Optical communication system and method of controlling optical communication system
First Claim
1. An optical communication system comprising:
- a plurality of sub-stations; and
a main station connected to said plurality of sub-stations via an optical transmission path, wherein said plurality of sub-stations respectively comprise a modulation unit modulating a wavelength of an optical signal containing information signals, by using a control signal having a unique frequency allocated to the sub-station, which is transmitted from the respective sub-station to the main station via the optical transmission path, arbitrary pairs of control signals having different frequency differences, and said main station comprises;
an extraction unit extracting a beat noise component from the optical signals modulated by the modulation unit; and
a determination unit determining two sub-stations that have produced beat noise on the basis of frequency difference of an arbitrary pair of control signals contained in the beat noise component extracted by said extraction unit, wherein the main station outputs a wavelength control signal for changing the wavelength of the optical signal to one of the two determined sub-stations, and the one of the two determined sub-stations changes the wavelength of the optical signal based on the wavelength control signal.
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Abstract
In this invention, there is provided an optical communication system comprising a plurality of sub-stations and a main station connected to the plurality of sub-stations via an optical transmission path. The plurality of sub-stations respectively comprise modulation section for modulating a wavelength of an optical signal which is transmitted from the respective sub-station to the main station via the transmission path containing information signals by using a control signal having a unique frequency allocated to the sub-station, arbitrary pairs of control signals having different frequency differences. The main station comprises an extraction section for extracting a beat noise component from the received signal which is converted the optical signals modulated by the modulation sections into at the photo-detector, and a determination section for determining two sub-stations that have produced beat noise on the basis of the frequency difference of an arbitrary pair of control signals contained in the beat noise component extracted by the extraction section.
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Citations
28 Claims
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1. An optical communication system comprising:
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a plurality of sub-stations; and
a main station connected to said plurality of sub-stations via an optical transmission path, wherein said plurality of sub-stations respectively comprise a modulation unit modulating a wavelength of an optical signal containing information signals, by using a control signal having a unique frequency allocated to the sub-station, which is transmitted from the respective sub-station to the main station via the optical transmission path, arbitrary pairs of control signals having different frequency differences, and said main station comprises;
an extraction unit extracting a beat noise component from the optical signals modulated by the modulation unit; and
a determination unit determining two sub-stations that have produced beat noise on the basis of frequency difference of an arbitrary pair of control signals contained in the beat noise component extracted by said extraction unit, wherein the main station outputs a wavelength control signal for changing the wavelength of the optical signal to one of the two determined sub-stations, and the one of the two determined sub-stations changes the wavelength of the optical signal based on the wavelength control signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 17)
wherein the modulation unit directly modulates a semiconductor laser diode in intensity by using the information signals and control signal. -
3. A system according to claim 1, wherein the modulation unit comprises:
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a generation unit generating a first optical signal by directly modulating a semiconductor laser diode by using the control signal; and
an external optical modulator for modulating the first optical signal by using the information signal so as to obtain the optical signal modulated by the modulation unit.
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4. A system according to claim 1, wherein when the number of said plurality of sub-stations is L (L is an integer not less than 3), fm1 to fmL respectively represent frequencies of the control signals of the optical signals of the L sub-stations, and two frequency differences between arbitrary pairs of the control signals are respectively given by:
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5. A system according to claim 1, wherein said determination unit comprises:
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a detection unit detecting the beat noise component extracted by said extraction unit;
a filter unit respectively extracting frequency difference components of the control signals from the beat noise component detected by said detection unit; and
a specifying unit specifying the two sub-stations that have produced the beat noise on the basis of the frequency difference components extracted by said filter unit.
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6. A system according to claim 1, wherein said determination unit comprises:
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a detection unit detecting the beat noise component extracted by said extraction unit;
a formation unit sequentially forming signals having frequencies corresponding to the frequency differences of the control signals of the sub-stations;
a correlation unit outputting a signal indicating correlation between the beat noise component detected by said detection unit, and the signal formed by said formation unit; and
a specifying unit specifying the two sub-stations that have produced the beat noise on the basis of the signal output from said correlation unit.
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7. A system according to claim 1, further comprising:
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an increasing unit increasing power of the optical signal transmitted from a new sub-station connected to the transmission path while detecting beat noise by said determination unit;
a stop unit stopping the increase in power of the optical signal transmitted from the newly connected sub-station when said determination unit detects the beat noise caused by the power of the optical signal transmitted from the newly connected sub-station and increased by said increasing unit;
a changing unit changing a wavelength of the optical signal transmitted from the newly connected sub-station and a wavelength of the optical signal transmitted from another sub-station when said stop unit stops the increase in power of the optical signal transmitted from the newly connected sub-station; and
a unit increasing the power of the optical signal transmitted from the newly connected sub-station when said changing unit has changed the wavelengths of the optical signals transmitted from the newly connected sub-station and the other sub-station.
