JP6562116B2 - Information processing device - Google Patents

Description

  The present invention relates to an information processing apparatus.

  Conventionally, there has been proposed a power outage site information system that collects captured images obtained by capturing power distribution facilities from general people who do not belong to an electric power company when a power outage occurs (for example, Patent Document 1).

JP 2006-134119 A

In the conventional power failure site information system, there is a problem that it is difficult for a general person to actively image the power distribution facility.
The present invention has been made in view of the above-described circumstances, and an object thereof is to provide an information processing apparatus that allows a general person to actively image power distribution equipment.

  According to one embodiment of the present invention, an equipment image in which equipment is imaged by an imaging device, and equipment-to-be-imaged position information indicating the position of the equipment to be imaged that is the equipment imaged in the equipment image among a plurality of equipment are acquired. Equipment position information acquisition unit, position information indicating the position of the equipment, and contribution information provided in advance as information used for evaluation of contribution to the imaging of the equipment existing at the position regardless of the imaging result of the equipment image The attribute information for a plurality of facilities based on the imaged facility location information acquired by the facility location information acquisition unit from the attribute information storage unit in which the attribute information associated with is stored for each location of the facility Among them, an attribute information acquisition unit that acquires the attribute information of the facility to be imaged, and imager information acquisition that acquires imager information indicating an imager who has captured the facility image by the imaging device And the degree of contribution to the photographer based on the photographer information acquired by the photographer information acquisition unit and the contribution information included in the attribute information acquired by the attribute information acquisition unit. A state of the imaged equipment based on an evaluation providing unit that assigns a corresponding evaluation as a contribution evaluation, a state of the imaged equipment indicated by the equipment image, and determination criterion information indicating a criterion for determining the quality of the equipment An information processing apparatus comprising: a quality determination unit that determines quality of the image; and a repair instruction information output unit that outputs repair instruction information for instructing repair of the imaged equipment based on the quality determined by the quality determination unit It is.

  In the information processing apparatus according to an aspect of the present invention, the evaluation assigning unit assigns the contribution evaluation by changing the evaluation for each facility image.

  In the information processing apparatus according to an aspect of the present invention, the evaluation assigning unit assigns the contribution evaluation by changing the evaluation for each facility image based on the imaging history of the facility.

  In the information processing device of one embodiment of the present invention, the facility includes an imaging target facility in which imaging is instructed as an imaging target, and imaging request information for outputting imaging request information for requesting imaging of the imaging target facility An output unit is further provided.

  Further, in the information processing apparatus according to one aspect of the present invention, the imaging request information output unit may include the range based on position information indicating the position of the imaging target facility included in the attribute information of the imaging target facility. Output imaging request information.

  Further, in the information processing apparatus according to an aspect of the present invention, the imaging request information output unit is configured to output the imaging apparatus within a predetermined distance from the position of the imaging target facility among the plurality of imaging apparatuses. The imaging request information is output.

  In the information processing apparatus according to an aspect of the present invention, the imaging request information output unit outputs the imaging request information to a designated imager selected as an imager who images the equipment to be imaged.

  In the information processing apparatus according to an aspect of the present invention, a class corresponding to the given evaluation of contribution is set for the photographer, and the imaging request information for each class corresponding to the class is set in the imaging request information. The imaging request information output unit outputs the imaging request information for each class according to the class.

  In the information processing apparatus according to an aspect of the present invention, the imaging request information output unit captures, among the facilities, the facility having a large degree of imaging contribution indicated by the contribution information included in the attribute information. The imaging request information is output as target equipment.

  In the information processing apparatus according to one aspect of the present invention, the degree of contribution by imaging is determined for each facility according to the installation environment of the facility.

  ADVANTAGE OF THE INVENTION According to this invention, the information processing apparatus which makes a general person image a power distribution installation actively can be provided.

It is a figure which shows an example of the external appearance structure of the information processing apparatus which concerns on 1st Embodiment. It is a figure which shows an example of an installation image. It is a figure which shows an example of a function structure of the information processing apparatus which concerns on 1st Embodiment. It is a figure which shows an example of the determination information. It is a flowchart which shows an example of operation | movement of the information processing apparatus which concerns on 1st Embodiment. It is a figure which shows an example of attribute information. It is a figure which shows an example of imaging person information and total evaluation. It is a figure which shows an example of a structure of the information processing apparatus which concerns on 2nd Embodiment. It is a flowchart which shows an example of operation | movement of the information processing apparatus which concerns on 2nd Embodiment. It is a figure which shows an example of a class.

[First Embodiment]
[External configuration of information processing apparatus 1]
Hereinafter, a first embodiment of an information processing apparatus according to the present invention will be described with reference to the drawings. It should be noted that the number of components described in this embodiment is not intended to limit the scope of the present invention unless otherwise specified, and is merely an illustrative example.
With reference to FIG. 1, an external configuration of the information processing apparatus 1 according to the first embodiment of the present invention will be described.
FIG. 1 is a diagram illustrating an example of an external configuration of the information processing apparatus 1 according to the first embodiment.

