JP6939239B2 - Information processing equipment, information processing systems and programs - Google Patents

Description

The present invention relates to information processing devices, information processing systems and programs.

The following Patent Document 1 is a communication system having an IC (Integrated Circuit) tag and an information collecting device that communicates with the IC tag. The IC tag is connected to an information device and identification information of the information device. In addition to transmitting the fixed asset management information including, the information collecting device transmits the fixed asset management information and the resource information from the IC tag. A communication system characterized by receiving is disclosed.

Japanese Unexamined Patent Publication No. 2009-199210

In the present invention, the position information of the managed device is obtained as compared with the case where the position information of the device subject to fixed asset management (hereinafter, also referred to as “managed device”) is manually acquired and the fixed asset management information is updated. It is an object of the present invention to provide an information processing device, an information processing system and a program that can reduce the labor required for the person to register in the fixed asset management information.

[Information processing device]
The present invention according to claim 1
An acquisition method for acquiring the location information of equipment subject to fixed asset management,
An update means for updating fixed asset management information with the location information acquired by the acquisition means, and
It is an information processing device equipped with.

In the present invention according to claim 2, the acquisition means is
A device control means for controlling the target device so as to transmit the held position information to the own device, and
A receiving means for receiving the position information transmitted from the target device, and
The information processing apparatus according to claim 1.

The present invention according to claim 3 further claims that the device control means controls the target device so as to transmit position information of the target device to its own device when it detects that the target device has been moved. 2. The information processing device according to 2.

In the present invention according to claim 4, the acquisition means is
A device control means for controlling the target device so as to transmit information on the reception strength of a radio wave signal transmitted from a device whose existence position is known and received by the target device to the own device.
A receiving means for receiving the reception strength information transmitted from the target device, and
Have,
The information processing device according to claim 1, wherein the position information of the target device is acquired from the reception intensity information received by the receiving means.

In the present invention according to claim 5, the acquisition means is
Further, it has an estimation means for estimating the positional relationship between the device whose existence position is known and the target device from the information of the reception intensity received by the reception means.
The information processing apparatus according to claim 4, wherein the position information of the target device is acquired from the positional relationship estimated by the estimation means.

In the present invention according to claim 6, the acquisition means is
Further having an estimation means for estimating the distance and direction from the existence position of the device whose existence position is known to the existence position of the target device from the reception intensity information received by the reception means.
The information processing device according to claim 4, wherein the position information of the target device is acquired from the distance and direction estimated by the estimation means.

In the present invention according to claim 7, the acquisition means is
Information on a device whose existence position is known and whose existence position is known, which is located at the shortest distance from the target device among the devices capable of communicating with the target device, is transmitted to the own device. A device control means for controlling the target device and
A receiving means for receiving information on a device whose existence position is known, which is transmitted from the target device, and
Have,
The information processing device according to claim 1, wherein the information processing device according to claim 1 acquires the position information of the target device from the information of the device whose existence position is known received by the receiving means.

The present invention according to claim 8 is the information processing apparatus according to any one of claims 1 to 7, wherein the acquisition means periodically acquires the position information of the target device at predetermined intervals.

In the present invention according to claim 9, the acquisition means is more than a device having a weight or size value equal to or less than the threshold value for a device having a weight or size value larger than a predetermined threshold value. The information processing apparatus according to claim 8, wherein the position information is acquired in a long cycle.

The information according to claim 9, wherein the acquisition means does not periodically acquire position information for a device whose weight or size value is larger than a predetermined threshold value. It is a processing device.

The present invention according to claim 11 further includes a detection means for detecting the movement of the target device by using the position information acquired by the acquisition means.
The information processing device according to claim 8, wherein the acquisition means acquires the position information of the target device detected to be moving by the detection means in a shorter cycle than when the target device is not moving.

According to the twelfth aspect of the present invention, when an event of a predetermined type occurs inside the target device, the device control means further transmits information related to the event to the own device. The information processing device according to any one of claims 2 to 11, which controls the device.

