Radio communication

The invention claimed is: 1. A digital radio receiver comprising an antenna for receiving radio data frames, each data frame comprising (i) a plurality of identical synchronization sequences; (ii) identification data; and (iii) convolution-encoded message data, wherein the receiver further comprises a memory, and synchronization and decoding logic that comprises: an initial-synchronization section comprising an input for receiving complex-valued baseband samples representing a received data frame, and comprising a correlator configured to perform a frequency-synchronization or symbol-timing-synchronization operation by repeatedly cross-correlating the plurality of identical synchronization sequences in the received data frame against all or part of a single synchronization sequence; a frame-synchronization section comprising an input for receiving data representing the received data frame, and comprising a correlator configured to determine frame-synchronization information for the received data frame by cross-correlating at least a part of the received identification data against reference identification data stored in the memory of the receiver, and comprising an output for outputting the frame-synchronization information, wherein the received identification data is different from the synchronization sequences; and a convolution-decoding section comprising a Viterbi decoder unit and comprising an input for receiving the frame-synchronization information from the frame-synchronization section, wherein the convolution-decoding section is configured to use the received frame-synchronization information to initialize the Viterbi decoder unit for decoding the message data of the data frame. 2. The digital radio receiver of claim 1 , wherein the stored reference identification data is identical to the identification data transmitted in the received data frame. 3. The digital radio receiver of claim 1 , wherein the reference identification data is convolution-encoded, and wherein the frame-synchronization section is configured to correlate convolution-encoded received identification data against the convolution-encoded reference identification data. 4. The digital radio receiver of claim 1 , wherein the digital radio receiver comprises a despreader section configured to despread direct-sequence-spread-spectrum-(DSSS-)encoded identification data in the received data frame. 5. The digital radio receiver of claim 4 , wherein the despreader section is configured to receive data in complex format, but to output data in real format. 6. The digital radio receiver of claim 4 , wherein the frame-synchronization section is configured to correlate at least part of the identification data against the reference identification data after the identification data has been despread. 7. The digital radio receiver of claim 4 , configured to use a phase output of the de-spreader section to compensate for carrier frequency drift. 8. The digital radio receiver of claim 1 , configured to pre-initialize the convolution-decoding section with at least a portion of the identification data. 9. The digital radio receiver of claim 1 , wherein the received identification data is a link-layer connection identifier. 10. The digital radio receiver of claim 1 , wherein the received identification data is an address of a radio transmitter or of the radio receiver.