The information processing apparatus 1 and the repair support apparatus 3 are provided in a company E of an electric power company. An electric power company is a general power transmission / distribution company, a retail electric company, or the like that supplies electric power to consumers who are supplied with electric power.
The electric utility manages the facility FA. The facility FA is a facility that transmits and distributes electric power. The facility FA is maintained by an electric utility. When an abnormality A occurs in the facility FA, the electric utility repairs the facility FA in which the abnormality A has occurred. In the following description, the facility FA is a utility pole. The facility FA is not limited to a utility pole, and may be a facility managed by an electric power company. In this example, the facility FA includes a facility FA1, a facility FA2, and a facility FA3. An abnormality A1 has occurred in the facility FA1. The abnormality A1 is a state where smoke is generated from the facility FA1. An abnormality A2 has occurred in the facility FA2. Abnormality A2 is a state in which the distribution line included in the facility FA2 is disconnected. An abnormality A3 has occurred in the facility FA3. The abnormality A3 is a state in which a crack such as a crack has occurred in the facility FA3.
The imaging device 2 includes an imaging unit 201 and an output unit 202. The imaging unit 201 captures a captured image as an equipment image so that the equipment FA is reflected. The facility image is an image in which the facility FA is reflected. The imaging unit 201 assigns to the equipment image the photographer information that is allocated in advance to the photographer when the equipment image is captured. The photographer information is information indicating the photographer who captured the facility image.

The output unit 202 outputs, to the information processing apparatus 1, the facility image captured by the imaging unit 201 and the photographer information indicating the photographer who captured the facility image. In the following description, the imaging device 2 is a smartphone.
The information processing apparatus 1 acquires the facility image output from the imaging apparatus 2 and the photographer information. Based on the equipment image acquired from the imaging device 2, the information processing apparatus 1 determines whether the state of the equipment reflected in the equipment image is good or bad. When the information processing apparatus 1 determines that the state of the equipment reflected in the equipment image is defective, the information processing apparatus 1 outputs repair instruction information for instructing repair of the equipment reflected in the captured image to the repair support apparatus 3. To do.
The repair support device 3 is a device that acquires repair instruction information output from the information processing device 1. When the repair support apparatus 3 acquires the repair instruction information from the information processing apparatus 1, the repair support apparatus 3 makes a plan for repairing the equipment reflected in the equipment image.

[About equipment image G]
Here, with reference to FIG. 2, the equipment image G which the imaging device 2 images is demonstrated.
FIG. 2 is a diagram illustrating an example of the facility image G.
In the following description, the facility FA that appears in the facility image G captured by the imaging device 2 is also referred to as an imaged facility SFA. The to-be-imaged facility SFA is a facility imaged in the facility image G among the plurality of facilities FA. The facility FA includes a number display plate NP. The number display board NP is information for specifying the facility FA. Specifically, the number display plate NP is a telephone pole number in which a telephone pole number is written when the imaging target equipment SFA reflected in the equipment image G is a power pole.
In addition, the imaging device 2 assigns facility image information GI to the captured facility image G. The facility image information GI is information that the imaging device 2 that captured the facility FA gives to the facility image G.
The facility image information GI includes imaging position information GP and a photographer information ID.
The imaging position information GP is information indicating a position where the imaging device 2 has captured the facility image G. Specifically, the imaging position information GP is information indicating position information of latitude and longitude measured by a GPS (Global Positioning System) (not shown) included in the imaging apparatus 2.

The imaging device 2 images the ranges shown in the imaging range SA1, the imaging range SA2, and the imaging range SA3 shown in FIG.
FIG. 2A is an equipment image G1 obtained by imaging the imaging range SA1. In the equipment image G1, the equipment to be imaged SFA1 and the number display plate NP1 are imaged. In addition, the equipment image G1 includes equipment image information GI1. The facility image information GI1 includes “POS_A” as the imaging position information GP and “ID_1” as the photographer information ID.
FIG. 2B is an equipment image G2 obtained by imaging the imaging range SA2. In the facility image G2, the imaged facility SFA2 and the number display plate NP2 are imaged. In addition, the equipment image G2 includes equipment image information GI2. The facility image information GI2 includes “POS_C” as the imaging position information GP and “ID_2” as the photographer information ID.
FIG. 2C is an equipment image G3 obtained by imaging the imaging range SA3. In the equipment image G3, the equipment to be imaged SFA3 and the number display plate NP3 are imaged. The equipment image G3 includes equipment image information GI3. The facility image information GI3 includes “POS_B” as the imaging position information GP and “ID_3” as the photographer information ID.

[Functional configuration of information processing apparatus 1]
Next, an example of a functional configuration of the information processing apparatus 1 according to the first embodiment will be described with reference to FIG.

FIG. 3 is a diagram illustrating an example of a functional configuration of the information processing apparatus 1 according to the first embodiment.
The information processing apparatus 1 includes a captured image acquisition unit 16, an equipment position information acquisition unit 10, an attribute information storage unit 12, an attribute information acquisition unit 11, an imager information acquisition unit 13, and an imager information storage unit 15. The evaluation provision unit 14, the determination criterion storage unit 18, the quality determination unit 17, and the repair instruction information output unit 19 are provided.

The captured image acquisition unit 16 acquires the facility image G output from the imaging device 2. The captured image acquisition unit 16 outputs the facility image G acquired from the imaging device 2 to the facility position information acquisition unit 10, the photographer information acquisition unit 13, and the pass / fail determination unit 17.
The facility position information acquisition unit 10 acquires the facility image G from the captured image acquisition unit 16. The facility position information acquisition unit 10 acquires the captured facility position information SFP indicating the position of the captured facility SFA that is the facility captured in the facility image G acquired from the captured image acquisition unit 16. Specifically, the facility position information acquisition unit 10 acquires the captured facility position information SFP by analyzing the facility image G for the number display plate NP included in the captured facility SFA captured in the facility image G. .
The equipment location information acquisition unit 10 outputs the acquired equipment location information SFP to the attribute information acquisition unit 11.