The present invention according to claim 13 is the information processing device according to any one of claims 1 to 12, wherein the acquisition means further acquires the position information of the own device.

In the present invention according to claim 14, the position information includes information on the coordinates of the existing position of the target device.
The information processing device according to any one of claims 1 to 13, further comprising a conversion means for converting information on coordinates of the existing position of the target device into a name of the place.

The information processing device according to any one of claims 1 to 14, wherein the present invention according to claim 15 includes information regarding a name of a place where the target device exists in the position information.

The information processing device according to claim 16, wherein the position information is information that may change with the movement of the target device, according to any one of claims 1 to 15.

The information processing apparatus according to claim 17, further comprising a fixed asset management information storage means for storing the fixed asset management information, according to any one of claims 1 to 16.

[Information processing system]
The present invention according to claim 18
An acquisition method for acquiring the location information of equipment subject to fixed asset management,
An update means for updating fixed asset management information with location information acquired by the acquisition means,
It is an information processing system having.

[program]
The present invention according to claim 19
Acquisition step to acquire the location information of the target device of fixed asset management,
An update step for updating fixed asset management information with the location information acquired in the acquisition step, and
Is a program to make a computer execute.

According to the first aspect of the present invention, the position information of the managed device is registered in the fixed asset management information as compared with the case where the position information of the managed device is manually acquired and the fixed asset management information is updated. It is possible to reduce the labor required for the person.

According to the second aspect of the present invention, in addition to the effect of the present invention according to the first aspect, when the managed device holds its own position information, the position information held by the device is used. It is possible to update the fixed asset management information.

According to the third aspect of the present invention, in addition to the effect of the present invention according to the second aspect, when the managed device can detect that the own device has been moved, the installation location of the managed device is changed. It is possible to reduce the labor required for the person to later correct the fixed asset management information for the location information of the device.

According to the fourth aspect of the present invention, in addition to the effect of the present invention according to the first aspect, when a radio signal transmitted from a device whose existence position is known is received by the managed device, it is managed. It is possible to register the location information of the target device in the fixed asset management information.

According to the fifth aspect of the present invention, in addition to the effect of the present invention according to the fourth aspect, the positional relationship between the device whose existence position is known and the managed device that has received the radio signal transmitted from the device. Can be estimated.

According to the sixth aspect of the present invention, in addition to the effect of the present invention according to the fourth aspect, the distance from the device whose existence position is known to the managed device that has received the radio signal transmitted from the device and the device to be managed. It is possible to estimate the direction.

According to the present invention according to claim 7, in addition to the effect of the present invention according to claim 1, management is performed by installing a device capable of communicating with a device having a known existence position at a predetermined position. It is possible to acquire the position of the target device.

According to the eighth aspect of the present invention, in addition to the effect of the present invention according to any one of the first to seventh aspects, the change in the installation location of the managed device is shorter than the predetermined cycle interval. It becomes possible to detect by time.

According to the present invention according to claim 9, in addition to the effect of the present invention according to claim 8, the managed device which is judged to have a higher possibility that the installation location is changed due to the size and weight It is possible to save power for acquiring location information and updating fixed asset management information without changing the frequency of acquiring location information.

According to the present invention according to claim 10, in addition to the effect of the present invention according to claim 8, the managed device for which it is judged that the installation location is more likely to be changed due to the size and weight It is possible to save power for acquiring location information and updating fixed asset management information without changing the frequency of acquiring location information.

According to the present invention according to claim 11, in addition to the effect of the present invention according to claim 8, the accuracy of the position information stored in the fixed asset information is determined by whether or not the managed device is moving. It is possible to make the information acquisition cycle higher than when the information acquisition cycle is not changed.

According to the 12th aspect of the present invention, in addition to the effect of the present invention according to any one of the 2nd to 11th aspects, it is possible to detect that a specific event has occurred in the managed device.

