JP2021039484A - Measuring apparatus management system - Google Patents

Abstract

To provide a measuring apparatus management system that can present a location of each individual of measuring apparatuses in real time.SOLUTION: A measuring apparatus management system includes: a position information acquisition unit that sequentially acquires a position of a measuring apparatus; and a map creation unit that creates a map showing the position of the measuring apparatus based on position information acquired by the position information acquisition unit. In the measuring apparatus management system, the position information acquisition unit may include: a motion analysis unit that analyzes a motion of an operator; and a tracking unit that tracks the position of the measuring apparatus based on an analysis result of the motion analysis unit.SELECTED DRAWING: Figure 1

Description

The present invention relates to a measuring instrument management system capable of presenting the location of a handheld measuring instrument.

Handheld measuring devices such as calipers and micrometer that are held by the operator for measurement have the advantage of being highly portable and capable of measuring even in a narrow space. Here, Patent Document 1 discloses a caliper with a square that can measure a length and a squareness with one measuring instrument. In this caliper with a square, since the caliper and the square are integrated, the trouble of exchanging the caliper and the square is omitted for the measurement of the flange material bent at a right angle, and one of the measuring instruments is not lost.

Jikkenhei 05-030704 Gazette

In a measuring device that is highly portable and has a fixed place of use, such as a handheld measuring device, the target device is not always in the same place. For example, when you want to use a device, it often happens that you can't find it right away. In particular, when one measuring device is shared and used by a plurality of workers, it may not be returned to the designated place after use, and it may not be known where it will be when it is used next time.

An object of the present invention is to provide a measuring device management system capable of presenting the location of each individual measuring device in real time.

One aspect of the present invention includes a position information acquisition unit that sequentially acquires the position of the measuring device, a map creation unit that creates a map showing the position of the measuring device based on the position information acquired by the position information acquisition unit, and the like. It is a measuring device management system equipped with.

According to such a configuration, the current position of the measuring device is sequentially acquired by the position information acquisition unit, and the acquired position is displayed as a map by the map creation unit. The location can be presented in real time.

In the measurement device management system, the position information acquisition unit may include a motion analysis unit that analyzes the motion of the operator and a tracking unit that tracks the position of the measurement device based on the analysis result of the motion analysis unit. .. As a result, the position of the measuring device can be tracked based on the analysis result of the movement of the operator, and the location of the measuring device can be grasped.

The measuring device management system may further include a map display unit that displays a map created by the map creation unit. As a result, the location of the measuring device can be presented by a map display.

In the above-mentioned measuring device management system, the map display unit has a display capable of displaying augmented reality, and the map display unit is the position of the measuring device as augmented reality superimposed on the real space based on the map created by the map creation unit. Information indicating the above may be displayed on the display. As a result, information indicating the position of the measuring device is displayed as augmented reality in the real space displayed on the display, and it becomes easy to grasp the location position of the measuring device.

The measuring device management system may further include a usage status determination unit that determines whether or not the measuring device is in use based on the change in the position information acquired by the position information acquisition unit. As a result, the usage status determination unit can determine whether or not the measuring device is in use based on the change in the position information acquired by the position information acquisition unit.

It is a block diagram which illustrates the structure of the measuring device management system which concerns on this embodiment. It is a schematic diagram which shows the specific example of the measuring device management system which concerns on this embodiment. It is a figure which shows an example of a map display. It is a block diagram which illustrates the structure of the other measuring device management system which concerns on this embodiment. (A) and (b) are diagrams showing a display example of a usage status. It is a figure which shows the other display example.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same members are designated by the same reference numerals, and the description of the members once described will be omitted as appropriate.

[Measuring equipment management system configuration]
FIG. 1 is a block diagram illustrating the configuration of the measuring device management system according to the present embodiment.
FIG. 2 is a schematic diagram showing a specific example of the measuring device management system according to the present embodiment.
As shown in FIGS. 1 and 2, the measuring device management system 1 according to the present embodiment is a system that manages the position of the measuring device 100 having excellent portability such as a handheld type.
Such a measuring device management system 1 provides a map showing the position of the measuring device 100 based on the position information acquisition unit 10 that sequentially acquires the position of the measuring device 100 and the position information acquired by the position information acquisition unit 10. A map creation unit 20 to be created is provided.