  When the equipment image G does not include the number display plate NP, the equipment position information acquisition unit 10 uses the imaging position information GP indicating the position where the equipment image G is imaged instead of the imaged equipment position information SFP. , It may be output to the attribute information acquisition unit 11.

  The attribute information storage unit 12 includes, for each facility FA, attribute information PI in which position information FAP indicating the position of the facility FA and contribution information EV used for evaluating the contribution to the imaging of the facility FA are associated with each other. Remembered.

The attribute information acquisition unit 11 acquires the imaged equipment attribute information SPI based on the imaged equipment position information SFP acquired by the equipment position information acquisition unit 10. Alternatively, the attribute information acquisition unit 11 acquires the imaged equipment attribute information SPI based on the imaging position information GP acquired by the equipment position information acquisition unit 10. The imaged equipment attribute information SPI is attribute information of the imaged equipment SFA among the attribute information PI for a plurality of equipment FA stored in the attribute information storage unit 12. Specifically, the attribute information acquisition unit 11 uses the attribute information PI of the facility FA corresponding to the captured facility position information SFP as the captured facility attribute information SPI from the attribute information PI stored in the attribute information storage unit 12. get. Details of the attribute information PI will be described later.
The attribute information acquisition unit 11 outputs the attribute information SPI acquired from the attribute information storage unit 12 to the evaluation assigning unit 14 and the repair instruction information output unit 19.

The imager information acquisition unit 13 acquires an imager information ID indicating the imager who has captured the facility image FA by the imaging device 2. Specifically, the photographer information acquisition unit 13 acquires the equipment image G from the captured image acquisition unit 16. The imager information acquisition unit 13 acquires the imager information ID from the facility image information GI included in the facility image G acquired from the captured image acquisition unit 16.
The photographer information acquisition unit 13 outputs the photographer information ID to the evaluation assigning unit 14.

  The photographer information storage unit 15 stores the photographer information ID and the cumulative evaluation V in association with each other. The cumulative evaluation V is obtained by accumulating contribution evaluations given to the photographer. The contribution evaluation is an evaluation according to the degree of contribution based on the contribution information EV included in the attribute information SPI of the imaged equipment SFA imaged by the photographer. The degree of contribution is set large when, for example, the imaged facility SFA installed in a place where it is difficult for an electric power company to inspect is taken. The degree of contribution is set to be small in the case of the imaging facility SFA that is imaged by many people. The degree of contribution is set to be large when the imaged equipment SFA is placed in severe weather conditions such as a typhoon or when a repair instruction is output.

  The evaluation assigning unit 14 acquires the photographer information ID from the photographer information acquisition unit 13. The evaluation assigning unit 14 acquires the attribute information SPI from the attribute information acquiring unit 11. The evaluation assigning unit 14 acquires the pass / fail YN of the state of the imaged equipment SFA from the pass / fail determination unit 17. The evaluation assigning unit 14 is determined by the photographer information ID acquired from the imager information acquisition unit 13, contribution information EV included in the imaged facility attribute information SPI acquired from the attribute information acquisition unit 11, and the pass / fail determination unit 17. The evaluation according to the degree of contribution is given to the photographer as a contribution degree evaluation based on the quality YN of the state of the imaging target equipment SFA. Specifically, when the pass / fail determination unit 17 determines that the state of the imaged equipment SFA is good or bad, the evaluation assigning unit 14 uses the contribution degree information EV included in the imaged equipment attribute information SPI as the photographer. The cumulative evaluation V is accumulated in association with the photographer information ID stored in the information storage unit 15.

The determination criterion storage unit 18 stores determination information BI indicating a criterion for determining whether the facility FA is good or bad. Here, the determination information BI will be described with reference to FIG. The determination information BI is information in which the equipment type FT, the determination reference information TG, and the pass / fail information J are associated with each other as shown in FIG. The equipment type FT is information on the type of equipment FA included in the criterion information TG. In this example, the criterion information TG is image information obtained by capturing the facility FA. The criterion information TG includes image information in a normal state of the facility FA and a plurality of pieces of image information for each type of abnormality A. Note that the determination reference information TG is not limited to image information, and may be information that can determine whether the imaging target facility SFA is good or bad. The pass / fail information J is information indicating whether or not the state of the facility FA imaged in the determination criterion information TG is in a good state.
FIG. 4 is a diagram illustrating an example of the determination information BI.

In this example, the determination information BI includes determination information BI1, determination information BI2, and determination information BI3.
In the determination information BI1, “electric pole” as the facility type FT, determination criterion information TG1 as the determination reference information TG, and “good” as the pass / fail information J are associated with each other.
In the determination information BI2, “electric pole” as the facility type FT, determination criterion information TG2 as the determination reference information TG, and “no” as the pass / fail information J are associated with each other. In the criterion information TG2, the facility FA in which the abnormality A4 has occurred is imaged.
In the determination information BI3, “electric pole” as the facility type FT, determination criterion information TG3 as the determination criterion information TG, and “no” as the pass / fail information J are associated with each other. In the criterion information TG3, the facility FA in which the abnormality A5 has occurred is imaged.

  Returning to FIG. 3, the pass / fail judgment unit 17 determines the coverage based on the state of the imaged equipment SFA indicated by the equipment image G acquired by the captured image acquisition unit 16 and the judgment information BI indicating the criteria for the quality judgment of the equipment FA. The quality of the imaging facility SFA is determined. The pass / fail determination unit 17 outputs the determined pass / fail as pass / fail determination information to the repair instruction information output unit 19 and the evaluation assigning unit 14. The pass / fail judgment information is information indicating whether or not the imaged facility SFA is in a state that requires repair. Specifically, the pass / fail determination unit 17 compares the equipment image G with the determination reference information TG stored in the determination reference storage unit 18. The pass / fail judgment unit 17 extracts the judgment reference information TG corresponding to the equipment image G. The pass / fail determination unit 17 outputs the pass / fail information J associated with the extracted determination criterion information TG to the repair instruction information output unit 19 and the evaluation assigning unit 14 as pass / fail determination information. In the following description, the pass / fail determination information is also described as pass / fail YN of the state of the imaged equipment SFA.

