JP2018036921A - Guide light evaluation program, guide light evaluation device and guide light evaluation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a guide light evaluation program, a guide light evaluation device and a guide light evaluation system which allow an inspection result to be easily checked.SOLUTION: The guide light evaluation program causes an image acquisition procedure for acquiring image data of an imaged guide light, an operation procedure for computing information on the luminance of the imaged guide light on the basis of the image data of the imaged guide light and a display control procedure for controlling to display the acquired image data of the guide light and evaluation image data in which the computed information on the luminance of the guide light is superposed on the image data of the guide light to be executed.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a guide light evaluation program, a guide light evaluation device, and a guide light evaluation system.

  For guide lights indicating the location of emergency exits, evacuation routes, etc., conditions such as brightness and chromaticity are defined by laws and regulations, and it is obliged to regularly check whether the conditions are met.

  When the guide light is checked regularly, the burden on the manager who checks the guide light increases. Therefore, a guide light evaluation system that can easily evaluate the luminance value or chromaticity of an object to be measured using image processing is known.

JP 2001-283192 A

  However, the above technique has a problem that it is not easy to check the inspection result.

  The problem to be solved by the present invention is to provide a guide light evaluation program, a guide light evaluation device, and a guide light evaluation system that can easily check an inspection result.

  The guide light evaluation program according to the embodiment calculates information on the brightness of the captured guide light based on an image acquisition procedure for acquiring image data of the captured guide light and the acquired image data of the guide light. A calculation procedure, and a display control procedure for controlling to display the acquired image data of the guide light and evaluation image data in which the calculated information on the brightness of the guide light is superimposed on the image data of the guide light. Let it run.

FIG. 1 is a diagram illustrating an example of an implementation result according to the embodiment. FIG. 2 is a diagram illustrating an example of the guide light evaluation system according to the embodiment. Drawing 3 is a figure showing an example of a guide light which has a white issuer concerning an embodiment. FIG. 4 is a diagram illustrating an example of evaluation results collected by the server according to the embodiment. FIG. 5 is a flowchart for explaining an example of processing of the guide light evaluation device according to the embodiment.

  Hereinafter, a guide light evaluation program according to an embodiment will be described with reference to the drawings. In the embodiment, configurations having the same functions are denoted by the same reference numerals, and redundant description is omitted. In addition, the guide light evaluation program demonstrated by the following embodiment shows only an example, and does not limit embodiment. For example, in the following embodiment, the guide light evaluation program can be applied to the evaluation of an arbitrary lighting device or the like in addition to the guide light. The following embodiments may be appropriately combined within a consistent range.

  The guide light evaluation program according to the embodiment described below is based on an image acquisition procedure for acquiring image data of a captured guide light 300 and the acquired image data of the guide light 300. The calculation procedure for calculating the information on the brightness of the guide light, the acquired image data of the guide light 300, and the evaluation image data in which the calculated information on the brightness of the guide light 300 is superimposed on the image data of the guide light 300 are displayed. And a display control procedure for performing control.

  In addition, the guide light evaluation program according to the embodiment further executes a transmission procedure for transmitting information regarding the calculated brightness of the guide light 300 to an external server.

  In addition, the calculation procedure of the guide light evaluation program according to the embodiment calibrates the brightness of the captured guide light 300 using the brightness calibration data.

  In addition, the image acquisition procedure of the guide light evaluation program according to the embodiment acquires image data of the guide light 300 including image data obtained by photographing an object that emits light of a predetermined luminance, and the calculation procedure is taken. Control is performed to calibrate information relating to the brightness of the image data using the brightness of the object.

  Moreover, the guide light evaluation program according to the embodiment further executes a state acquisition procedure for acquiring information on the state of the guide light 300 from the guide light 300 by wireless communication.

  Moreover, the display control procedure of the guide light evaluation program according to the embodiment controls to display evaluation image data including information on the acquired state of the guide light 300, and the transmission procedure of the guide light 300 is acquired. Send status information to an external server.

