SLAVE STATION DEVICE, MASTER STATION DEVICE, OPTICAL COMMUNICATION SYSTEM, AND MALFUNCTION DETECTION METHOD
First Claim
1. A slave station device to receive an optical signal from a master station device including two or more master station control units, the slave station device comprising:
- an optical receiver capable of dealing with a plurality of optical wavelengths to receive, from the master station device, an optical signal having a single optical wavelength set out of the plurality of optical wavelengths, and convert the received optical signal into an electric signal;
a processor to execute a program; and
a memory to store the program which, when executed by the processor, performs processes of,extracting and holding wavelength correspondence information, which is stored in the electric signal, indicating correspondence between the master station control units and the optical wavelengths used for transmitting control signals generated by the respective master station control units,extracting, when the electric signal is a wavelength switching request that requests a switch of the wavelength for the optical receiver, information on the optical wavelength after wavelength switching instructed in the wavelength switching request, andobtaining setting identification information that is identification information of the master station control unit to which the slave station device itself should be connected after the wavelength switching based on the extracted information of the optical wavelength after the wavelength switching and the wavelength correspondence information, anddetermining, when the electric signal is the control signal, whether a malfunction occurs based on identification information of the master station control unit that is a transmission source of the control signal stored in the control signal, and on the setting identification information.
1 Assignment
0 Petitions
Accused Products
Abstract
An ONU receiving an optical signal from an OLT including PON controllers includes: an optical receiver to convert, into an electric signal, an optical signal having a single optical wavelength set out of plural optical wavelengths; and a control frame extractor to extract and hold wavelength correspondence information indicating correspondence between MAC addresses of the PON controllers received from the OLT and the optical wavelengths. The control frame extractor, when receiving a wavelength switching request, extracts the optical wavelength after wavelength switching instructed in the wavelength switching request, obtains a setting address of the MAC address of the PON controller to which the ONU itself should be connected after the wavelength switching based on the extracted optical wavelength after the wavelength switching and the wavelength correspondence information, and determines whether a malfunction occurs based on a transmission source MAC address stored in a received control frame and the setting address.
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Citations
10 Claims
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1. A slave station device to receive an optical signal from a master station device including two or more master station control units, the slave station device comprising:
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an optical receiver capable of dealing with a plurality of optical wavelengths to receive, from the master station device, an optical signal having a single optical wavelength set out of the plurality of optical wavelengths, and convert the received optical signal into an electric signal; a processor to execute a program; and a memory to store the program which, when executed by the processor, performs processes of, extracting and holding wavelength correspondence information, which is stored in the electric signal, indicating correspondence between the master station control units and the optical wavelengths used for transmitting control signals generated by the respective master station control units, extracting, when the electric signal is a wavelength switching request that requests a switch of the wavelength for the optical receiver, information on the optical wavelength after wavelength switching instructed in the wavelength switching request, and obtaining setting identification information that is identification information of the master station control unit to which the slave station device itself should be connected after the wavelength switching based on the extracted information of the optical wavelength after the wavelength switching and the wavelength correspondence information, and determining, when the electric signal is the control signal, whether a malfunction occurs based on identification information of the master station control unit that is a transmission source of the control signal stored in the control signal, and on the setting identification information. - View Dependent Claims (2, 3, 4, 5, 6)
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7-8. -8. (canceled)
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9. An optical communication system comprising a master station device and a slave station device, the slave station device including an optical receiver capable of dealing with a plurality of optical wavelengths to receive an optical signal transmitted from the master station device, wherein
the master station device includes: -
two or more master station control units to generate control signals that are transmitted to the slave station device; and two or more optical transmitters corresponding to the respective master station control units, the two or more optical transmitters convert the control signals generated by the corresponding master station control units into optical signals having different optical wavelengths, and transmit the optical signals to the slave station device, the control signal includes identification information of the master station control unit, each master station control unit generates the control signal in which wavelength correspondence information that is correspondence between the identification information of the master station control units and the optical wavelengths respectively corresponding to the master station control units is stored, and generates the control signal in which a wavelength switching request that requests a switch of the optical wavelength for the optical receiver in the slave station device is stored, and the slave station device includes; the optical receiver capable of dealing with the plurality of optical wavelengths to receive, from the master station device, an optical signal having a single optical wavelength set out of the plurality of optical wavelengths, and convert the received optical signal into an electric signal; a processor to execute a program; and a memory to store the program which, when executed by the processor, performs processes of, extracting and holding wavelength correspondence information stored in the control signal that is the electric signal, extracting, when the control signal is the wavelength switching request that requests the switch of the wavelength for the optical receiver, information on the optical wavelength after wavelength switching instructed in the wavelength switching request, and obtaining setting identification information that is identification information of the master station control unit to which the slave station device itself should be connected after the wavelength switching based on the extracted information of the optical wavelength after the wavelength switching and the wavelength correspondence information, and determining, when the electric signal is the control signal, whether a malfunction occurs based on the identification information of the master station control unit that is a transmission source of the control signal stored in the control signal, and on the setting identification information.
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10. A malfunction detection method for an optical communication system including a master station device having two or more master station control units to generate control signals and a slave station device having an optical receiver capable of dealing with a plurality of optical wavelengths to receive an optical signal transmitted from the master station device, the malfunction detection method comprising:
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a control signal generation step of generating, by the master station control unit of the master station device, the control signal in which identification information of the master station control unit is stored; a transmission step of converting, by the master station device, the control signal into an optical signal having an optical wavelength that differs for each master station control unit, and transmitting the optical signal to the slave station device; a wavelength correspondence information transmission step of transmitting, by the master station device to the slave station device, wavelength correspondence information that is correspondence between the identification information of the master station control units and the optical wavelengths corresponding to the master station control units; a wavelength switching request transmission step of transmitting, by the master station device to the slave station device, a wavelength switching request that requests a switch of the optical wavelength for the optical receiver in the slave station device; a wavelength correspondence information holding step of holding, by the slave station device, the wavelength correspondence information received from the master station device; an identification information extraction step of extracting, by the slave station device when receiving the wavelength switching request from the master station device, the optical wavelength after wavelength switching instructed in the wavelength switching request, and obtaining setting identification information that is identification information of the master station control unit to which the slave station device itself should be connected after the wavelength switching based on the extracted optical wavelength after the wavelength switching and the wavelength correspondence information; and a malfunction detection step of detecting, by the slave station device, whether a malfunction occurs in the slave station device based on the identification information of the master station control unit that is a transmission source of the control signal stored in the control signal received from the master station device through the optical receiver after receiving the wavelength switching request, and on the setting identification information.
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Specification