  The repair instruction information output unit 19 acquires pass / fail determination information output by the pass / fail determination unit 17. The repair instruction information output unit 19 acquires the imaged equipment attribute information SPI from the attribute information acquisition unit 11. The repair instruction information output unit 19 outputs repair instruction information RI for instructing repair of the imaged equipment SFA based on the quality determination information determined by the quality determination unit 17. The repair instruction information RI includes imaged equipment attribute information SPI including information indicating the position of the imaged equipment SFA and information on the type of abnormality A of the imaged equipment SFA.

  The repair support device 3 acquires the repair instruction information RI from the repair instruction information output unit 19. The repair support device 3 makes a plan for repairing the imaged equipment SFA based on the repair instruction information RI acquired from the repair instruction information output unit 19.

[Outline of operation of information processing apparatus 1]
Next, an overview of the operation of the information processing apparatus 1 according to the first embodiment will be described with reference to FIG.
FIG. 5 is a flowchart S1 illustrating an example of the operation of the information processing apparatus 1 according to the first embodiment.

  The captured image acquisition unit 16 acquires the facility image G from the imaging device 2 (step S110). The captured image acquisition unit 16 outputs the facility image G acquired from the imaging device 2 to the facility position information acquisition unit 10, the photographer information acquisition unit 13, and the pass / fail determination unit 17. The facility position information acquisition unit 10 acquires the facility image G from the captured image acquisition unit 16. The facility position information acquisition unit 10 analyzes the facility image G acquired from the captured image acquisition unit 16. The facility position information acquisition unit 10 acquires the imaged facility position information SFP from the number display plate NP included in the facility image G. Alternatively, the equipment position information acquisition unit 10 acquires imaging position information GP included in the equipment image G. (Step S120). The attribute information acquisition unit 11 acquires the imaged equipment attribute information SPI from the attribute information PI stored in the attribute information storage unit 12 based on the imaged equipment position information SFP acquired by the equipment position information acquisition unit 10. Or the attribute information acquisition part 11 acquires the to-be-photographed equipment attribute information SPI from the attribute information PI memorize | stored in the attribute information storage part 12 based on the imaging position information GP which the equipment position information acquisition part 10 acquires (step). S130). The attribute information acquisition unit 11 outputs the imaged equipment attribute information SPI to the evaluation assigning unit 14 and the repair instruction information output unit 19. The photographer information acquisition unit 13 acquires the facility image G from the captured image acquisition unit 16. The imager information acquisition unit 13 acquires an imager information ID included in the facility image G acquired from the captured image acquisition unit 16. The imager information acquisition unit 13 outputs the acquired imager information ID to the evaluation assigning unit 14. The evaluation assigning unit 14 acquires the photographer information ID from the photographer information acquisition unit 13. The evaluation assigning unit 14 acquires the imaged equipment attribute information SPI from the attribute information acquiring unit 11. The evaluation assigning unit 14 acquires the cumulative evaluation V corresponding to the imager information ID acquired from the imager information acquisition unit 13 from the imager information storage unit 15. The evaluation assigning unit 14 adds the contribution degree information EV included in the acquired captured equipment attribute information SPI to the acquired cumulative evaluation V. The evaluation assigning unit 14 stores the cumulative evaluation V to which the contribution degree information EV is added in association with the acquired photographer information ID in the photographer information storage unit 15 (step S140). The quality determination unit 17 acquires the equipment image G from the captured image acquisition unit 16. The pass / fail determination unit 17 compares the facility image G acquired from the captured image acquisition unit 16 with each of the determination reference information TG stored in the determination reference storage unit 18, and thereby from among the plurality of determination reference information TG. The criterion information TG corresponding to the equipment image G is extracted. The pass / fail determination unit 17 uses the pass / fail information J associated with the determination reference information TG corresponding to the equipment image G as a result of determination of pass / fail YN of the state of the imaged equipment SFA imaged in the equipment image G ( Step S150). The pass / fail determination unit 17 outputs the determined pass / fail YN to the repair instruction information output unit 19 and the evaluation assigning unit 14. The repair instruction information output unit 19 acquires pass / fail YN from the pass / fail determination unit 17. The repair instruction information output unit 19 determines whether the acquired quality YN is “good” or “not” (step S160). The repair instruction information output unit 19 does nothing if the quality YN is “good” (step S160; YES). The repair instruction information output unit 19 acquires the imaged equipment attribute information SPI from the attribute information acquisition unit 11 when the pass / fail YN is “No” (step S160; NO). The repair instruction information output unit 19 outputs the repair instruction information RI (step S170). The information processing apparatus 1 ends the process. Note that the information processing apparatus 1 may perform any of the processing from step S120 to step S140 and the processing from step S150 to step S170 first.