  In addition, the display control procedure of the guide light evaluation program according to the embodiment includes the brightness image of the guide light 300, the image that clearly indicates the position of the maximum brightness of the guide light 300, the image that clearly indicates the position of the minimum brightness of the guide light 300, and the guide An image clearly indicating that the brightness contrast of the lamp 300 is lower than the predetermined brightness contrast, an image clearly indicating that the average brightness of the guide light 300 is lower than the predetermined average brightness, and the chromaticity range of the guide light 300 Control to display evaluation image data including at least one of an image clearly indicating that the lamp is out of the predetermined chromaticity range and an image clearly indicating that the guide light 300 is in the replacement period To do.

  In addition, the acquisition procedure of the guide light evaluation program according to the embodiment includes the first image data of the guide light 300 captured in a state where the guide light 300 is battery-powered, and the second procedure of the guide light 300 at a different time. The calculation procedure specifies the state of the guide light 300 by comparing the difference in luminance between the acquired first image of the guide light 300 and the second image of the guide light 300. .

  In addition, the guide light evaluation device 100 according to the embodiment captures the imaged guide light 300 based on the image acquisition unit 131 that acquires image data of the captured guide light 300 and the acquired image data of the guide light 300. The calculation unit 132 that calculates information on the brightness of the guide light 300, the acquired image data of the guide light 300, and evaluation image data in which the calculated information on the brightness of the guide light 300 is superimposed and displayed on the image data of the guide light 300. A display control unit 135 configured to control the display.

  The guide light evaluation system according to the embodiment includes a terminal (for example, the guide light evaluation device 100) and the server 200. The guide light evaluation system calculates information related to the brightness of the captured guide light 300 based on the image acquisition unit 131 that acquires image data of the captured guide light 300 and the acquired image data of the guide light 300. Display that controls the calculation unit 132 to display the acquired image data of the guide lamp 300 and evaluation image data in which the calculated information about the brightness of the guide lamp 300 is superimposed on the image data of the guide lamp 300. The control unit 135, a transmission unit (for example, the communication unit 110) that transmits information related to the calculated brightness of the guide light 300, and a reception unit (for example, the communication unit 210) that receives information about the transmitted brightness of the guide light 300. And an issuing unit (for example, the control unit 230) that issues a code corresponding to the received information on the luminance of the guide light 300.

[Embodiment]
Embodiments of a guide light evaluation program according to the present invention will be described below in detail with reference to the drawings.

  FIG. 1 is a diagram illustrating an example of an implementation result according to the embodiment. In a present Example, the case where a smart phone is used as the guide light evaluation apparatus 100, for example is demonstrated.

  First, as shown to (a) of FIG. 1, the guide light evaluation apparatus 100 acquires the image data which image | photographed the guide light 300, and displays it on a display part. Next, as shown in FIG. 1B, the guide light evaluation device 100 converts the acquired photographic image into a luminance image. Then, as shown in FIG. 1C, the guide light evaluation device 100 superimposes an evaluation result (hereinafter sometimes simply referred to as “evaluation result”) in an inspection on the guide light 300 on the image data. The displayed report is displayed on the display unit. For example, as shown in FIG. 1, the report displays the problematic part and the content of the problem in characters, such as “Luminance at 1, 2 and 3 is low”.

  As shown in FIG. 1, the guide light evaluation apparatus 100 evaluates the brightness of the guide light 300 using image data obtained by photographing the guide light 300, and displays a report on which the evaluation result and the image data are superimposed on the display unit. Display.

  In addition to the average brightness of the display surface of the guide light 300, the evaluation items of the guide light 300 include the brightness ratio between the maximum brightness value and the minimum brightness value in the green region and the white region of the display surface, and the adjacent green region. There is a luminance contrast between the white area and the chromaticity of the green area of the display surface. Therefore, in the following embodiment, the guide light evaluation device 100 calculates luminance information and color information in each part of the display surface of the guide light 300 from the image data of the taken guide light 300.

  Note that standards such as class A and class B are defined for the guide light, and the guide light evaluation apparatus 100 sets the standard of the guide light 300 when photographing the guide light 300. For example, the guide light evaluation apparatus 100 calculates the image pattern of the guide light 300 and specifies the standard of the guide light 300 using a known pattern recognition technique, but is not limited thereto. .