According to the thirteenth aspect of the present invention, in addition to the effect of the present invention according to any one of the first to twelve aspects, the labor required for registering the position information of the own device in the fixed asset management information is reduced. be able to.

According to the 14th aspect of the present invention, in addition to the effect of the present invention according to any one of the 1st to 13th aspects, even when the coordinate information is stored as the position information of the managed device in the fixed asset management information. , You will be able to understand the name of the installation location of the managed device.

According to the present invention according to claim 15, in addition to the effect of the present invention according to any one of claims 9 to 14, the name of the installation location of the managed device can be known by referring to the fixed asset management information. Become.

According to the present invention according to claim 16, in addition to the effect of the present invention according to any one of claims 1 to 15, information that may change with the movement of the managed device can be treated as the position information of the device. It will be possible.

According to the 17th aspect of the present invention, the fixed asset management information can be retained without separately preparing a device provided with the fixed asset management information storage means.

According to the eighteenth aspect of the present invention, the position information of the managed device is registered in the fixed asset management information as compared with the case where the position information of the managed device is manually acquired and the fixed asset management information is updated. It is possible to reduce the labor required for the person.

According to the present invention according to claim 19, the position information of the managed device is registered in the fixed asset management information as compared with the case where the position information of the managed device is manually acquired and the fixed asset management information is updated. It is possible to reduce the labor required for the person.

An example of a system using the information processing apparatus 10 according to the embodiment of the present invention is shown. The hardware configuration of the information processing apparatus 10 is shown. The functional configuration of the information processing apparatus 10 is shown. An example of estimating the position information of the managed device 20 by using the beacon transmitter 51 is shown. An example of the processing flow in which the fixed asset management information is updated by the information processing apparatus 10 is shown. An example of a list generated based on fixed asset management information is shown.

First, FIG. 1 shows an example of a system using the information processing apparatus 10 according to the embodiment of the present invention. This system is composed of an information processing device 10 and a fixed asset information management server 40, and the fixed asset information management server 40 is connected to the information processing device 10 via a network 50. FIG. 1 shows a state in which the information processing device 10 communicates with a managed device 20 to be managed by a fixed asset by wireless communication.

The fixed asset information management server 40 manages fixed asset management information in which information used for fixed asset management operations is collected, updates fixed asset management information, and manages fixed assets in response to a request from a user. It is a server that provides the information stored in the information (outputs the forms required for fixed asset management work, etc.). In this specification, "fixed asset management information" is a set of various information required for managing fixed assets, and is in a format in which information can be updated and referenced by a computer system (example: file). And database, etc.).

Since there is no restriction on the storage location of the fixed asset management information, even if the fixed asset information management server 40 directly has a device (for example, a storage device such as a hard disk) in which the fixed asset management information is stored, other devices may be used. (For example, an information processing device 10 or another file server, etc.) may be provided. Further, in the latter case, as the access means from the fixed asset information management server 40 or the like, a well-known method such as a WEB service can be mentioned in addition to the file server. Further, the information processing device 10 may be configured to also function as the fixed asset information management server 40.

Generally, as a fixed asset management business, it is necessary to describe the installation location of tangible fixed assets (corresponding to the managed device 20 in FIG. 1) in the fixed asset ledger. Therefore, conventionally, the person in charge of fixed asset management business confirms the installation location of each asset (for example, XX meeting room, first reception room, second floor corridor, etc.) one by one (for example, visual inspection and hearing). It was necessary to register it in the fixed asset management information or enter it in the fixed asset ledger.

Therefore, the information processing device 10 of the present embodiment has a wireless communication function and acquires the position information of the managed device 20 by communicating with the managed device 20, and the fixed asset management information is based on the acquired position information. Is being updated. The information processing device 10 according to the present embodiment is not a dedicated device but has various devices (for example, functions such as printing, copying, facsimile, scanner, etc.) as long as it is an information processing device having a wireless communication function. It can be carried out with an image forming device, a so-called multifunction device, a personal computer, a server device, a tablet terminal, etc.).