[Specific Example of Operation of Information Processing Apparatus 1 according to First Embodiment]
Next, a specific example of the operation of the information processing apparatus 1 according to the first embodiment will be described.
The captured image acquisition unit 16 acquires a facility image G1 illustrated in FIG. The captured image acquisition unit 16 outputs the acquired facility image G1 to the facility position information acquisition unit 10, the photographer information acquisition unit 13, and the pass / fail determination unit 17. The facility position information acquisition unit 10 acquires the facility image G1 from the captured image acquisition unit 16. The equipment position information acquisition unit 10 analyzes the equipment image G1. The equipment location information acquisition unit 10 analyzes the equipment image G1 and acquires “A1” as the equipment location information SFP to be imaged. The facility position information acquisition unit 10 outputs “A1”, which is the acquired position information imaging facility position information SFP, to the attribute information acquisition unit 11.
The attribute information acquisition unit 11 acquires “A1” as the imaged facility position information SFP from the facility position information acquisition unit 10. The attribute information acquisition unit 11 acquires the imaged equipment attribute information SPI having the position information FAP corresponding to the imaged equipment position information SFP from the attribute information storage unit 12. Here, an example of the attribute information PI will be described with reference to FIG.
FIG. 6 is a diagram illustrating an example of the attribute information PI.

The attribute information PI is the equipment name FN indicating the name of the equipment FA, the position information FAP indicating the position of the equipment FA, the information on the installation location of the equipment FA, and the contribution used for evaluating the contribution to the imaging of the equipment FA. Information EV is information associated with each other. In this example, the installation location information included in the attribute information PI is information indicating the installation location of the facility FA, such as position information indicating latitude and longitude acquired from the GPS. The information on the installation location is not limited to position information indicating the latitude and longitude, and may be information indicating an address of the installation location or a relative position with the other facility FA.
In this example, the attribute information PI includes attribute information PI1, attribute information PI2, attribute information PI3, attribute information PI4, and attribute information PI5.

  In the attribute information PI1, “electric pole 1” as the facility name FN1, “A1” as the location information FAP1, “POS_A” as the installation location, and “20” as the contribution information EV1 are associated with each other. Information. In the attribute information PI2, “electric pole 2” as the facility name FN2, “A2” as the location information FAP2, “POS_E” as the installation location, and “20” as the contribution information EV2 are associated with each other. Information. In the attribute information PI3, “electric pole 3” as the facility name FN1, “C3” as the location information FAP3, “POS_B” as the installation location, and “100” as the contribution information EV3 are associated with each other. Information. In the attribute information PI4, “electric pole 4” as the facility name FN4, “B4” as the location information FAP4, “POS_C” as the installation location, and “80” as the contribution information EV4 are associated with each other. Information. In the attribute information PI5, “electric pole 5” as the equipment name FN5, “C5” as the location information FAP5, “POS_D” as the installation location, and “100” as the contribution information EV5 are associated with each other. Information.

In this example, the equipment location information acquisition unit 10 acquires “A1” as the equipment location information SFP to be imaged. The attribute information acquisition unit 11 uses the attribute information PI1 having the position information FAP that matches the “A1” indicated by the imaged equipment position information SFP from the attribute information PI1 to the attribute information PI4 as the imaged equipment attribute information SPI. get. The attribute information acquisition unit 11 outputs the acquired image-captured equipment attribute information SPI to the evaluation assigning unit 14.
In addition, the equipment position information acquisition unit 10 does not capture the equipment display information FP when the number display plate NP is not captured in the equipment image G, and the equipment image G Imaging position information GP indicating the captured position is output to the attribute information acquisition unit 11. In this case, the attribute information acquisition unit 11 matches the imaging position information GP from the attribute information PI1 to the attribute information PI4 based on the imaging position information GP acquired from the equipment position information acquisition unit 10, or Then, the attribute information PI having the imaging position information GP that approximates the position indicated by the imaging position information GP is acquired as the imaged equipment attribute information SPI.

The photographer information acquisition unit 13 acquires the facility image G1 from the captured image acquisition unit 16. The imager information acquisition unit 13 outputs an imager information ID included in the acquired facility image G1. In this example, the facility image G1 includes “ID_2” as the photographer information ID, as shown in FIG.
The evaluation assigning unit 14 acquires “ID_2” as the imager information ID from the imager information acquisition unit 13. The evaluation assigning unit 14 acquires the imaged equipment attribute information SPI from the attribute information acquiring unit 11. The evaluation assigning unit 14 acquires a cumulative evaluation V corresponding to the photographer information ID from the photographer information storage unit 15. Information shown in FIG. 7 is stored in the photographer information storage unit 15.
FIG. 7 is a diagram illustrating an example of the photographer information ID and the cumulative evaluation V.

  As shown in FIG. 7, in this example, the photographer information storage unit 15 stores “ID_1” as the photographer information ID and “1000” as the cumulative evaluation V in association with each other. The photographer information storage unit 15 stores “ID_2” as the photographer information ID and “40” as the cumulative evaluation V in association with each other. The photographer information storage unit 15 stores “ID — 3” as the photographer information ID and “100” as the cumulative evaluation V in association with each other. The photographer information storage unit 15 stores “ID — 4” as the photographer information ID and “700” as the cumulative evaluation V in association with each other. In the photographer information storage unit 15, “ID — 5” as the photographer information ID and “400” as the cumulative evaluation V are stored in association with each other.

  The evaluation assigning unit 14 acquires “40” that is the cumulative evaluation V corresponding to “ID_2” from the photographer information storage unit 15. The evaluation assigning unit 14 acquires “20” that is the contribution degree information EV included in the imaged equipment attribute information SPI (in this example, the attribute information PI1). The evaluation assigning unit 14 adds “40”, which is the cumulative evaluation V acquired from the photographer information storage unit 15, and “20”, which is the contribution information EV included in the imaged equipment attribute information SPI. The evaluation assigning unit 14 stores “60” as a result of the addition in the photographer information storage unit 15 as a cumulative evaluation V corresponding to the photographer information ID “ID_2”.