[Example of configuration of guide light evaluation system]
FIG. 2 is a diagram illustrating an example of the guide light evaluation system according to the embodiment. With reference to FIG. 2, an example of the guide light evaluation system 1000 including the guide light evaluation apparatus 100 according to the embodiment will be described. A guide light evaluation system 1000 according to the embodiment illustrated in FIG. 1 includes a guide light evaluation device 100 and a server 200. The guide light evaluation device 100 and the server 200 are connected through a network N so that they can communicate with each other. Moreover, the guide light evaluation system 1000 according to the embodiment illustrated in FIG. 1 is an example, and for example, a plurality of guide light evaluation apparatuses 100 or a plurality of servers 200 may be provided.

  The guide light evaluation device 100 is a device such as a smartphone, for example, and evaluates the guide light 300 using image data obtained by photographing the guide light 300 and outputs an evaluation result. Further, the server 200 described later is connected by, for example, a mobile communication line or a wireless LAN, and the evaluation result is transmitted to the server 200. The guide light evaluation device 100 is an example of a terminal.

  The server 200 is an information processing apparatus such as a computer, for example, and receives and stores the evaluation result from the guide light evaluation apparatus 100.

[Example of configuration of guide light evaluation device]
With reference to FIG. 2, the structure of the guide light evaluation apparatus 100 is demonstrated. The guide light evaluation device 100 includes a communication unit 110, a storage unit 120, and a control unit 130.

  The communication unit 110 is a network device for performing wireless communication processing. Specifically, the communication unit 110 transmits and receives various types of information through wireless communication with the server 200 illustrated in FIG. For example, the communication unit 110 transmits the evaluation result output from the control unit 130 to the server 200. The communication unit 110 is an example of a transmission unit.

  The storage unit 120 is realized by, for example, a semiconductor memory device such as a RAM (Random Access Memory) or a flash memory, or a storage device such as a hard disk or an optical disk. The storage unit 120 stores, for example, a threshold value used for processing of the control unit 130 and calibration data described later.

  The control unit 130 is realized by an integrated circuit such as an application specific integrated circuit (ASIC) or a field programmable gate array (FPGA). In addition, the control unit 130 is realized, for example, by a program stored in an internal storage device being executed using the RAM as a work area by a CPU (Central Processing Unit), an MPU (Micro Processing Unit), or the like. The control unit 130 includes an image acquisition unit 131, a calculation unit 132, an information acquisition unit 133, a determination unit 134, and a display control unit 135.

  The image acquisition unit 131 acquires image data obtained by photographing the guide lamp 300. The image acquisition unit 131 acquires, for example, image data of a photograph of the guide light 300 taken by a camera (not shown) included in the guide light evaluation device 100. Note that the image acquisition unit 131 cancels a function such as auto gain control that the camera of the guide light evaluation device 100 has or sets a predetermined photographing mode.

The average brightness and the average brightness contrast of the guide light 300 are defined in “Technical standards for guide light fixtures and evacuation guide systems” (JIL5502: 2008) defined by the Japan Lighting Industry Association. For example, the standard of the average brightness of the guide lamp 300 is 65 to 1000 cd / m ² . The image acquisition unit 131 only needs to be able to acquire an image whose luminance can be detected in a predetermined range of 65 to 1000 cd / m ² , but is not limited to this, and has a configuration that acquires a luminance in a wider range. There may be.

  The calculation unit 132 calculates luminance information using the image data acquired by the image acquisition unit 131. For example, the calculation unit 132 calculates the luminance information of the acquired image data, and outputs the luminance information of the image data to the determination unit 134.

  In addition, the image data acquired by the image acquisition unit 131 differs depending on the performance of the camera included in the guide light evaluation device 100. Therefore, when the guide light 300 having the same luminance is captured by different guide light evaluation devices 100, the image data is acquired. The luminance information obtained from the obtained image data may be different. Therefore, the calculation unit 132 calibrates the luminance information of the image data.

  For example, the calculation unit 132 calibrates the luminance information of the image data using the calibration data that is stored in the storage unit 120 and that is set according to the model of the smartphone that operates as the guide light evaluation device 100. Not limited. For example, the calculation unit 132 may calibrate the luminance information using a calibration point included in the image data and having a constant white luminance. Note that the calibration point included in the image data is, for example, a white calibration plate installed in the vicinity of the guide light 300, but is not limited to this, and the guide light 300 itself has a white light emitter serving as a calibration point. It may be realized.