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8. A system according to claim 1, wherein one of the two determined sub-stations changes the wavelength of the optical signal so as to reduce power of the frequency difference of the arbitrary pair of the control signal contained in the beat noise component extracted by the extraction unit.
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17. A method according to claim 7, wherein the step of determining the two sub-stations comprises:
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detecting the extracted beat noise component;
sequentially forming signals having frequencies corresponding to the frequency differences of the control signals of the sub-stations;
outputting a signal indicating correlation between the detected beat noise component, and the formed signal; and
specifying the two sub-stations that have produced the beat noise on the basis of the output signal.
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9. An optical communication system comprising:
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a plurality of sub-stations; and
a main station connected to said plurality of sub-stations via an optical transmission path, wherein said plurality of sub-stations respectively comprise;
a modulation unit directly modulating a semiconductor laser diode in intensity by using an information signal to generate an optical signal which is transmitted from the respective sub-stations to the main station via the optical transmission path, and said main station comprises;
an extraction unit extracting a beat noise component from the optical signals from the modulation unit;
a detection unit detecting the beat noise component extracted by said extraction unit;
a unit acquiring the information signals of the sub-stations from the optical signals transmitted, and sequentially outputting signals indicating correlation between the beat noise component detected, and the information signals acquired; and
a specifying unit specifying the two sub-stations that have produced the beat noise on the basis of the signals indicating the correlation sequentially output, wherein the main station outputs a wavelength control signal for changing the wavelength of the optical signal to one of the two specified sub-stations, and the one of the two specified sub-stations changes the wavelength of the optical signal based on the wavelength control signal. - View Dependent Claims (10, 11, 12, 13)
a phase shift unit shifting phases of the information signals acquired, and sequentially outputting signals indicating correlation between the beat noise component detected, and the information signals shifted, wherein said specifying unit specifies the two sub-stations that have produced the beat noise based on the signals indicating correlation between the beat noise component detected, and the information signals shifted.
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12. A system according to claim 11, wherein said phase shift unit shifts 90°
- the phases of the information signals acquired.
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13. A system according to claim 9, further comprising:
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an increasing unit increasing power of the optical signal transmitted from a new sub-station connected to the transmission path while detecting beat noise by said determination unit;
a stop unit stopping the increase in power of the optical signal transmitted from the newly connected sub-station when said determination unit detects the beat noise caused by the power of the optical signal transmitted from the newly connected sub-station and increased by said increasing unit;
a changing unit changing a wavelength of the optical signal transmitted from the newly connected sub-station and a wavelength of the optical signal transmitted from another sub-station when said stop unit stops the increase in power of the optical signal transmitted from the newly connected sub-station; and
a unit increasing the power of the optical signal transmitted from the newly connected sub-station when said changing unit has changed the wavelengths of the optical signals transmitted from the newly connected sub-station and the other sub-station.
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14. A control method for an optical communication system comprising:
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transmitting optical signals containing information signals from a plurality of sub-stations to a main station based on control signals unique to the sub-stations via a transmission path, arbitrary pairs of the control signals having different frequency differences;
extracting a beat noise component from the transmitted optical signals;
determining two sub-stations that have produced beat noise on the basis of frequency difference of an arbitrary pair of control signals contained in the extracted beat noise component;
outputting a wavelength control signal for changing the wavelength of the optical signal from the main station to one of the two determined sub-stations; and
changing the wavelength of the optical signal to be transmitted to the main station based on the wavelength control signal in the one of the two determined sub-stations. - View Dependent Claims (15, 16)
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16. A method according to claim 14, wherein the step of determining the two sub-stations comprises:
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detecting the extracted beat noise component;
extracting frequency difference components of the control signals from the detected beat noise component by using the filters, respectively; and
specifying the two sub-stations that have produced the beat noise on the basis of the extracted frequency difference components.