The managed device 20 has a wireless communication interface capable of communicating with the information processing device 10, and is a search signal (a signal transmitted without specifying a receiving partner in order to search for a communicable device, for example, which will be described later. When it receives (transmitted from the detection unit 11 of the information processing device 10) or spontaneously (for example, periodically), it transmits a signal containing identification information (hereinafter, also referred to as "existence notification signal"). It is made to do. The identification signal is information that can be used to distinguish the own device from another device, and examples thereof include various identifiers such as a MAC address.

A plurality of information processing devices 10 may exist and operate for one fixed asset information management server (or fixed asset management information). For example, a plurality of information processing devices 10 may exist in the network 50 in FIG. 1, and when the fixed asset information management server 40 can connect to a plurality of different networks, the number of information processing devices 10 that may exist in each network. There is no limit to.

By using a plurality of information processing devices 10, information can be obtained even when the managed device 20 cannot physically or network-communicate with a specific information processing device 10 (referred to as "information processing device 10a" for distinction). If the information processing device 10 different from the processing device 10a can communicate with the device, it is possible to acquire the position information of the device and update the fixed asset management information.

At that time, the managed device 20 capable of communicating with the plurality of information processing devices 10 is associated with the information processing device 10 that acquires information about the device and updates the fixed asset management information. Only the specific information processing device 10 may acquire the information of the device and update the fixed asset management information.

The association between the managed device 20 and the information processing device 10 that acquires the information of the device may be manually set in advance, the distance from each information processing device 10 and each information processing device. The prioritization of the information processing device 10 that acquires the information of each device can be automatically determined according to the number of devices managed by the 10 and the communication standards supported by the devices and each information processing device 10. By setting this, the manpower related to the setting becomes unnecessary.

As a prioritization rule, for example, the number of target devices for information acquisition is predetermined so that only the information processing device 10 closest to each managed device 20 acquires the information of the device. Regarding the communication standard between the managed device 20 and the information processing device, the communication standard between the managed device 20 and the information processing device is divided into each information processing device 10 so as to have a ratio (for example, the same degree). It is conceivable to select the managed device 20 and the information processing device 10 for acquiring information so as to be a combination.

FIG. 2 is a diagram showing a hardware configuration of the information processing device 10 according to the embodiment of the present invention. The information processing device 10 has a CPU 1, a memory 2, a storage device 3 such as a hard disk drive (HDD), and a communication interface (IF) 4 that transmits and receives data to and from an external device or the like via a network. , These components are connected to each other via the control bus 5.

FIG. 3 shows the functional configuration of the information processing device 10. The information processing device 10 includes a detection unit 11, an existence notification receiving unit 12, a first acquisition unit 12, an update unit 13, a second acquisition unit 14, a determination unit 15, a determination unit 16, a control unit 17, and a third acquisition unit 18. It also has a list generation unit 19.

The detection unit 11 detects the management target device 20 by receiving the existence notification signal transmitted from the management target device 20. As described above, this existence notification signal is transmitted when it is set to be spontaneously transmitted according to the function or role of the managed device 20 of the source, or when the search signal is received as a trigger. It may be designed to do so. Therefore, the detection unit 11 may be configured to further transmit a search signal.

In this specification, the "transmission" and "transmission" of a signal are distinguished as follows, that is, "transmission" is a narrower concept than "transmission", and a signal reception partner is specified. The case of making a call is referred to as "send". Therefore, "outgoing" includes both the case where the receiving party is specified and the case where the receiving party is not specified.

The first acquisition unit 12 acquires the position information of the managed device 20 that is the source of the existence notification signal received by the detection unit 11 (hereinafter, the managed device 20 whose position information has been acquired by the detection unit 11 is "information". Also called "device to be updated").

