CN105634605A - Method and device for quickly acquiring optical fiber interconnection information - Google Patents
Method and device for quickly acquiring optical fiber interconnection information Download PDFInfo
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- CN105634605A CN105634605A CN201610007813.2A CN201610007813A CN105634605A CN 105634605 A CN105634605 A CN 105634605A CN 201610007813 A CN201610007813 A CN 201610007813A CN 105634605 A CN105634605 A CN 105634605A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B10/00—Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
- H04B10/25—Arrangements specific to fibre transmission
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B10/00—Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
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Abstract
The invention discloses a method and a device for quickly acquiring optical fiber interconnection information, and relates to the field of optical communications. The method comprises the following steps: arranging devices to be tested and ports to be tested, separately connecting the ports to be tested to a transmitting terminal and a receiving terminal, and sending the connection relation to a server; starting the transmitting terminal, testing the ports in sequence, and if the receiving terminal detects a signal, sending detection information to the server; and after all the ports are detected, analyzing, by the server, the acquired information to obtain an accurate connection relation between the ports and information of an optical cable of each fiber core. By adopting the method and the device, the overall survey and construction time is reduced to be less than 2 hours, the acquisition efficiency of resources is furthest improved, the workload of the construction process is reduced, and the problem of inaccurate resource statistics caused by human factors is solved.
Description
Technical field
The present invention relates to optical communication field, be specifically related to method and the device of a kind of quick collection optical fiber interconnections information.
Background technology
Optical distribution network is based on PON (PassiveOpticalNetwork, EPON) FTTH (FiberToTheHome of equipment, fiber to the home) fiber cable network, it it is the important component part of FTTH network, its effect is for OLT (OpticalLineTerminal, optical line terminal) and ONU (OpticalNetworkUnit, optical network unit) between transmission line is provided, including the optical fiber cable between from operator machine room to subscriber household, optical connector, optical branching device and install the corollary equipment etc. connecting these devices. Deployment and the management of tradition optical distribution network optical fiber all rely on manual mode, when data inputting, it is necessary to connecting corresponding relation to background data base by manual typing optical fiber, error rate is higher. In engineering construction and O&M, it is necessary to carrying out fiber connection points or the lookup of trouble point, location by hand, be difficult to quick fault point, inefficiency when safeguarding, the sustainability of work is subject to enormous impact.
Shown in Figure 1, certain distribution plant looped network existing includes looped network 1 and looped network 2, some node is likely to lay respectively in multiple optical cable ring, such as: the 1# light in Fig. 1 is handed over and laid respectively in looped network 1 and looped network 2, consider directly to melt fibre core, fibre core within 1# optical cross box is likely to move towards all distribution plants of all distribution plants of looped network 1 or looped network 2, due to the error accumulation of fusing operation nonstandard in optical cable construction process and fiber resource record, cause that the annexation between each device port easily causes confusion.
Intelligent optical distribution network system is by introducing whole world sole electron label and on-site auxiliary construction software, take into account the passive attribute of optical distribution network, keep the conventional equipment performance of optical distribution network system and on the basis of range of application, add the function of intelligent management. optical fiber ID (Identity can be realized, identity number) management, port status is collected, port searches index, visualization tool PDA (PersonalDigitalAssistant, personal digital assistant), and whole network topology is carried out geography information show, fiber optic links illustrates, the functions such as equipment geographical coordinate instruction, the acquisition making the network information is more convenient, intuitively, reliably, optical fiber automatization can be realized search and operate accurate record, thus realizing FTTH efficient deployment and fiber failure preparation location, reduce the cost disposed with O&M greatly.
But, before intelligent optical distributing system occurs, existing optical distribution network has the work progress of too much manual intervention and confusion, cause that current optical fiber resource accuracy is relatively low, record corresponding to existing light path and on-the-spot actual trend cannot one_to_one corresponding, add the difficulty that office side constructs further based on existing resource on the one hand, bring huge challenge on the other hand the intelligence feasibility that existing network is transformed by ODN technology.