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18. A control method for an optical communication system comprising:
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transmitting optical signals containing information signals from a plurality of sub-stations to a main station via a transmission path;
extracting a beat noise component from the optical signals transmitted;
acquiring information signals of the sub-stations from the optical signals transmitted;
outputting signals indicating correlation between the beat noise component extracted and information signal acquired;
determining two sub-stations that have produced beat noise based on the signals outputted;
outputting a wavelength control signal for changing the wavelength of the optical signal from the main station to one of the two determined sub-stations; and
changing the wavelength of the optical signal based on the wavelength control signal in the one of the two determined sub-stations. - View Dependent Claims (19)
shifting phases of the information signals acquired; and
outputting second signals indicating correlation between the detected beat noise component, and the phase-shifted signals, wherein the step of determining determines the two sub-stations that have produced the beat noise based on the second signals.
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20. An optical communication system comprising:
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a plurality of sub-stations; and
a main station connected to said plurality of sub-stations via an optical transmission path,wherein said plurality of sub-stations respectively comprise a modulation unit directly modulating a semiconductor laser diode in intensity by using an information signal and a control signal having a unique frequency allocated to the sub-stations to generate an optical signal, and said main station comprises;
an extraction unit extracting a beat noise component from the optical signals; and
a determination unit determining sub-stations that have produced beat noise on the basis of control signal frequency contained in the beat noise component extracted by said extraction unit, the main station outputs a wavelength control signal for changing the wavelength of the optical signal to the determined sub-stations and the one of the two determined sub-stations changes a wavelength of the optical signal based on the wavelength control signal. - View Dependent Claims (21, 22, 23)
a unit increasing power of the optical signal transmitted from a new sub-station connected to the transmission path;
a unit stopping the increase in power of the optical signal transmitted from the newly connected sub-station when said determination unit detects the beat noise caused by the power of the optical signal transmitted from the newly connected sub-station and increased by said increasing unit.
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22. A system according to claim 20, wherein one of the determined sub-stations changes the wavelength of the optical signal so as to reduce power of the control signal contained in the beat noise component extracted by the extraction unit.
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23. A system according to claim 20, wherein when the number of said plurality of sub-stations is L (L is an integer not less than 3), fm1 to fmL respectively represent frequencies of the control signals of the L sub-stations, and
a maximum modulation-band frequency of information signals S to be transmitted from the sub-station 1 to L to said main station, fs1 to fsL, respectively represent the frequencies of the information signals of the optical signals of the L sub-stations, satisfy: S<
fm1 to fmL<
fs1 to fsL.
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24. An optical communication system comprising:
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a plurality of sub-stations; and
a main station connected to said plurality of sub-stations via an optical transmission path,wherein said plurality of sub-stations respectively comprise a modulation unit directly modulating a semiconductor laser diode in intensity by using an information signal having a unique frequency allocated to the sub-stations to generate an optical signal, and said main station comprises;
extraction unit extracting a beat noise component from the optical signals;
determination unit determining sub-stations that have produced beat noise on the basis of information signal frequency contained in the beat noise component extracted by said extraction unit, the main station outputs a wavelength control signal for changing the wavelength of the optical signal to the determined sub-stations and the one of the determined sub-stations changes the wavelength of the optical signal based on the wavelength control signal. - View Dependent Claims (25, 26)
a unit for increasing power of the optical signal transmitted from a new sub-station connected to the transmission path;
a unit stopping the increase in power of the optical signal transmitted from the newly connected sub-station when said determination unit detects the beat noise caused by the power of the optical signal transmitted from the newly connected sub-station and increased by said increasing unit.
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26. A system according to claim 24, wherein the determined sub-stations change the wavelength of the optical signal so as to reduce power of the control signal contained in the beat noise component extracted by the extraction unit.
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27. A control method for an optical communication system, comprising:
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directly modulating, in respective sub-stations, a semiconductor laser diode in intensity by using an information signal and a control signal having a unique frequency allocated to the sub-stations to generate an optical signal to be transferred to a main station;
extracting, in the main station, a beat noise component from the optical signals;
determining, in the main station, sub-stations that have produced beat noise on the basis of control signal frequency contained in the beat noise component extracted;
outputting a wavelength control signal for changing the wavelength of the optical signal from the main station to the determined sub-stations; and
changing the wavelength of the optical signal based on the wavelength control signal in the determined sub-stations.
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28. A control method for an optical communication system, comprising:
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directly modulating, in respective sub-stations, a semiconductor laser diode in intensity by using an information signal having a unique frequency allocated to the sub-stations to generate an optical signal to be transferred to a main station;
extracting, in the main station, a beat noise component from the optical signals;
determining, in the main station, sub-stations that have produced beat noise on the basis of information signal in the beat noise component extracted;
outputting a wavelength control signal for changing the wavelength of the optical signal to the determined sub-stations from the main station to determined sub-stations; and
changing the wavelength of the optical signal based on the wavelength control signal in the determined sub-stations.
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Specification