The quality determination unit 17 acquires the equipment image G1 from the captured image acquisition unit 16. The quality determination unit 17 compares the acquired equipment image G1 with the determination criterion information TG stored in the determination criterion storage unit 18. As described above, the determination criterion information TG includes image information in a normal state of the facility FA and a plurality of pieces of image information for each type of abnormality A. The quality determination unit 17 searches for an image similar to the facility image G1 from the image information included in the determination criterion information TG. Any means may be used for the process in which the pass / fail judgment unit 17 searches for similar images. For example, a known process may be used.
The pass / fail determination unit 17 may output “No” when an image similar to the facility image G1 cannot be searched from the image information included in the determination reference information TG. Thereby, the pass / fail determination unit 17 can detect an abnormality that is not included in the existing determination reference information TG, and can be operated safely.
In this example, the quality determination unit 17 determines that the equipment image G1 and the determination criterion information TG2 are the same abnormality. The pass / fail determination unit 17 determines the pass / fail information J, which is associated with the determination criterion information TG2, as “pass / fail” YN. The pass / fail judgment unit 17 outputs “No”.
As described above, the repair instruction information output unit 19 outputs the repair instruction information RI to the repair support device 3 when the acquired information is “NO”. In the case of this example, the repair instruction information output unit 19 outputs the repair instruction information RI to the repair support device 3 because the pass / fail information J acquired from the pass / fail determination unit 17 is “No”.

  As described above, the information processing apparatus 1 includes the captured image acquisition unit 16, the equipment position information acquisition unit 10, the attribute information acquisition unit 11, and the attribute information storage unit 12. The captured image acquisition unit 16 acquires the facility image G obtained by capturing the facility FA from the imaging device 2. The equipment location information acquisition unit 10 acquires the equipment location information SFP of the equipment FA imaged in the equipment image G. The attribute information acquisition unit 11 acquires the attribute information PI corresponding to the imaged equipment position information SFP from the attribute information storage unit 12 as the imaged equipment attribute information SPI. Thereby, the information processing apparatus 1 can acquire the imaged equipment attribute information SPI of the imaged equipment SFA that is the equipment FA imaged in the equipment image G.

  In addition, the information processing apparatus 1 includes a photographer information acquisition unit 13, an evaluation imparting unit 14, and a photographer information storage unit 15. The imager information acquisition unit 13 acquires an imager information ID indicating the imager who captured the equipment image G. The evaluation assigning unit 14 acquires the imaged equipment attribute information SPI acquired by the attribute information acquiring unit 11. The evaluation assigning unit 14 assigns contribution degree information EV to the photographer based on the acquired image-captured equipment attribute information SPI and the photographer information ID. The contribution degree information EV is accumulated and stored in the photographer information storage unit 15 as a cumulative evaluation V. Thereby, the information processing apparatus 1 can perform evaluation according to the contribution degree information EV with respect to the photographer who has captured the facility image G. The information processing apparatus 1 can increase the willingness of the imager to capture by displaying the contribution degree information EV and the cumulative evaluation V on a display unit (not shown) included in the imaging apparatus 2.

  In addition, the information processing apparatus 1 includes a quality determination unit 17, a determination criterion storage unit 18, and a repair instruction information output unit 19. The pass / fail determination unit 17 determines pass / fail YN of the state of the imaged equipment SFA based on the state of the imaged equipment SFA included in the equipment image G and the determination information BI stored in the determination reference storage unit 18. The repair instruction information output unit 19 outputs the repair instruction information RI based on the quality YN determined by the quality determination unit 17. That is, the information processing apparatus 1 can determine from the image of the facility image G whether or not the imaged facility SFA should be repaired. Further, the information processing apparatus 1 outputs the repair instruction information RI based on the result determined by the quality determination unit 17. The repair instruction information output unit 19 can output repair instruction information RI corresponding to the state of the abnormality A included in the equipment image G. Based on the repair instruction information RI, it is possible to determine the equipment necessary for repair, the number of personnel, and the like.

In the example described above, the evaluation assigning unit 14 includes the contribution degree information EV included in the imaged equipment attribute information SPI acquired from the attribute information acquiring unit 11 and the quality YN of the state of the imaged equipment SFA determined by the quality determining unit 17. Based on the above, a configuration has been described in which an evaluation according to the degree of contribution is given to the photographer as a contribution evaluation. However, in reality, the contribution degree information EV may not be set in the imaged equipment attribute information SPI. Specifically, this is the case when a general person finds out before the electric utility grasps the failure of the equipment. In this case, the evaluation assigning unit 14 may provide the contribution degree information EV to the photographer based on the determination result of the pass / fail determination unit 17. In this case, the determination criterion storage unit 18 stores the contribution information EV in association with each of the determination information BI indicating the criterion of the quality determination of the facility FA. The pass / fail determination unit 17 extracts the determination criterion information TG corresponding to the equipment image G, and further outputs the contribution information EV associated with the extracted determination criterion information TG to the evaluation assigning unit 14. That is, the pass / fail determination unit 17 outputs the contribution information EV together with the pass / fail YN of the state of the imaged equipment SFA to the evaluation assigning unit 14.
Based on the quality YN of the state of the imaged equipment SFA determined by the quality determination unit 17 and the determination criterion storage unit 18, the evaluation assigning unit 14 evaluates the photographer according to the degree of contribution as a contribution evaluation. Give. In this case, the process of adding the contribution information EV included in step S140 described above is performed after step S160; NO.