Summary of the invention
The invention aims to overcome the deficiency of above-mentioned background technology, method and the device of a kind of quick collection optical fiber interconnections information are provided, entirety is surveyed within the engineering time is compressed to 2 hours, maximized raising resource collection efficiency, reduce the workload of work progress, it also avoid owing to anthropic factor causes the inaccurate problem of resource statistics.
The present invention provides a kind of method of quick collection optical fiber interconnections information, comprises the following steps:
Arrange equipment to be tested and port to be tested, port to be tested is connected respectively to launch terminal, receives terminal, and annexation is sent to server; Starting launch terminal, each port is sequentially carried out test, if there being reception terminal signal to be detected, then detection information being sent to server; After all of the port detection, the information collected is analyzed processing by server, obtains the accurate annexation between port and the information of optical cable belonging to each fibre core.
On the basis of technique scheme, described launch terminal launches optical signal to each port to be tested successively, and the fibre core belonging to same optical cable uses Same Wavelength, and in different optical cables, the signal wavelength of fibre core is different; Meanwhile, receiving the wave-length coverage that has that it's too late that terminal measures the optical signal of each port to be tested in real time, launch terminal and receive terminal relevant information is persistently sent to server, all information are carried out concentrating by server to be analyzed and processes.
On the basis of technique scheme, described equipment to be tested includes fibre distribution frame and fiber cable cross connection box.
On the basis of technique scheme, the method specifically includes following steps:
S1, according to equipment to be tested arrange field condition, planning drawing, obtain the basic connection between each equipment, it is determined that this need participate in test all distributing frames and optical cross box equipment; Use optical cable detector that the optical cable connected between each node is detected, it is determined that the source of all optical cables and egress, obtain the accurate trend of all optical cables; Check the fibre core bundle belonging to port to be tested, check the optical cable that each fibre core bundle is corresponding, port is divided into different types by its affiliated optical cable;
S2, to equipment to be tested configure launch terminal, miscellaneous equipment configuration receives terminal, the all of the port of equipment to be tested is connected according to the order of sequence one by one with the port of launch terminal, the port of corresponding for all effective port of optical cable egress equipment reception terminal is connected according to the order of sequence one by one meanwhile;
S3, launch terminal and reception terminal are uploaded onto the server configuring complete annexation;
S4, launch terminal start port and send mechanism in turn, and optical signals launch terminal sequentially enters inside distribution plant port, via optical cable transmission to other node, to the fibre core belonging to same optical cable, have employed the optical signal of phase co-wavelength; To the fibre core in different optical cables, wavelength has difference;
S5, all reception terminals work simultaneously, continue to detect whether each port receiving terminal receives optical signal, if ports having receives optical signal, forward step S6 to, otherwise forward step S7 to;
S6, reception terminal record each port and receive the order of optical signal, time and signal wavelength, and send these information to server, forward step S7 to;
S7, the transmission of server comprehensive descision optical signal, reception time and order, obtain each receiving port and connect the source of fibre core, simultaneously, the wavelength of optical signal received by the port of terminal is received according to each, obtain the optical cable numbering belonging to all ports receiving optical signal, finally give the annexation between each port and optical cable information table belonging to port.
The device of a kind of quick collection optical fiber interconnections information of this offer of the present invention, this device includes at least one launch terminal, multiple reception terminal and a station server, wherein:
Described launch terminal is used for: produce the optical signal of different wave length, launches the optical signal of different wave length to port to be tested; Possess the function with server communication, upload data to server;
Described reception terminal is used for: at the other end of the connected optical fiber of launch terminal, receives the optical signal that this launch terminal provides, and detects the optical signal identifying different wave length; Possess the function with server communication, upload data to server;
Described server is used for: the data that real-time collecting launch terminal and reception terminal are uploaded, and the data that launch terminal and reception terminal are uploaded are analyzed, and export the detailed annexation of the internal fibre core of institute's measurement equipment.