Drawing 3 is a figure showing an example of a guide light which has a white issuer concerning an embodiment. A guide lamp 300 shown in FIG. 3 includes a cover 1100 attached to be openable and closable and a white LED 1200 having an initial illuminance correction function. The white LED 1200 emits white light having a luminance of, for example, 100 cd / m ² . The image acquisition unit 131 acquires image data of the guide lamp 300 in a state where the cover 1100 of the guide lamp 300 is opened and the white LED 1200 is lit. The computing unit 132 calibrates the luminance information of the image data using the luminance information of the white LED 1200 included in the acquired image data.

  The information acquisition unit 133 acquires information related to the guide lamp 300 that is an evaluation target. For example, the information acquisition unit 133 transmits information on the standard of the guide light 300, information on the state of the guide light 300, such as the lighting time of the guide light 300 and the remaining battery level, which the guide light 300 transmits by wireless communication means such as visible light communication. Received and output to the determination unit 134 and the communication unit 110.

  The information acquired by the information acquisition unit 133 is not limited to this, and information regarding the position where the guide light 300 is installed may be acquired. Further, the method of acquiring information by the information acquisition unit 133 is not limited to the method of receiving the information transmitted by the guide light 300, but a method of reading a QR code (registered trademark) or the like attached to the guide light 300, or the server 200 For example, information may be acquired by a method of receiving from a device other than the guide light 300.

  The determination unit 134 determines whether or not the luminance of the display surface of the guide light 300 satisfies a predetermined condition. The determination unit 134 uses the luminance information output from the calculation unit 132, and for each part of the display surface of the guide light 300, the average luminance, the luminance ratio, the luminance contrast, the chromaticity, and the like are stored in the storage unit 120. It is determined whether or not it is equal to or greater than the threshold value.

  For example, the determination unit 134 divides the display surface of the guide light 300 into an upper part, a middle part, a lower part, a left side, a center, a right side, and the like using information on the standard of the guide light 300 that has received an output from the information acquisition unit 133 Then, each part is determined as a measurement point. The determination unit 134 outputs determination results such as average luminance, luminance ratio, luminance contrast, and chromaticity to the display control unit 135 and the communication unit 110.

  Note that the determination unit 134 may be realized so that, for example, when the image data has overexposure, or when the criterion is not satisfied with only a very narrow range (such as one pixel) of the image data, that portion is ignored. .

  The display control unit 135 displays an image of the image data obtained by photographing the guide lamp 300 and an image in which the evaluation result is superimposed on the image data. The display control unit 135 causes the display unit of the guide light evaluation apparatus 100 to display an image on which the evaluation result is superimposed, for example, as illustrated in FIG.

  Note that the display control unit 135 guides the imaging area of the guide light 300 using information related to the standard of the guide light 300 when an evaluator using the guide light evaluation device 100 captures the guide light 300. The support image may be displayed on the display unit of the guide light evaluation device 100.

[Example of server configuration]
Next, the configuration of the server 200 will be described. The server 200 includes a communication unit 210, a storage unit 220, and a control unit 230.

  The communication unit 210 is a network device for performing wired or wireless communication processing. Specifically, the communication unit 210 transmits / receives various information to / from the guide light evaluation device 100 through the network N. For example, the communication unit 210 transmits an inspection code issued by the control unit 230 described later to the guide lamp evaluation device 100. The communication unit 210 is an example of a receiving unit.

  The storage unit 220 is realized by, for example, a semiconductor memory element such as a RAM or a flash memory, or a storage device such as a hard disk or an optical disk. For example, the storage unit 220 stores information used for processing of the control unit 230. Further, the storage unit 220 stores the evaluation results collected from the guide light evaluation device 100.

  FIG. 4 is a diagram illustrating an example of evaluation results collected by the server according to the embodiment. For example, as illustrated in FIG. 4, the storage unit 220 includes an “inspection code” that identifies the identification information and the installation location of the guide light 300 in association with each other, an “inspection date” when the guide light 300 is inspected, and The “inspection result” and the “operation start date” of the guide light 300 are stored in association with each other.

