Apparatus, method and computer program operable to determine estimates

The invention claimed is: 1. An apparatus operable to determine estimates for transmitted symbols from received symbols of an optical signal affected by cross-polarization Modulation, XpolM, the apparatus comprising: a grouping module operable to group two or more subsequent received symbols from the optical signal into a group of received symbols; an estimation module operable to estimate an optical channel based on the group of received symbols and a hypothesis on the transmitted symbols; a determination module operable to determine a reliability measure for a combination of the group of received symbols, the channel estimate, and the hypothesis, and further operable to determine the estimates for the transmitted symbols based on reliability measures for multiple hypotheses on the transmitted symbols; wherein a transmission of transmit symbols is organized in repetitive symbol intervals and wherein two transmit symbols are transmitted per symbol interval using different polarizations of the optical signal, and wherein the apparatus is operable to receive two received symbols per symbol interval and the grouping module is operable to group received symbols of two or more symbol intervals into the group of received symbols; and wherein the grouping module is operable to group received symbols from symbol intervals corresponding to a time period, which is less than a coherence time of the optical channel, into the group of received symbols. 2. The apparatus of claim 1 , wherein the estimation module is operable to estimate the optical channel jointly for all received symbols in the group of received symbols grouped by the grouping module. 3. The apparatus of claim 1 , wherein the reliability measure of the determination module is based on a difference between the received symbols and a combination of the estimate of the optical channel and the hypotheses on the transmitted symbols. 4. The apparatus of claim 1 , wherein the reliability measure of the determination module corresponds to a squared difference between the received symbols and estimated received symbols, the estimated received symbols corresponding to the product of the hypothesis on the transmitted symbols and the channel estimate. 5. The apparatus of claim 1 , wherein the estimation module is operable to iterate through different reliability measures from said determination module based on different hypotheses of transmitted symbols and different channel estimates and to determine the estimates of the transmitted symbols based on a hypothesis on the transmitted symbols yielding a reliability measure with highest reliability. 6. The apparatus of claim 5 , wherein the estimation module is operable to iterate through all possible hypotheses on transmitted symbols in a given group of received symbols. 7. The apparatus of claim 6 , wherein the estimation module is operable to determine different estimates of the optical channel for the different hypotheses. 8. The apparatus of claim 1 , wherein the determination module is operable to determine different reliability measures for all possible hypotheses for a first symbol interval and for basing the estimation module is operable to base a subsequent estimation on the hypothesis for the first symbol interval, which indicates the highest reliability. 9. The apparatus of claim 8 , wherein the determination module is further operable to iteratively determine different reliability measures for all possible hypotheses for the subsequent symbol intervals in the group of received symbols and the estimation module is operable to base a subsequent estimation on the hypothesis for the respective symbol interval, which indicates the highest reliability. 10. The apparatus of claim 1 , further being operable to receive an optical receive signal, wherein the optical receive signal is a polarization-division-multiplexing binary phase-shift keying signal. 11. The apparatus of claim 1 , further being operable to receive an optical receive signal, to convert the optical receive signal to an electrical receive signal, and to determine the received symbols from the electrical receive signal. 12. A method for determining estimates for transmitted symbols from received symbols of an optical signal affected by cross-polarization Modulation, XpolM, wherein a transmission of transmitted symbols is organized in repetitive symbol intervals, wherein two transmit symbols are transmitted per symbol interval using different polarizations of the optical signal, wherein two received symbols are received per symbol interval, the method comprising: grouping two or more subsequent received symbols from the optical signal into a group of received symbols; said grouping step including grouping received symbols of two or more symbol intervals into the group of received symbols, and grouping received symbols from symbol intervals corresponding to a time period, which is less than a coherence time of the optical channel, into the group of received symbols; estimating an optical channel based on the group of received symbols and a hypothesis on the transmitted symbols; determining a reliability measure for a combination of the group of received symbols, the channel estimate, and the hypothesis; and determining the estimates for the transmitted symbols based on reliability measures for multiple hypotheses on the transmitted symbols. 13. A non-transitory computer-readable storage device storing computer-executable instructions which, when executed by a processor of a computing device, causes the processor perform a method for use in determining estimates for transmitted symbols from received symbols of an optical signal affected by cross-polarization Modulation, XpolM, wherein a transmission of transmitted symbols is organized in repetitive symbol intervals, wherein two transmit symbols are transmitted per symbol interval using different polarizations of the optical signal, wherein two received symbols are received per symbol interval, comprising the steps of: grouping two or more subsequent received symbols from the optical signal into a group of received symbols; said grouping step including grouping received symbols of two or more symbol intervals into the group of received symbols, and grouping received symbols from symbol intervals corresponding to a time period, which is less than a coherence time of the optical channel, into the group of received symbols; estimating an optical channel based on the group of received symbols and a hypothesis on the transmitted symbols; determining a reliability measure for a combination of the group of received symbols, the channel estimate, and the hypothesis; and determining the estimates for the transmitted symbols based on reliability measures for multiple hypotheses on the transmitted symbols.