Probabilistic signal point shaping device and method

The invention claimed is: 1. A probabilistic signal point shaping device comprising circuitry configured to: map data blocks of input bits of an input bit stream onto mapping symbols using constant composition distribution mapping, wherein said mapping symbols are distributed according to a predetermined probability distribution and represented by non-uniformly spaced complex-valued signal points or non-uniformly spaced amplitude levels, assign bit labels to said mapping symbols, determine redundancy bits from the bits of said bit labels, transform said redundancy bits into a redundancy rule, and apply the redundancy rule to the mapping symbols to obtain output symbols. 2. The probabilistic signal point shaping device as claimed in claim 1 , wherein said circuitry is configured to map data blocks of input bits of an input bit stream onto real-valued mapping symbols, wherein said real-valued mapping symbols are represented by non-uniformly spaced amplitude levels. 3. The probabilistic signal point shaping device as claimed in claim 1 , wherein said circuitry is configured to transform said redundancy bits into a multiplication factor of +1 or −1 as redundancy rule. 4. The probabilistic signal point shaping device as claimed in claim 1 , wherein said circuitry is configured to map the data blocks of input bits of the input bit stream onto complex-valued mapping symbols, wherein said complex-valued mapping symbols are represented by non-uniformly spaced complex-valued signal points of a signal point constellation. 5. The probabilistic signal point shaping device as claimed in claim 4 , wherein said circuitry is configured to transform said redundancy bits into a phase rotation function and/or an amplitude multiplication function and/or a mirroring function as redundancy rule. 6. The probabilistic signal point shaping device as claimed in claim 4 , wherein said circuitry is configured to map the data blocks of input bits of the input bit stream onto complex-valued mapping symbols arranged in a predetermined area of the complex plane. 7. The probabilistic signal point shaping device as claimed in claim 4 , wherein said circuitry is configured to map the data blocks of input bits of the input bit stream onto complex-valued mapping symbols having a phase in a predetermined range and/or an amplitude in a predetermined range. 8. The probabilistic signal point shaping device as claimed in claim 4 , wherein said circuitry is configured to map the data blocks of input bits of the input bit stream onto complex-valued mapping symbols arranged in a quadrant or octant. 9. The probabilistic signal point shaping device as claimed in claim 1 , wherein said circuitry is configured to determine redundancy bits from the bits of said bit labels and additional input bits. 10. The probabilistic signal point shaping device as claimed in claim 1 , wherein said circuitry is configured to multiply the output symbols with a scaling factor to obtain unity transmit power. 11. The probabilistic signal point shaping device as claimed in claim 1 , wherein said circuitry is configured to analyze the probability of occurrence of the non-uniformly spaced mapping symbols and/or earlier final mapping symbols, determine a second probability distribution to be applied for mapping second input bits of a second input bit stream onto second mapping symbols, said second probability distribution being determined based on the analyzed probability of occurrence such that a desired final probability distribution of final mapping symbols is obtained, map data blocks of input bits of a second input bit stream onto second mapping symbols, wherein said second mapping symbols are distributed according to said second probability distribution and represented by complex-valued signal points or non-uniformly spaced amplitude levels, and combine the mapping symbols and the second mapping symbols into the final mapping symbols by an invertible linear combination. 12. The probabilistic signal point shaping device as claimed in claim 1 , wherein said circuitry is configured to analyze the probability of occurrence of the non-uniformly spaced mapping symbols and/or earlier final mapping symbols, determine a second probability distribution to be applied for mapping second input bits of a second input bit stream onto second mapping symbols, said second probability distribution being determined based on the analyzed probability of occurrence such that a desired final probability distribution of final mapping symbols is obtained, map data blocks of input bits of a second input bit stream onto second mapping symbols, wherein said second mapping symbols are distributed according to said second probability distribution and represented by complex-valued signal points or non-uniformly spaced amplitude levels, combine the mapping symbols and the second mapping symbols into the final mapping symbols, assign bit labels to said final mapping symbols, split bits of the bit labels of the final mapping symbols into first bits of first bit labels of the mapping symbols and second bits of second bit labels of the second mapping symbols, determine first redundancy bits from the first bits of said first bit labels and second redundancy bits from the second bits of said second bit labels combine the first redundancy bits and the second redundancy bits into combined redundancy bits, and transform said combined redundancy bits into the redundancy rule. 13. A probabilistic signal point shaping method comprising: mapping data blocks of input bits of an input bit stream onto mapping symbols using constant composition distribution mapping, wherein said mapping symbols are distributed according to a predetermined probability distribution and represented by non-uniformly spaced complex-valued signal points or non-uniformly spaced amplitude levels, assigning bit labels to said mapping symbols, determining redundancy bits from the bits of said bit labels, transforming said redundancy bits into a redundancy rule, and applying the redundancy rule to the mapping symbols to obtain output symbols. 14. A non-transitory computer-readable recording medium that stores therein a computer program product, which, when executed by a processor, causes the method according to claim 13 to be performed.