On the basis of technique scheme, the propagation distance of described optical signal is more than 20km.
On the basis of technique scheme, described launch terminal and reception terminal all include touch panel device.
On the basis of technique scheme, described each launch terminal configures N number of port, and N is positive integer, and N >=1, once supports the test of separate unit distribution plant full configuration; Each reception terminal configures N number of detection port, once supports the test of separate unit distribution plant full configuration.
On the basis of technique scheme, described server includes the software module that the information that launch terminal and reception terminal are uploaded can be analyzed and be processed, and supports the function analyzing result output report.
On the basis of technique scheme, described launch terminal includes light source module, optical switch module, the first control module, first communication module, the first interconnecting module, wherein:
Described light source module is used for: producing the optical signal of different wave length, light source module includes the light source of multiple support different wave length;
Described optical switch module is used for: connect light source module and interconnecting module;
Described first controls module is used for: controls other modules within launch terminal, makes other module cooperative within launch terminal work;
Described first communication module is used for: provide the communication port between launch terminal and server, it is achieved the data interaction between launch terminal and server;
Described first interconnecting module is used for: completes the connection conversion between outlet and the outside device port to be tested of optical switch module, supports different fiber port type signaling transfer points, and provide dish fibre space.
On the basis of technique scheme, described first controls module includes the first power supply, the first communication interface, light source module control circuit, optical switch module control circuit, first communication module control circuit.
On the basis of technique scheme, described reception terminal includes the second interconnecting module, light detection module, the second control module, second communication module, wherein:
Described second interconnecting module is used for: completes the connection conversion receiving between terminal and port for peripheral equipment, supports different fiber port type signaling transfer points, and provide dish fibre space;
Described smooth detection module is used for: being used for identifying optical signal presence or absence, the concrete wavelength of detection optical signal, the fiber port of light detection module and the second interconnecting module connects one by one, and the detection information of light detection module reads for the second control module;
Described second controls module is used for: controls to receive other modules of terminal inner, makes other module cooperative of reception terminal inner work;
Described second communication module is used for: provide the communication port received between terminal and server, it is achieved receive the data interaction between terminal and server.
On the basis of technique scheme, described second controls module includes second source, second communication interface, light detection module control circuit, second communication module control circuit.
On the basis of technique scheme, described server includes third communication module, data processing module, wherein:
Described third communication module is used for: the data that real-time collecting launch terminal and reception terminal are uploaded;
Described data processing module is used for: the data for launch terminal and reception terminal are uploaded are analyzed, and export the detailed annexation of the internal fibre core of institute's measurement equipment.
Compared with prior art, advantages of the present invention is as follows:
The present invention is from the practical situation of current optical fiber resource, by the mode that optical signal detects automatically, confirm the exact content of fiber resource, adopt thought intelligent, mass, presence or absence according to optical signal achieves the judgement to optical fiber trend, difference according to wavelength of optical signal achieves the judgement to optical cable belonging to optical fiber, thus realizing being accurately positioned and adding up target resource, the result recorded is sent to server by sendaisle by termination, is finally drawn the correct trend of surveyed fiber resource by server analysis. Entirety is surveyed within the engineering time is compressed to 2 hours by the present invention, and maximized raising resource collection efficiency reduces the workload of work progress, it also avoid owing to anthropic factor causes the inaccurate problem of resource statistics.
Accompanying drawing explanation
Fig. 1 is the structural representation of certain distribution plant looped network existing.
Fig. 2 is the flow chart of the method quickly collecting optical fiber interconnections information in the embodiment of the present invention.
Fig. 3 is the group-net communication schematic diagram of termination in the embodiment of the present invention.
Fig. 4 is the optical fiber connection diagram in the embodiment of the present invention.
Fig. 5 is the structured flowchart of launch terminal in the embodiment of the present invention.