The measuring device 100 can be held by an operator for measurement, such as a caliper or a micrometer. In the example shown in FIG. 2, a computer 200 is used, and the position information acquisition unit 10 and the map creation unit 20 are realized by program processing executed by the computer 200. At least one of the location information acquisition unit 10 and the map creation unit 20 may be realized by hardware, or by application software (so-called application) of a mobile terminal such as a tablet terminal or a mobile phone. You may.

The position information acquisition unit 10 sequentially acquires the position information of the measuring device 100 based on the signal transmitted from the transmitter 110 provided in the measuring device 100, for example. The transmitter 110 includes GPS (Global Positioning System) and Wifi. In the case of GPS, the coordinate information of the measuring device 100 acquired by GPS is transmitted to the position information acquisition unit 10, and the position information acquisition unit 10 records the received position information at a predetermined timing. The position information is recorded in a storage means (not shown) for a predetermined period of time.

The position information acquisition unit 10 may acquire the current position of the measuring device 100 by analysis based on an image (for example, a moving image) of the measuring device 100. In this case, a moving image of the measuring device 100 is taken with an imaging device (camera) (not shown), a background image and an image of the measuring device 100 are extracted from the moving image, and the position information of the measuring device 100 is acquired.

Further, the position information acquisition unit 10 may have a motion analysis unit 11 and a tracking unit 12. The motion analysis unit 11 analyzes the motion of the operator who handles the measuring device 100. The tracking unit 12 tracks the position of the measuring device 100 based on the analysis result of the motion analysis unit 11.

For example, the motion analysis unit 11 captures an image (video or still image) of an operator, determines a part of the body from the image, identifies a posture, or attaches a sensor to the operator to detect the sensor. Specify the posture based on the value. The tracking unit 12 grasps, for example, the initial position of the measuring device 100 held in the hand from the image of the worker, and tracks the position of the measuring device 100 according to the change in the posture of the worker specified by the motion analysis unit 11. To do.

The position information acquisition unit 10 may acquire the position information of the measuring device 100 by both analyzing the image of the measuring device 100 and tracking the operator. Further, the position information acquisition unit 10 acquires the position information in association with the individual information (identification information) of the measuring device 100. As a result, it is possible to acquire position information for each of the plurality of measuring instruments 100 for each individual.

The map creation unit 20 creates a map showing the positions of the measuring devices 100 that are sequentially acquired by the position information acquisition unit 10. When there are a plurality of measuring devices 100, the map creation unit 20 creates a map showing the position of each measuring device 100 based on the position information associated with each of the individual measuring devices 100.

The measuring device management system 1 may include a map display unit 25 that displays a map created by the map creation unit 20. The map display unit 25 has a display 251 and a map is displayed on the display 251. The display 251 may be the display 210 of the computer 200, or may be the head-mounted display 300 described later.

FIG. 3 is a diagram showing an example of map display.
In the map display shown in FIG. 3, the current position P of the measuring device 100 is shown on the map. The position P may be indicated by an easy-to-read mark such as a star mark or a circle mark, or the mark may be blinked to make it stand out. The current position of the measuring device 100 can be easily grasped by the mark of the position P shown on the map.

In the measuring device management system 1 according to the present embodiment, the current position of the measuring device 100 is sequentially acquired by the position information acquisition unit 10, and the acquired position is displayed as a map by the map creation unit 20, so that it is a handheld type. It is possible to present the location position of the measuring device 100 having excellent portability in real time. As a result, even if the measuring device 100 is not in the designated position, the operator who wants to use the measuring device 100 can grasp the current position of the measuring device 100 by the map display, and can save the trouble of searching for the measuring device 100. ..

[Configuration of other measuring equipment management system]
FIG. 4 is a block diagram illustrating the configuration of another measuring device management system according to the present embodiment.
As shown in FIG. 4, the other measuring device management system 1B includes a usage status determination unit 30 in addition to the configuration of the measuring device management system 1 described above. The usage status determination unit 30 determines whether or not the measuring device 100 is in use based on the change in the position information acquired by the position information acquisition unit 10. That is, the position information acquisition unit 10 sequentially acquires the position information of the measuring device 100. The usage status determination unit 30 receives the position information of the measuring device 100 acquired by the position information acquisition unit 10 and determines whether or not the position has changed. Then, when the position has not changed, it is determined that the measuring device 100 is not used. On the other hand, when the position is changed, it is determined that the measuring device 100 is used based on the change in the position.