[Second Embodiment]
Next, an example of the configuration of the information processing apparatus 1a according to the second embodiment will be described with reference to FIG. In addition, about the structure and operation | movement same as 1st Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.
In the present embodiment, the facility FA includes an imaging target facility RFA in which imaging is instructed as an imaging target. The imaging target facility RFA is a facility FA that the electric power company wants to capture.
FIG. 8 is a diagram illustrating an example of the configuration of the information processing apparatus 1a according to the second embodiment.

  The information processing apparatus 1a includes a captured image acquisition unit 16, an equipment position information acquisition unit 10, an attribute information storage unit 12, an attribute information acquisition unit 11, an imager information acquisition unit 13, and an imager information storage unit 15. The evaluation provision part 14a, the determination reference | standard storage part 18, the quality determination part 17, the repair instruction information output part 19, and the imaging request information output part 20 are provided.

  The imaging request information output unit 20 outputs imaging request information S for requesting imaging of the imaging target facility RFA to the imaging device 2a. The imaging request information S is information including a request for the facility FA to be imaged by the imaging device 2a. Specifically, the imaging request information output unit 20 sets a predetermined facility FA as an imaging target facility RFA for the information processing apparatus 1a by the electric power company. The imaging request information output unit 20 outputs imaging request information S for requesting imaging of the imaging target facility RFA to the imaging device 2a. The imaging request information output unit 20 may use, as the imaging target equipment RFA, the equipment FA having a large contribution degree in the attribute information PI.

  Further, the imaging request information output unit 20 may output the imaging request information S for a range based on the position information RFP indicating the position of the imaging target facility RFA included in the attribute information RPI of the imaging target facility RFA. Specifically, the imaging request information output unit 20 outputs the imaging request information S to the imaging device 2a in the vicinity of the imaging target facility RFA. The imaging request information output unit 20 may determine whether or not to transmit the imaging request information S based on the position information of the imaging device 2a. The imaging request information output unit 20 may output the imaging request information S to the imaging device 2a connected to the public wireless LAN near the imaging target facility RFA.

  The imaging request information output unit 20 may output the imaging request information S to a designated imager selected as an imager who images the imaging target facility RFA. In this case, the designated imager operates the imaging device 2a and images the designated imaging target facility RFA.

  The imaging device 2a acquires the imaging request information S from the information processing device 1a. The imaging device 2a that has acquired the imaging request information S images the designated imaging target facility RFA based on the imaging request information S.

  The evaluation assigning unit 14a makes the evaluation variable for each equipment image G and assigns the contribution evaluation EV to the photographer. Specifically, the evaluation assigning unit 14a changes the contribution information EV stored in the attribute information storage unit 12 when the imaged facility SFA is a facility FA that has not been imaged so much in the past, It gives to. Moreover, the evaluation provision part 14a changes evaluation according to the conditions predetermined by the electric power company, and provides contribution degree information EV with respect to an imaging person.

[Outline of Operation of Information Processing Apparatus 1a]
Next, an overview of the operation of the information processing apparatus 1a according to the second embodiment will be described with reference to FIG.
FIG. 9 is a flowchart showing an example of the operation of the information processing apparatus 1a.

  The imaging request information output unit 20 outputs the imaging request information S to the imaging device 2a (Step S210). The imaging device 2a images the imaging target facility RFA requested by the imaging request information S. Thereafter, the information processing apparatus 1a performs the same processing as in the flowchart S1.

As described above, the information processing apparatus 1a includes the imaging request information output unit 20. Thereby, the information processing apparatus 1a can specify the facility FA to be imaged with respect to the imaging apparatus 2a. Further, the imaging request information output unit 20 outputs imaging request information S to the imaging device 2a in the vicinity of the imaging target facility RFA. Thereby, the information processing device 1a can output the imaging request information S to the imaging device 2a in the vicinity of the imaging target facility RFA, and can increase the probability that the imaging target facility RFA is imaged.
Moreover, since the information processing apparatus 1a can output the imaging request information S to the imaging apparatus 2a in the vicinity of the imaging target facility RFA, the facility image G in which the imaging target facility RFA is captured more quickly is acquired. be able to.
The imaging request information output unit 20 may output the imaging request information S to a designated imager selected as an imager who images the imaging target facility RFA. Thereby, the information processing apparatus 1a can acquire the equipment image G imaged from the same person rather than the equipment image G imaged from several persons, and can obtain the equipment image G of fixed quality. it can.

[Third Embodiment]
Next, an example of the configuration of the information processing apparatus 1b according to the third embodiment will be described. In addition, about the structure and operation | movement same as 1st Embodiment and 2nd Embodiment, the same code | symbol is attached | subjected and the description is abbreviate | omitted.
A class C corresponding to the assigned contribution evaluation is set for the photographer of this embodiment. Specifically, as shown in FIG. 10, the photographer information storage unit 15b stores the photographer information ID, the cumulative evaluation V, and the class C in association with each other.
FIG. 10 is a diagram illustrating an example of the class C.

  In this example, the photographer information storage unit 15b stores “ID_1” as the photographer information ID, “1000” as the cumulative evaluation V, and “A” as the class in association with each other. In the photographer information storage unit 15, “ID_2” as the photographer information ID, “40” as the cumulative evaluation V, and “F” as the class are stored in association with each other. The photographer information storage unit 15 stores “ID — 3” as the photographer information ID, “100” as the cumulative evaluation V, and “E” as the class in association with each other. The photographer information storage unit 15 stores “ID — 4” as the photographer information ID, “700” as the cumulative evaluation V, and “B” as the class in association with each other. The photographer information storage unit 15 stores “ID — 5” as the photographer information ID, “400” as the cumulative evaluation V, and “C” as the class in association with each other.