Fig. 6 is the structured flowchart receiving terminal in the embodiment of the present invention.
Fig. 7 is the structured flowchart of server in the embodiment of the present invention.
Detailed description of the invention
Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.
The embodiment of the present invention provides a kind of method of quick collection optical fiber interconnections information, comprises the following steps:
Arranging equipment to be tested and port to be tested, equipment to be tested includes fibre distribution frame and fiber cable cross connection box, port to be tested is connected respectively to launch terminal, receives terminal, and annexation is sent to server; Starting launch terminal, each port is sequentially carried out test, if there being reception terminal signal to be detected, then detection information being sent to server; After all of the port detection, the information collected is analyzed processing by server, obtains the accurate annexation between port and the information of optical cable belonging to each fibre core.
Shown in Figure 2, the method for the optical fiber interconnections information of quickly collecting in the embodiment of the present invention specifically includes following steps:
S1, according to equipment to be tested arrange field condition, planning drawing, obtain the basic connection between each equipment, it is determined that this need participate in test all distributing frames and optical cross box equipment; Use optical cable detector that the optical cable connected between each node is detected, it is determined that the source of all optical cables and egress, obtain the accurate trend of all optical cables;
Check the fibre core bundle belonging to port to be tested, check the optical cable that each fibre core bundle is corresponding, port is divided into different types by its affiliated optical cable, different optical cables is applied different optical signal, reaches the purpose of fiber resource Fast Classification;
Detection planning: equipment to be tested is investigated, sorts out all equipment being likely to be of connected relation; Signal launched by the optical cable connected between each equipment, draws cable node and moves towards schematic diagram; Meanwhile, check and add up the affiliated optical cable of each port correspondence optical fiber, and formulate this detection target and arrangement accordingly;
Optical fiber connects: with the port of the port of launch terminal, reception terminal, the fiber port of equipment to be tested is carried out corresponding connection respectively, optical signal is launched to each port to be tested successively by launch terminal, the fibre core belonging to same optical cable uses Same Wavelength, and in different optical cables, the signal wavelength of fibre core is different; Meanwhile, receiving the wave-length coverage that has that it's too late that terminal measures the optical signal of each port to be tested in real time, launch terminal and receive terminal relevant information is persistently sent to server, all information are carried out concentrating by server to be analyzed and processes.
S2, to equipment to be tested configure launch terminal, other and equipment to be tested are likely to be of all devices configuration of optical cable annexation and receive terminal, terminal after configuration is connected shown in Figure 3 with server networking, the all of the port of equipment to be tested is connected according to the order of sequence one by one with the port of launch terminal, form annexation as shown in table 1, for instance: the launch terminal A1 port in table 1 is connected with 1 frame 1 dish 1 port of 1# optical cross box to be measured.
Table 1, equipment to be tested the connection relational table of port and launch terminal port
Meanwhile, the port of corresponding for all effective port of optical cable egress equipment reception terminal is connected according to the order of sequence one by one, obtains annexation as shown in table 2.
Table 2, optical cable egress equipment the connection relational table of the corresponding reception terminal prot of effective port
Annexation complete for all configurations is uploaded onto the server by S3, launch terminal and reception terminal.
S4, launch terminal start port and send mechanism in turn, and optical signals launch terminal sequentially enters inside distribution plant port, via optical cable transmission to other node. To the fibre core belonging to same optical cable, have employed the optical signal of phase co-wavelength; To the fibre core in different optical cables, wavelength has difference, shown in Figure 4, and 1# light hands over all of the port of 1 dish and 2 dishes to access 1# optical cable, and the wavelength of optical signal that optical fiber therein adopts is �� 1,3 dish and 4 dishes access 2# optical cable, and the wavelength of optical signal of employing is �� 2. Difference according to wavelength can tell different optical cable belonging to fibre core.
