PCM signal coding
First Claim
1. A method of processing a pulse code modulated signal having a non-uniform probability density comprising:
- quantising the signal as falling within one of plural predetermined signal levels, andcoding the quantised signal by assigning codewords, each having plural binary-valued digits, to the quantisation levels in accordance with the occurrence probability of the quantisation levels and the number of ON bits in the codeword so that quantisation levels of higher occurrence probability are assigned codewords with fewer ON bits than those assigned to quantisation levels of lower occurrence probability.
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Abstract
A signal having a non-uniform probability density is processed for transmission in pulse code modulated form. The signal is quantized using conventional methods and the quantized signal is then coded using a non-sequential coding scheme in which binary codewords for the quantization levels are chosen in accordance with the probability of the quantization levels and number of ON bits in the codeword. Quantization levels of higher probability are assigned codewords with fewer ON bits. An optical network includes a central station having a master clock source. The central station is connected to a remote station including a signal processor arranged to process a signal for return transmission to the central station using minimum power codeword assignment.
107 Citations
11 Claims
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1. A method of processing a pulse code modulated signal having a non-uniform probability density comprising:
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quantising the signal as falling within one of plural predetermined signal levels, and coding the quantised signal by assigning codewords, each having plural binary-valued digits, to the quantisation levels in accordance with the occurrence probability of the quantisation levels and the number of ON bits in the codeword so that quantisation levels of higher occurrence probability are assigned codewords with fewer ON bits than those assigned to quantisation levels of lower occurrence probability. - View Dependent Claims (2, 3, 4)
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5. A method for encoding a level quantized signal having a non-uniform occurrence probability distribution using digital codewords which each have a predetermined number of binary-valued bits, one binary value representing an ON state of an energy pulse transmitting device and the other binary value representing an OFF state of said transmitting device, said method comprising the step of:
assigning said codewords to quantized signal levels so as to reduce the occurrence of ON state binary-valued bits.
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6. A method for encoding a monotonic sequence of N quantized state values of a quantized signal using a monotonic occurrence of N fixed length multi-binary digit codewords, said method comprising the step of:
non-sequentially assigning said codewords to said sequence of quantized state values so as to reduce the occurrence probability of a predetermined binary value in the digits of assigned codewords as compared to such occurrences if monotonically sequential assignments had been effected.
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7. A method for reducing the power required to transmit binary-valued bits of fixed length digital codewords used to represent a sequence of quantized signal states, said method comprising:
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assigning codewords having relatively fewer bits of a predetermined first value to the quantized signal states most likely to occur, and transmitting said codewords using pulses of signal power to represent said bits of predetermined first value. - View Dependent Claims (8, 9, 10)
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11. An optical signal processing network comprising:
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a central station with a master optical clock and a transceiver connected for optical signal communication with each of plural remote station transceivers; at least some of said remote station transceivers including means for reducing the power required to transmit binary-valued bits of fixed length digital codewords used to represent a sequence of quantized signal states by assigning codewords having relatively fewer bits of a predetermined first value to the quantised signal states most likely to occur and using pulses of optical signal power to represent said bits of predetermined first value.
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Specification