  The control unit 230 is realized by an integrated circuit such as an ASIC or FPGA, for example. The control unit 130 is realized by, for example, a CPU or MPU executing a program stored in an internal storage device using the RAM as a work area.

  The control unit 230 stores the evaluation result received from the guide light evaluation device 100 through the communication unit 210 in the storage unit 220. In addition, the control unit 230 outputs an evaluation result stored in the storage unit 220 in response to a request from the user of the server 200. The control unit 230 is an example of an issuing unit.

[Processing procedure of guide light evaluation device]
With reference to FIG. 5, an example of the flow of processing in the guide light evaluation apparatus 100 will be described. FIG. 5 is a flowchart for explaining an example of processing of the guide light evaluation device according to the embodiment.

  As shown in FIG. 5, first, the image acquisition unit 131 of the guide light evaluation device 100 determines whether or not there is a calibration point within a range to be imaged (step S101).

  As a result, when it is determined that there is a calibration point (Yes in step S101), the image acquisition unit 131 acquires image data obtained by capturing the display surface of the guide light 300 and the calibration point (step S111). The computing unit 132 calibrates the luminance information of the image data using the luminance information of the calibration point included in the captured image data (step S112).

  If the image acquisition unit 131 determines that there is no calibration point (No at Step S101), the image acquisition unit 131 acquires image data obtained by photographing the display surface of the guide light 300 (Step S121). Further, the calculation unit 132 acquires calibration data from the storage unit 120 (step S122), and calibrates luminance information of the image data using the acquired calibration data (step S123).

  Next, the display control unit 135 displays the calibrated image data on the display unit (step S131). Next, the calculation unit 132 specifies a measurement target portion included in the image data (step S132), and converts the image of the specified measurement target portion into a luminance image (step S133).

  Next, the determination unit 134 determines whether or not the measurement point of the converted luminance image corresponds to the item requiring inspection (step S135). As a result, when it is determined that the measurement point does not correspond to the item requiring inspection (No at Step S135), the process proceeds to Step S142.

  When the determination unit 134 determines that the measurement point corresponds to the item requiring inspection (Yes at Step S135), the determination unit 134 clearly indicates “x” at the measurement point (Step S141).

  Next, the determination unit 134 determines whether or not the determination has been completed for all measurement points included in the measurement target portion (step S142). If the determination has not been completed for all measurement points (No at Step S142), the process returns to Step S135 and is repeated.

  When the determination is completed for all measurement points (Yes at Step S142), the display control unit 135 displays the determination result on the display unit (Step S143). In addition, the communication unit 110 transmits data including image data and a determination result to the server 200 (step S144).

  In this way, the guide light evaluation device 100 relates to the brightness of the captured guide light 300 based on the image acquisition procedure for acquiring image data of the captured guide light 300 and the acquired image data of the guide light 300. A calculation procedure for calculating information, the acquired image data of the guide light 300, and evaluation image data obtained by superimposing the calculated information on the brightness of the guide light 300 on the image data of the guide light 300 are displayed. The display control procedure to be controlled is executed.

[Other Embodiments]
In the above-described embodiment, each functional block of the guide light evaluation system 1000 may be implemented by any device. For example, some of the functional blocks of the guide light evaluation apparatus 100 may be mounted on the server 200, and some of the functional blocks of the server 200 may be mounted on the guide light evaluation apparatus 100. Moreover, you may implement | achieve so that one computer may have the functional block of the guide light evaluation apparatus 100, and the functional block of the server 200 together.

  Moreover, the information which the guide light evaluation apparatus 100 transmits to the server 200 is not limited to the image data of the guide light 300 and the evaluation result. For example, the guide light evaluation apparatus 100 may be configured to identify position information using a GPS (Global Positioning System) function, a geomagnetic sensor, or the like and transmit the position information to the server. In addition, the guide light evaluation device 100 may further transmit the installation position of the guide light 300 in the building, the identification information of the captured guide light 300, and the like to the server 200. Further, the guide light evaluation device 100 may transmit image data including position information, a time stamp, evaluator information, and the like to the server 200, such as an Exif format image file. Further, the server 200 may store the received image data and various types of information stored in the storage unit 220 in association with each other.