S5, all reception terminals work simultaneously, continue to detect whether each port receiving terminal receives optical signal, if ports having receives optical signal, forward step S6 to, otherwise forward step S7 to;
After S6, reception terminal are to be tested, add up all information of its port. Shown in Figure 4,4# light hands over the reception terminal connected to may detect that the optical signal handing over 2 dishes, 3 dishes, 5 dishes and 6 dishes from light, reception terminal records each port and receives the order of optical signal, time and signal wavelength, and these information is sent to server by uploading channel, forward step S7 to;
S7, the transmission of server comprehensive descision optical signal, reception time and order, obtain each receiving port and connect the source of fibre core, simultaneously, the wavelength of optical signal received by the port of terminal is received according to each, obtain the optical cable numbering belonging to all ports receiving optical signal, finally give the annexation between each port as shown in table 3 and optical cable information table belonging to port.
Optical cable information table belonging to table 3, the annexation receiving the port of optical signal and port
The embodiment of the present invention also provides for the device of a kind of quick collection optical fiber interconnections information, and this device includes at least one launch terminal, multiple reception terminal and a station server, wherein:
Launch terminal is used for: produce the optical signal of different wave length, the propagation distance of optical signal is more than 20km, the optical signal of different wave length is launched to port to be tested, each launch terminal configures N number of port, N is positive integer, and N >=1, once supports the test of separate unit distribution plant full configuration, and possess the function with server communication, upload data to server;
Reception terminal is used for: at the other end of the connected optical fiber of launch terminal, receives the optical signal that this launch terminal provides, and detects the optical signal identifying different wave length; Each reception terminal configures N number of detection port, once supports the test of separate unit distribution plant full configuration, is provided simultaneously with the function with server communication, uploads data to server;
Launch terminal and reception terminal all include touch panel device.
Server is used for: the data that real-time collecting launch terminal and reception terminal are uploaded, and the data that launch terminal and reception terminal are uploaded are analyzed, and export the detailed annexation of the internal fibre core of institute's measurement equipment. Server includes the software module that the information that launch terminal and reception terminal are uploaded can be analyzed and be processed, and supports the function analyzing result output report.
Shown in Figure 5, launch terminal includes light source module, optical switch module, the first control module, first communication module, the first interconnecting module, wherein:
Light source module is used for: producing the optical signal of different wave length, light source module includes the light source of multiple support different wave length;
Optical switch module is used for: connecting light source module and interconnecting module, by the ports-Extending of optical switch module, launch terminal can be supported more to test port;
First controls module is used for: controls other modules within launch terminal, makes other module cooperative within launch terminal work; First controls module includes the first power supply, the first communication interface, light source module control circuit, optical switch module control circuit, first communication module control circuit;
First communication module is used for: provide the communication port between launch terminal and server, it is achieved the data interaction between launch terminal and server;
First interconnecting module is used for: completes the connection conversion between outlet and the outside device port to be tested of optical switch module, supports different fiber port type signaling transfer points, and provide dish fibre space.
Shown in Figure 6, receive terminal and include the second interconnecting module, light detection module, the second control module, second communication module, wherein:
Second interconnecting module is used for: completes the connection conversion receiving between terminal and port for peripheral equipment, supports different fiber port type signaling transfer points, and provide dish fibre space;
Light detection module is used for: being used for identifying optical signal presence or absence, the concrete wavelength of detection optical signal, the fiber port of light detection module and the second interconnecting module connects one by one, and the detection information of light detection module reads for the second control module;
Second controls module is used for: controls to receive other modules of terminal inner, makes other module cooperative of reception terminal inner work; Second controls module includes second source, second communication interface, light detection module control circuit, second communication module control circuit;
Second communication module is used for: provide the communication port received between terminal and server, it is achieved receive the data interaction between terminal and server.