The position information is information indicating the position where the managed device 20 exists, and is information that can change with the movement of the managed device 20. Information that can change with the movement of the managed device 20 includes information on coordinates whose coordinate system is specified, for example, relative positional relationship (direction and distance information) starting from a specific device, and geography. Examples include the longitude / latitude / altitude in the coordinate system, the name of the place where the managed device 20 exists (a specific range that can be distinguished by a name such as a living room or a building), and the like.

As a method for the first acquisition unit 12 to acquire the position information of the managed device 20, the managed device 20 is controlled to transmit the information held by the managed device 20, and the received information is transmitted. This is done by estimating the location of the managed device using it.

In the present specification, "control" means to cause the controlled object to perform some processing, and to transmit information (related to an instruction or request) for causing the controlled object to execute some processing. It is a concept that includes. For example, transmission of a request or command to change the setting value (parameter) held by the transmission partner (managed device 20 or the like) to determine the movement of the own device (managed target based on the changed setting value). The concept of control includes (the movement of the device changes) and the transmission request of some information to the managed device (the information is transmitted from the managed device that received the transmission request).

As a method of estimating the existence position of the managed device 20 from the information received by the first acquisition unit 12, a wireless communication network is formed between devices having a wireless communication function by using a well-known wireless communication technology. However, a method of estimating the distance between each other from the information on the strength of the radio signal transmitted from one side and received by the other side can be applied.

That is, a plurality of devices having a wireless communication function (hereinafter, also referred to as "wireless communication devices") are installed at predetermined positions in the building in advance, and the wireless communication devices whose existence positions are known to the managed devices 20 Based on the (estimated) distance to, the existence position of the managed device 20 can be estimated.

The following two examples are given below to estimate the existence position of the management target device 20 based on each distance from the wireless communication device whose existence position is known to the management target device 20.

The first is to control the target device so as to transmit the information of the device whose existence position is known to be located at the shortest distance from the managed device 20 among the devices capable of communicating with the managed device 20 to its own device. Then, it is a method of receiving the information of the device whose existence position is known transmitted from the managed device 20 and acquiring the position information of the managed device 20 from the received information.

As a specific example, a device having a wireless communication function can be used in a plurality of places (for example, XX meeting room, first reception) where the position of the managed device 20 is to be specified (for example, in a specific building). Equipment that is installed in each room, second warehouse, security room, etc., and exists at the closest distance based on the (estimated) distance from the equipment whose location is known to the managed equipment 20. A method of estimating the existing position (name of the place) of the device 20 as the existing position of the managed device 20 can be mentioned.

The second is to control the managed device 20 so that the information on the reception strength of the radio signal transmitted from the device whose existence position is known and received by the managed device 20 is transmitted to the own device, and then the managed device 20. This is a method of receiving the reception strength information transmitted from the device and acquiring the position information of the managed device 20 from the received reception strength information.

This means that even if it is a specific point whose position is unknown in three-dimensional space mathematically, the four points whose positions are known (however, not all four points exist in the same plane, in other words, 4). If each distance from a figure having one point as an apex becomes a tetrahedron, the position of the specific point can be known (for example, a polar coordinate system with any of the four points whose positions are known as the origin). It is a method that utilizes the fact that it can be expressed in a Cartesian coordinate system. Even if there are three points whose positions are known, or even if all four or more points whose positions are known are on the same plane, there are a maximum of two specific points whose positions are unknown (the position is unknown). Since it is possible to narrow down to two places that have a plane symmetry relationship with a plane containing three or more points whose positions are known as the plane of symmetry), it can be applied by the same principle by combining with other conditions. .. Further, in the case of specifying the position in the two-dimensional space, the number of points where the required position is known is reduced by one in the above principle.

A more specific example of the second method will be described with reference to FIG. First, a plurality of beacon transmitters 51 (usually four or more, depending on conditions, three or more) are installed in advance at different places in the building as wireless communication devices whose existence positions are known. The beacon transmitter 51 has a function of transmitting a beacon signal including identification information for identifying the own device via a wireless communication line, and the beacon signal is periodic (for example, 1 second interval or 10 seconds). It is designed to be transmitted at intervals, etc.).