  In addition, the guide light evaluation device 100 transmits the image data and the evaluation result to the server 200 every time the evaluation result of the guide light 300 is acquired, for example, but is not limited thereto. For example, the guide light evaluation device 100 may be configured to transmit the acquired image data and evaluation results to the server 200 at a time when the evaluation results of the plurality of guide lights 300 in one building are acquired. Good.

  In the above-described embodiment, the evaluation result screen has been described in which the brightness calculated from the image data is lower than the predetermined brightness, but the present invention is not limited to this. For example, the display control unit 135 may be configured to display the position of the maximum luminance or the position of the minimum luminance on the display surface of the guide light 300. Further, the display control unit 135 clearly indicates that the brightness contrast calculated from the image data is lower than the predetermined brightness contrast on the display surface of the guide light 300, or the chromaticity calculated from the image data is predetermined. It may be realized to clearly indicate that it is out of the chromaticity range.

  Note that the process for setting the standard of the guide light 300 is not limited to the above-described process. For example, a configuration in which a pull-down menu is displayed on the display unit of the guide light evaluation apparatus 100 to accept selection by the evaluator, This can be realized by a configuration that reads the attached QR code. Further, the guide lamp 300 transmits information on the standard of the guide lamp 300 by wireless communication means such as visible light communication, and the information acquisition unit 133 receives the information on the standard of the guide lamp 300, whereby the guide lamp evaluation device It may be realized that 100 specifies the standard of the guide light 300.

  In addition, when the guide light evaluation device 100 starts a guide light evaluation program, when the request light is transmitted to the server 200 and ACK is received from the server 200, the image data of the guide light 300 is acquired and the evaluation result is obtained. You may implement | achieve outputting.

  Further, the server 200 uses the collected information on the state of the guide light 300 to show the tendency of the state of the guide light 300 in units of areas, such as early replacement time of the guide light 300 installed at a specific position. You may analyze and use for the product development of the new guide light 300. FIG. Further, the server 200 may extract the guide light 300 at the time of replacement to generate recommendation information of the replacement device, or calculate a work reward associated with the evaluation of the guide light 300.

  Furthermore, the configuration for calculating the luminance information using the image data is not limited to that described above, and the guide light evaluation device 100 can calculate the brightness of the guide light 300 from the illuminance around the guide light 300 measured using a known illuminance meter. You may implement | achieve so that a brightness | luminance may be estimated.

  In the above-described embodiment, the case where one piece of image data of the guide lamp 300 is acquired and the guide lamp 300 is evaluated has been described. However, the present invention is not limited to this. A plurality of images may be acquired and the guide light 300 may be evaluated.

  For example, if the inspection item of the guide light 300 is switched to the battery drive state in an emergency, the average luminance or the like may satisfy a predetermined condition even after a predetermined time has elapsed. Therefore, in the following, a description will be given of a case where a plurality of image data taken at different time points are acquired and the guide light 300 is evaluated.

  First, the image acquisition unit 131 acquires first image data obtained by photographing the guide lamp 300 that has been switched to the battery-powered state. Moreover, the image acquisition part 131 acquires the 2nd image data which image | photographed the guide light 300 switched to the battery drive state, after predetermined | prescribed time passed after acquisition of 1st image data. The predetermined time is, for example, 20 minutes determined by the standard, but is not limited to this, and may be a shorter time. After switching to the battery driving state, the light source is turned on by the battery, so that when the battery is deteriorated, the time change of the average luminance is accelerated. For this reason, even if the time from the acquisition of the first image data to the acquisition of the second image data, that is, the predetermined time is shorter than 20 minutes, for example, the first image data and the second image data Alternatively, the average brightness after 20 minutes from the battery driving may be estimated from the difference in the average brightness of the image data to determine whether or not a predetermined condition is satisfied. The number of image data to be acquired is not limited to this, and the third image data may be further acquired. Thereby, it is possible to more accurately determine the temporal change in the average luminance of the light source in the battery drive state.

  The computing unit 132 calculates luminance information for each of the first image data and the second image data.

  The determination unit 134 determines whether or not each of the luminance information and the like of the first image data and the luminance information and the like of the second image data is equal to or greater than a predetermined threshold value.