Shown in Figure 7, server includes third communication module, data processing module, wherein:
Third communication module is used for: the data that real-time collecting launch terminal and reception terminal are uploaded;
Data processing module is used for: the data for launch terminal and reception terminal are uploaded are analyzed, and export the detailed annexation of the internal fibre core of institute's measurement equipment.
The embodiment of the present invention can be carried out various modifications and variations by those skilled in the art, if these amendments and modification are within the scope of the claims in the present invention and equivalent technologies thereof, then these amendments and modification are also within protection scope of the present invention.
The prior art that the content not being described in detail in description is known to the skilled person.
Claims (14)
1. the method for a quick collection optical fiber interconnections information, it is characterised in that comprise the following steps:
Arrange equipment to be tested and port to be tested, port to be tested is connected respectively to launch terminal, receives terminal, and annexation is sent to server; Starting launch terminal, each port is sequentially carried out test, if there being reception terminal signal to be detected, then detection information being sent to server; After all of the port detection, the information collected is analyzed processing by server, obtains the accurate annexation between port and the information of optical cable belonging to each fibre core.
2. the method quickly collecting optical fiber interconnections information as claimed in claim 1, it is characterized in that: described launch terminal launches optical signal to each port to be tested successively, the fibre core belonging to same optical cable uses Same Wavelength, and in different optical cables, the signal wavelength of fibre core is different; Meanwhile, receiving the wave-length coverage that has that it's too late that terminal measures the optical signal of each port to be tested in real time, launch terminal and receive terminal relevant information is persistently sent to server, all information are carried out concentrating by server to be analyzed and processes.
3. the method quickly collecting optical fiber interconnections information as claimed in claim 1, it is characterised in that: described equipment to be tested includes fibre distribution frame and fiber cable cross connection box.
4. the method quickly collecting optical fiber interconnections information as claimed in claim 1, it is characterised in that: the method specifically includes following steps:
S1, according to equipment to be tested arrange field condition, planning drawing, obtain the basic connection between each equipment, it is determined that this need participate in test all distributing frames and optical cross box equipment; Use optical cable detector that the optical cable connected between each node is detected, it is determined that the source of all optical cables and egress, obtain the accurate trend of all optical cables; Check the fibre core bundle belonging to port to be tested, check the optical cable that each fibre core bundle is corresponding, port is divided into different types by its affiliated optical cable;
S2, to equipment to be tested configure launch terminal, miscellaneous equipment configuration receives terminal, the all of the port of equipment to be tested is connected according to the order of sequence one by one with the port of launch terminal, the port of corresponding for all effective port of optical cable egress equipment reception terminal is connected according to the order of sequence one by one meanwhile;
S3, launch terminal and reception terminal are uploaded onto the server configuring complete annexation;
S4, launch terminal start port and send mechanism in turn, and optical signals launch terminal sequentially enters inside distribution plant port, via optical cable transmission to other node, to the fibre core belonging to same optical cable, have employed the optical signal of phase co-wavelength; To the fibre core in different optical cables, wavelength has difference;
S5, all reception terminals work simultaneously, continue to detect whether each port receiving terminal receives optical signal, if ports having receives optical signal, forward step S6 to, otherwise forward step S7 to;
S6, reception terminal record each port and receive the order of optical signal, time and signal wavelength, and send these information to server, forward step S7 to;
S7, the transmission of server comprehensive descision optical signal, reception time and order, obtain each receiving port and connect the source of fibre core, simultaneously, the wavelength of optical signal received by the port of terminal is received according to each, obtain the optical cable numbering belonging to all ports receiving optical signal, finally give the annexation between each port and optical cable information table belonging to port.
5. the device of a quick collection optical fiber interconnections information, it is characterised in that: this device includes at least one launch terminal, multiple reception terminal and a station server, wherein:
Described launch terminal is used for: produce the optical signal of different wave length, launches the optical signal of different wave length to port to be tested; Possess the function with server communication, upload data to server;
Described reception terminal is used for: at the other end of the connected optical fiber of launch terminal, receives the optical signal that this launch terminal provides, and detects the optical signal identifying different wave length; Possess the function with server communication, upload data to server;
Described server is used for: the data that real-time collecting launch terminal and reception terminal are uploaded, and the data that launch terminal and reception terminal are uploaded are analyzed, and export the detailed annexation of the internal fibre core of institute's measurement equipment.
