Method for channel adjustment of transmission signal power in a wavelength division multiplexing transmission system
First Claim
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1. A method for channel-specific adjustment of power levels of associated transmitted signals in an optical wavelength-division multiplex transmission system to achieve one of equal signal power levels and equal signal-to-noise ratios of received individual signals, the method comprising:
- determining transmission characteristics for each transmission channel;
determining a transmission-end maximum permissible dynamic range;
determining, on a channel-specific basis, signal power levels of the associated transmitted signals; and
if the maximum permissible dynamic range at the transmission end is exceeded;
determining individual power discrepancies of the transmitted signal power levels from a mean signal power level of the signals at the transmission end;
calculating a transmission compression factor in compliance with the maximum permissible dynamic range, the mean signal power and maximum signal power discrepancies, the compression factor being equal for all transmitted signals;
recalculating new signal power levels from the individual power discrepancies and the compression factor, such that a permissible reception-end maximum dynamic range is complied with; and
setting newly calculated compression power levels of the transmitted signals;
calculating a transmission-end correction factor from a ratio of a previous transmission-end mean level value to a transmission-end mean level value from a new transmitted signal power level; and
changing the individual signal power levels of transmitted signals using the transmission-end correction factor, which is equal for all transmitted signals.
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Abstract
For exact level balancing or signal-to-noise ratio balancing of received signals in a wave-length-division multiplex transmission system, the associated transmitted signal power levels are adjusted. If the maximum permissible dynamic range is exceeded, the individual transmitted signal power levels are compressed, while the total transmitted signal power level is kept at least approximately constant.
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Citations
7 Claims
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1. A method for channel-specific adjustment of power levels of associated transmitted signals in an optical wavelength-division multiplex transmission system to achieve one of equal signal power levels and equal signal-to-noise ratios of received individual signals, the method comprising:
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determining transmission characteristics for each transmission channel; determining a transmission-end maximum permissible dynamic range; determining, on a channel-specific basis, signal power levels of the associated transmitted signals; and if the maximum permissible dynamic range at the transmission end is exceeded; determining individual power discrepancies of the transmitted signal power levels from a mean signal power level of the signals at the transmission end; calculating a transmission compression factor in compliance with the maximum permissible dynamic range, the mean signal power and maximum signal power discrepancies, the compression factor being equal for all transmitted signals; recalculating new signal power levels from the individual power discrepancies and the compression factor, such that a permissible reception-end maximum dynamic range is complied with; and setting newly calculated compression power levels of the transmitted signals; calculating a transmission-end correction factor from a ratio of a previous transmission-end mean level value to a transmission-end mean level value from a new transmitted signal power level; and changing the individual signal power levels of transmitted signals using the transmission-end correction factor, which is equal for all transmitted signals. - View Dependent Claims (2, 3)
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4. A method for channel-specific adjustment of power levels of associated transmitted signals in an optical wavelength-division multiplex transmission system to achieve one of equal signal power levels and equal signal-to-noise ratios of received individual signals, the method comprising:
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determining transmission characteristics for each transmission channel; determining a reception-end maximum dynamic range; determining, on a channel-specific basis, power levels of the associated transmitted signals; and if the maximum permissible reception-end dynamic range is exceeded; determining individual power discrepancies of the transmitted signal power levels from a received mean signal power level; calculating a reception-end compression factor in compliance with the maximum permissible dynamic range, the mean signal power and maximum signal power discrepancies, the compression factor being equal for all received signals; calculating required compressed received signal power levels from the individual power discrepancies and the reception-end compression factor, such that the permissible reception-end maximum dynamic range is complied with; calculating required new transmitted signal power levels; setting the newly calculated transmission signal power levels; calculating a reception-end correction factor from a ratio of a previous reception-end mean level value to a reception-end mean level value from a new reception signal power level; and changing the individual signal power levels of received signals using the reception-end correction factor, which is equal for all transmitted signals. - View Dependent Claims (5, 6, 7)
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Specification