The imaging request information S includes class-specific imaging request information SC corresponding to the class C, and the imaging request information output unit 20b outputs the class-specific imaging request information SC corresponding to the class C to the imaging apparatus 2a. . The imaging request information SC for each class is information that requests imaging of the imaging target facility RFA that is more difficult than the imaging request information S corresponding to the class C. The imaging target facility RFA having a high degree of difficulty is, for example, a facility that captures a part of the imaging target facility RFA or is in a position where it is difficult to find the imaging target facility RFA that is an imaging target. More specifically, the imaging target facility RFA is a minute crack existing at the base of the utility pole. The imaging target facility RFA is one in which one of the components of the utility pole is designated.
The imaging device 2a acquires the class-specific imaging request information SC from the imaging request information output unit 20b. The imaging device 2a images the imaging target facility RFA indicated by the class-specific imaging request information SC.

  As described above, the information processing apparatus 1b includes the photographer information storage unit 15b and the imaging request information output unit 20b. The imaging request information output unit 20b outputs class-specific imaging request information SC corresponding to the class C to the imaging apparatus 2a. Thereby, the imager who operates the imaging device 2a can image the imaging target facility RFA having a difficulty level corresponding to the class C. By providing the class C, the information processing apparatus 1b can keep the photographer's willingness to image the facility FA.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and appropriate modifications may be made without departing from the spirit of the present invention. it can.

  The information processing apparatus 1, the information processing apparatus 1a, and the information processing apparatus 1b described above have a computer inside. Each process of the above-described apparatus is stored in a computer-readable recording medium in the form of a program, and the above-described process is performed by the computer reading and executing the program. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.

  The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, what is called a difference file (difference program) may be sufficient.

  DESCRIPTION OF SYMBOLS 1, 1a, 1b ... Information processing apparatus, 2, 2a ... Imaging device, 3 ... Repair support device, 10 ... Equipment position information acquisition part, 11 ... Attribute information acquisition part, 12 ... Attribute information storage part, 13 ... Photographer information Acquiring unit 14, 14a ... Evaluation imparting unit 15, 15b ... Photographer information storage unit, 16 ... Captured image acquisition unit, 17 ... Pass / fail judgment unit, 18 ... Judgment criterion storage unit, 19 ... Repair instruction information output unit, 20 , 20b ... Imaging request information output unit

Claims (10)

An equipment image in which equipment is imaged by an imaging device;
An equipment position information acquisition unit that acquires imaged equipment position information indicating the position of the equipment to be imaged that is an equipment imaged in the equipment image among a plurality of equipment;
Attribute information in which position information indicating the position of the equipment is associated with contribution information given in advance regardless of the result of capturing the equipment image as information used for evaluating the contribution to the imaging of the equipment existing at the position From the attribute information storage unit that is stored for each facility position, based on the imaged facility position information acquired by the facility position information acquisition unit, out of the attribute information for a plurality of facilities, An attribute information acquisition unit for acquiring the attribute information;
An imager information acquisition unit for acquiring imager information indicating an imager who has captured the facility image by the imaging device;
Based on the photographer information acquired by the imager information acquisition unit and the contribution information included in the attribute information acquired by the attribute information acquisition unit, the degree of contribution to the imager is determined. An evaluation granting unit for giving an evaluation as a contribution evaluation,
A pass / fail judgment unit that judges pass / fail of the state of the imaged equipment, based on the state of the imaged equipment indicated by the equipment image, and determination criterion information indicating a criterion for pass / fail judgment of the equipment,
Based on the quality determined by the quality determination unit, a repair instruction information output unit that outputs repair instruction information for instructing repair of the imaged equipment,
An information processing apparatus comprising: The evaluation granting unit
The information processing apparatus according to claim 1, wherein the evaluation is made variable for each facility image and the contribution evaluation is given. The evaluation granting unit
The information processing apparatus according to claim 2, wherein the evaluation is made variable for each facility image based on an imaging history of the facility, and the contribution evaluation is given. The equipment includes the imaging target equipment for which imaging is instructed as the imaging target,
The information processing apparatus according to claim 1, further comprising: an imaging request information output unit that outputs imaging request information that requests imaging of the imaging target facility. The imaging request information output unit is
The information processing apparatus according to claim 4, wherein the imaging request information is output for a range based on position information indicating a position of the imaging target equipment included in the attribute information of the imaging target equipment. The imaging request information output unit is
The information processing apparatus according to claim 5, wherein the imaging request information is output to the imaging apparatus that is within a predetermined distance range from the position of the imaging target facility among the plurality of imaging apparatuses. The imaging request information output unit is
The information processing apparatus according to any one of claims 4 to 6, wherein the imaging request information is output to a designated photographer selected as an imager who images the imaging target facility. The photographer is set a class according to the given contribution evaluation,
The imaging request information includes class-specific imaging request information corresponding to the class,
The imaging request information output unit is
The information processing apparatus according to any one of claims 4 to 7, wherein imaging information for each class corresponding to the class is output. The imaging request information output unit is
9. The imaging request information is output using, as the imaging target equipment, the equipment having a large degree of imaging contribution indicated by the contribution information included in the attribute information among the equipment. The information processing apparatus according to item. The information processing apparatus according to any one of claims 1 to 9, wherein a degree of contribution by imaging is determined for each facility in the contribution information according to an installation environment of the facility.

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