6. the device quickly collecting optical fiber interconnections information as claimed in claim 5, it is characterised in that: the propagation distance of described optical signal is more than 20km.
7. the device quickly collecting optical fiber interconnections information as claimed in claim 5, it is characterised in that: described launch terminal and reception terminal all include touch panel device.
8. the device quickly collecting optical fiber interconnections information as claimed in claim 5, it is characterised in that: described each launch terminal configures N number of port, and N is positive integer, and N >=1, once supports the test of separate unit distribution plant full configuration; Each reception terminal configures N number of detection port, once supports the test of separate unit distribution plant full configuration.
9. the device quickly collecting optical fiber interconnections information as claimed in claim 5, it is characterized in that: described server includes the software module that the information that launch terminal and reception terminal are uploaded can be analyzed and be processed, and supports the function analyzing result output report.
10. the device quickly collecting optical fiber interconnections information as claimed in claim 5, it is characterised in that: described launch terminal includes light source module, optical switch module, the first control module, first communication module, the first interconnecting module, wherein:
Described light source module is used for: producing the optical signal of different wave length, light source module includes the light source of multiple support different wave length;
Described optical switch module is used for: connect light source module and interconnecting module;
Described first controls module is used for: controls other modules within launch terminal, makes other module cooperative within launch terminal work;
Described first communication module is used for: provide the communication port between launch terminal and server, it is achieved the data interaction between launch terminal and server;
Described first interconnecting module is used for: completes the connection conversion between outlet and the outside device port to be tested of optical switch module, supports different fiber port type signaling transfer points, and provide dish fibre space.
11. the device quickly collecting optical fiber interconnections information as claimed in claim 10, it is characterised in that: described first controls module includes the first power supply, the first communication interface, light source module control circuit, optical switch module control circuit, first communication module control circuit.
12. the device quickly collecting optical fiber interconnections information as claimed in claim 5, it is characterised in that: described reception terminal includes the second interconnecting module, light detection module, the second control module, second communication module, wherein:
Described second interconnecting module is used for: completes the connection conversion receiving between terminal and port for peripheral equipment, supports different fiber port type signaling transfer points, and provide dish fibre space;
Described smooth detection module is used for: being used for identifying optical signal presence or absence, the concrete wavelength of detection optical signal, the fiber port of light detection module and the second interconnecting module connects one by one, and the detection information of light detection module reads for the second control module;
Described second controls module is used for: controls to receive other modules of terminal inner, makes other module cooperative of reception terminal inner work;
Described second communication module is used for: provide the communication port received between terminal and server, it is achieved receive the data interaction between terminal and server.
13. the device quickly collecting optical fiber interconnections information as claimed in claim 12, it is characterised in that: described second controls module includes second source, second communication interface, light detection module control circuit, second communication module control circuit.
14. the device quickly collecting optical fiber interconnections information as claimed in claim 5, it is characterised in that: described server includes third communication module, data processing module, wherein:
Described third communication module is used for: the data that real-time collecting launch terminal and reception terminal are uploaded;
Described data processing module is used for: the data for launch terminal and reception terminal are uploaded are analyzed, and export the detailed annexation of the internal fibre core of institute's measurement equipment.
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PCT/CN2016/102812 WO2017118149A1 (en) | 2016-01-07 | 2016-10-21 | Method and apparatus for rapidly collecting fibre interconnection information |
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WO2017118149A1 (en) * | 2016-01-07 | 2017-07-13 | 烽火通信科技股份有限公司 | Method and apparatus for rapidly collecting fibre interconnection information |
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