decoded by comparing the second signal field to the first signal field prior to being decoded. In response to the first signal field being correctly decoded, the controller generates a second estimate of the wireless channel based on the first signal field as decoded. The second estimate is usable to refine the first estimate.

Abstract: A method for generating a data signal for synchronizing one or more electrically coupled digital receivers is disclosed. A data signal having a data rate is modulated with a pseudo-noise (PN) code having a data rate greater than the data rate of the data signal. The modulated data signal is demodulated by a receiver using the PN code. A correlation value is generated and is compared to a predetermined value to indicate phase synchronization. If the receiver is in phase synchronization with the transmitter, the received demodulated data signal is passed.

Abstract: A method and arrangements are provided for transmitting frames of digital information over a wireless communication connection between a transmitter and a receiver. In the transmitter, a certain sequence of bits within each frame of digital information is convolutionally encoded and punctured before transmitting the frame over a wireless communication connection. The receiver decodes and depunctures the sequence of bits within each frame of digital information, that was convolutionally encoded and punctured, after receiving the frame over a wireless communication connection. The transmitter rearranges the sequence of bits within each frame of digital information that is to be convolutionally encoded and punctured, before convolutionally encoding and puncturing it.

Abstract: In a magneto-optic disc apparatus corresponding to six-value four-status Viterbi decoding method, an RAA has 12 registers so as to separately adapt amplitude reference values for an address portion and amplitude reference values for a data portion on a magneto-optic disc. Normally, stored values of the registers at the time a reproducing operation has been just completed are used for initial values for an adapting process in the next reproducing operation. On the other hand, when data cannot be correctly reproduced and thereby a read-retry operation or the like is preformed, predetermined values that are stored in 12 registers in the RAA are used as initial values. In this case, the adapting process for amplitude reference values is not performed.