The usage status determination unit 30 determines whether or not the measuring device 100 is in use, for example, by at least one of the following.
(1) If the position of the measuring device 100 changes within a predetermined time, it is determined that the measuring device 100 is in use.
(2) If the position of the measuring device 100 does not change within a predetermined time, it is determined that the measuring device 100 is not in use.
(3) When the position of the measuring device 100 is moved in one direction, it is determined that the measuring device 100 is not in use (for example, the measuring device 100 is being carried).
(4) A peculiar pattern of the position change when the measuring device 100 is in use is captured in advance, and the position change pattern acquired by the position information acquisition unit 10 and the position change during use are captured. Whether it is in use or not is determined by matching with a unique pattern.

5 (a) and 5 (b) are diagrams showing a display example of a usage status.
FIG. 5A shows a display example indicating that the product is in use, and FIG. 5B shows a display example indicating that the product is not in use. The result of the determination by the usage status determination unit 30 is displayed on the display 251. At this time, it may be displayed together with the map display. For example, a part of the map display of the display 251 shows the current usage status such as "currently in use" or "not in use".

By displaying the current usage status of the measuring device 100 in this way, it is possible to grasp in advance whether or not the measuring device 100 is available when searching for the measuring device 100. As a result, for example, only the measuring device 100 that is not in use can be picked up, and unnecessary movement can be eliminated.

[Other display examples]
FIG. 6 is a diagram showing another display example.
FIG. 6 shows a display example by the head-mounted display 300. The image displayed on the head-mounted display 300 is controlled by the map display unit 25. Based on the map created by the map creation unit 20, the map display unit 25 displays information indicating the position of the measuring device 100 as augmented reality superimposed on the real space on the head-mounted display 300.

In the example shown in FIG. 6, the graphic image G2 of the measuring device 100 is superimposed and displayed as augmented reality on the image G1 of the storage in the real space. The position information of the measuring device 100 is acquired by the position information acquisition unit 10, and the acquired position of the measuring device 100 is associated with the position of the image in the real space displayed on the head mount display 300. The graphic image G2 of the measuring device 100 is superimposed on the image in the real space (for example, the image G1 of the storage). By referring to the image of the head-mounted display 300, the operator can see the measuring device 100 placed in the storage which is not actually visible as augmented reality, and the measuring device 100 is placed in the storage. You can grasp that there is.

As described above, according to the measuring device management systems 1 and 1B according to the present embodiment, it is possible to present the location of each individual of the measuring device 100 in real time.

[Modification of Embodiment]
Although the present embodiment has been described above, the present invention is not limited to these examples. For example, those skilled in the art appropriately adding, deleting, or changing the design of each of the above-described embodiments, or those that appropriately combine the features of each embodiment also have the gist of the present invention. As long as it is, it is included in the scope of the present invention.

1,1B ... Measuring equipment management system 10 ... Position information acquisition unit 11 ... Motion analysis unit 12 ... Tracking unit 20 ... Map creation unit 25 ... Map display unit 30 ... Usage status judgment unit 100 ... Measuring equipment 110 ... Transmitter 200 ... Computer 210, 251 ... Display 300 ... Head-mounted display G1 ... Image G2 ... Graphic image

Claims (5)

A position information acquisition unit that sequentially acquires the position of the measuring device,
A map creation unit that creates a map showing the position of the measuring device based on the position information acquired by the position information acquisition unit.
Measuring equipment management system equipped with. The location information acquisition unit
A motion analysis unit that analyzes the motion of the worker,
The measuring device management system according to claim 1, further comprising a tracking unit that tracks the position of the measuring device based on the analysis result of the motion analysis unit. The measuring device management system according to claim 1 or 2, further comprising a map display unit that displays the map created by the map creation unit. The map display unit has a display capable of augmented reality display.
The third aspect of claim 3, wherein the map display unit displays information indicating the position of the measuring device on the display as augmented reality superimposed on a real space based on the map created by the map creation unit. Measuring equipment management system. The measuring device according to any one of claims 1 to 4, further comprising a usage status determining unit for determining whether or not the measuring device is in use based on a change in position information acquired by the position information acquiring unit. Management system.

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