Wavelength division multiplexing optical transmission system, and wavelength division multiplexing optical transmission method
First Claim
1. A wavelength division multiplexing optical transmission system, in which each signal light with different wavelengths output from a plurality of optical senders is multiplexed by an optical multiplexer to be transmitted to an optical transmission path, and wavelength division multiplexing signal light propagated through the optical transmission path is demultiplexed depending on respective wavelengths by an optical demultiplexer to be received by a plurality of optical receivers, wherein each of said plurality of optical senders generates signal light in which a bit rate and frequency spacing thereof are set so as to approach spectrum efficiency at which the product of a transmission distance and a transmission capacity becomes a maximum value, said product being calculated based on the determination of the type of modulation of signal light and also the assumption of an equation model expressing transmission characteristics of said optical multiplexer and said optical demultiplexer, and said optical multiplexer and said optical demultiplexer have transmission characteristics in which transmission bandwidth is set in accordance with said equation model, and also according to the spectrum efficiency at which the product of the transmission distance and the transmission capacity becomes a maximum value.
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Abstract
The invention aims to provide an optical transmission system that specifies such a transmission condition so as to obtain high spectrum efficiency and a large transmission distance-capacity product at the same time, and uses low cost and small sized optical senders and optical receivers, to realize a high density wavelength multiplexing optical transmission. For this purpose, a WDM optical transmission system of the invention has a system structure that specifies by calculation the spectrum efficiency at which transmission distance-capacity product becomes a maximum value based on the determination of the type of signal light modulation and the assumption of an equation model expressing transmission characteristics of an optical multiplexer and an optical demultiplexer, and optimizes a bit rate and frequency spacing of signal light output from each optical sender, and the transmission characteristics of the optical multiplexer and the optical demultiplexer, so as to approach the spectrum efficiency.
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Citations
24 Claims
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1. A wavelength division multiplexing optical transmission system, in which each signal light with different wavelengths output from a plurality of optical senders is multiplexed by an optical multiplexer to be transmitted to an optical transmission path, and wavelength division multiplexing signal light propagated through the optical transmission path is demultiplexed depending on respective wavelengths by an optical demultiplexer to be received by a plurality of optical receivers,
wherein each of said plurality of optical senders generates signal light in which a bit rate and frequency spacing thereof are set so as to approach spectrum efficiency at which the product of a transmission distance and a transmission capacity becomes a maximum value, said product being calculated based on the determination of the type of modulation of signal light and also the assumption of an equation model expressing transmission characteristics of said optical multiplexer and said optical demultiplexer, and said optical multiplexer and said optical demultiplexer have transmission characteristics in which transmission bandwidth is set in accordance with said equation model, and also according to the spectrum efficiency at which the product of the transmission distance and the transmission capacity becomes a maximum value.
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16. A wavelength division multiplexing optical transmission system according to
wherein the spectrum efficiency at which the product of said transmission distance and said transmission capacity becomes the maximum value is calculated as spectrum efficiency at which a performance index PI=10 (− - Δ
Q/10) B/S, which is expressed using a Q-value degradation amount Δ
Q of the system, a bit rate B and frequency spacing S of the signal light, becomes a maximum value.
- Δ
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17. A wavelength division multiplexing optical transmission method of multiplexing a plurality of signal light with different wavelengths to transmit to an optical transmission path, and demultiplexing wavelength division multiplexed signal light propagated through said optical transmission path according to wavelength to received,
wherein spectrum efficiency at which the product of a transmission distance and a transmission capacity becomes a maximum value is calculated based on the determination of the type of modulation of signal light and also the assumption of an equation model expression transmission characteristics at the time of multiplexing and demultiplexing the signal light, and a bit rate and frequency spacing of the signal light are set so as to approach the spectrum efficiency at which the product of said transmission distance and said transmission capacity becomes the maximum value, and also actual transmission characteristics at the time of multiplexing and demultiplexing the signal light is set in accordance with said equation model, to transmit the wavelength division multiplexed signal light.
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18. A wavelength multiplexing apparatus for multiplexing optical signals with a plurality of wavelength,
wherein each component on a short wavelength side and a long wavelength side of each of said optical signals is eliminated using a filter with a band narrower than spectrum width obtained based on a bit rate and a type of coding of each of said optical signals, to make spacing of said optical signs to be narrower than said spectrum width.
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20. A wavelength demultiplexing apparatus for demultiplexing wavelength division multiplexed light obtained by multiplexing optical signals with a plurality of wavelengths,
wherein each component on a short wavelength side and a long wavelength side of each of said optical signals is eliminated using a filter with a band narrower than spectrum width obtained based on a bit rate and a type of coding of each of said optical signals, to make spacing of said optical signals to be narrower than said spectrum width.
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22. An optical transmission system including a wavelength multiplexing apparatus for multiplexing optical signals with a plurality of wavelengths to output to a transmission path, and a wavelength demultiplexing apparatus for demultiplexing wavelength division multiplexed light from said transmission path,
wherein each of said wavelength multiplexing apparatus and said wavelength demultiplexing apparatus eliminates each component on a short wavelength side and a long wavelength side of each of said optical signals using a filter with a band narrower than spectrum width obtained based on a bit rate and a type of coding of each of said optical signals, to make spacing of said optical signals to be narrower than said spectrum width.
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24. A wavelength division multiplexing optical transmission method, comprising the processes of:
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generating a plurality of optical signals obtained by modulating a plurality of light with different wavelengths;
eliminating each component on a short wavelength side and a long wavelength side of spectrum of each of said optical signals to make each of said optical signal to have predetermined bandwidth; and
wavelength multiplexing said optical signal at the predetermined bandwidth to transmit wavelength division multiplexed signal light.
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Specification