  Further, when displaying the evaluation result, the display control unit 135 displays an image in which the evaluation result is superimposed on the second image in addition to the image in which the evaluation result is superimposed on the first image.

  As described above, the guide light evaluation device 100 captures the first image data of the guide light 300 and the second image data of the guide light 300 taken at different points in time when the guide light 300 is battery-driven. And the calculation procedure identifies the state of the guide light 300 by comparing the difference in luminance between the acquired first image of the guide light 300 and the second image of the guide light 300.

  Further, when the guide light evaluation device 100 captures the guide light 300, luminance information obtained from the captured image may change due to disturbance factors such as sunlight and ambient lighting. Therefore, the guide light evaluation device 100 may be configured to take a plurality of images of the guide light 300 from different angles and calculate the luminance information of the guide light 300 using the plurality of images.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 100 Guide light evaluation apparatus 110 Communication part 120 Storage part 130 Control part 131 Image acquisition part 132 Calculation part 133 Information acquisition part 134 Determination part 135 Display control part 200 Server 210 Communication part 220 Storage part 230 Control part 1000 Guide light evaluation system N network

Claims (9)

An image acquisition procedure for acquiring image data of the captured guide light;
A calculation procedure for calculating information on the luminance of the captured guide light based on the acquired image data of the guide light;
A display control procedure for controlling to display the obtained image data of the guide light and evaluation image data in which the calculated information on the brightness of the guide light is superimposed and displayed on the image data of the guide light;
Guide light evaluation program to execute   The guide light evaluation program according to claim 1, further causing a transmission procedure of transmitting information on the calculated brightness of the guide light to an external server.   The guide light evaluation program according to claim 1, wherein the calculation procedure calibrates the brightness of the photographed guide light using brightness calibration data. The image acquisition procedure includes acquiring image data of the guide light including image data obtained by photographing an object that emits light of a predetermined brightness.
The guide light evaluation program according to claim 1 or 2, wherein the calculation procedure is controlled so as to calibrate information relating to luminance of the image data using luminance of the photographed object. Further executing a state acquisition procedure for acquiring information on the state of the guide light from the guide light by wireless communication,
The display control procedure controls to display evaluation image data including information on the acquired state of the guide light,
The guide light evaluation program according to claim 2, wherein the transmission procedure transmits information on the acquired state of the guide light to the external server.   The display control procedure includes: a brightness image of the guide light; an image clearly indicating a position of the maximum brightness of the guide light; an image clearly indicating a position of the minimum brightness of the guide light; and a brightness contrast of the guide light being a predetermined brightness contrast. An image clearly indicating that the lower is lower than the character, an image clearly indicating that the average brightness of the guide light is lower than the predetermined average brightness, and the chromaticity range of the guide light is out of the predetermined chromaticity range 6. The control according to claim 1, wherein the evaluation image data including at least one of the image clearly indicating that the guide lamp is in a replacement period and the image indicating that the guide light is in exchange is displayed. Guide light evaluation program as described in one. The obtaining procedure obtains the first image data of the guide light and the second image data of the guide light taken at different time points, which are taken in a state where the guide light is battery-powered,
The said calculation procedure specifies the state of the said guide light by comparing the brightness | luminance difference of the acquired 1st image of the said guide light, and the 2nd image of the said guide light. The guide light evaluation program according to any one of the above. An image acquisition unit for acquiring image data of the taken guide light;
A calculation unit that calculates information on the brightness of the captured guide light based on the acquired image data of the guide light;
A display control unit that controls to display the acquired image data of the guide light and evaluation image data in which the calculated information on the brightness of the guide light is superimposed and displayed on the image data of the guide light;
A guide light evaluation apparatus comprising: An image acquisition unit for acquiring image data of the taken guide light;
A calculation unit that calculates information on the brightness of the captured guide light based on the acquired image data of the guide light;
A display control unit that controls to display the acquired image data of the guide light and evaluation image data in which the calculated information on the brightness of the guide light is superimposed and displayed on the image data of the guide light;
A transmission unit for transmitting information on the calculated brightness of the guide light;
A receiving unit for receiving transmitted information on the brightness of the guide light;
An issuing unit for issuing a code corresponding to the received information on the brightness of the guide light;
A guide light evaluation system including a terminal and a server.