When the managed device 20 exists near the beacon transmitter 51 (the range in which the beacon signal radio wave from the beacon transmitter 51 can be received), after receiving the beacon signal, the identification included in the received beacon signal Beacon information including information, information on the strength of the received radio wave when the beacon signal is received (hereinafter, also referred to as “received radio wave strength”), and identification information of the own device is transmitted to the information processing apparatus 10. ..

Here, the information processing device 10 holds and receives information on the position of each beacon transmitter 51 (for example, the coordinates of the geographic coordinate system, the coordinates of the polar coordinate system with the position estimation device 52 as the origin, etc.). The distance between the beacon transmitter 51 that transmitted the received radio wave and the managed device 20 is estimated from the information on the intensity of the received radio wave included in the beacon information.

The managed device 20 receives beacon signals from four or more beacon transmitters 51 and transmits each beacon information to the information processing device 10, so that the distance from the four or more beacon transmitters 51 can be estimated. Therefore, the distance and direction from the existing position of the beacon transmitter 51 to the existing position of the managed device 20 can be estimated as the positional relationship between each beacon transmitter 51 and the managed device 20. By converting the estimated distance and direction information from the distance information (four or more) from the beacon transmitter 51 whose existence position is known into the coordinate information, the (estimated) of the managed device 20 Coordinate information is acquired.

Also, since the distance information from four (or more) points and the coordinate information are mathematically equivalent, the location name is entered by inputting the distance information (four or more) from a device whose existence position is known. You can also create a conversion table that outputs. In that case, it is not necessary to calculate the existing position of the managed device 20 as coordinates.

As described above, even if there are three beacon transmitters 51 capable of communicating with the managed device 20, it is determined on which side the managed device 20 exists with respect to the plane including the beacon transmitter 51 depending on other conditions. If it is known (for example, it is clear that all the beacon transmitters 51 are at the floor level and the managed device is higher than the floor), this method can be applied.

In the above, the information processing device 10 estimates the distance between the beacon transmitter 51 that transmitted the received radio wave and the managed device 20 from the information on the intensity of the received radio wave included in the beacon information. However, if a device other than the information processing device 10 has a position estimation function, the above method can be realized even if the information processing device 10 does not have a position estimation function. ..

Next, when the information received by the first acquisition unit 12 directly includes the position information of the managed device 20, the information may be acquired as the position information. That is, the first acquisition unit controls the managed device so as to transmit the position information held by the managed device 20 to its own device, and then receives the position information transmitted from the managed device 20. , Acquire the location information of the managed device.

For example, a device that functions as a receiver of a satellite positioning system such as a global positioning system (hereinafter referred to as "GPS"), if installed outdoors, has coordinate information in a geographic coordinate system as position information of its own device (hereinafter, "GPS"). It is possible to obtain (latitude, longitude, altitude).

In addition, if the device functions as a receiver of IMES (Indoor MEssaging System), which is known as a system that complements and reinforces GPS, the longitude, latitude, and longitude of the own device can be used even if it is installed indoors within the range of use of the IMES system. It is possible to obtain information on the number of floors of the building.

In this way, when the managed device 20 can acquire and hold the position information of the own device, the first acquisition unit 12 further sets the position with respect to the managed device 20 capable of acquiring the position information of the own device. It may be controlled to acquire information. When the managed device 20 does not hold the position information (for example, even if it has the function of acquiring the position information, the function of acquiring the position information is not always turned on for the purpose of power saving. Even in the case), the managed device 20 will hold the position information. Further, even if the managed device 20 already holds the position information, the held position information is updated with newer information.

Further, depending on the managed device 20, a gyro sensor (also called a gyroscope) or the like may be provided to detect the movement of the own device. Therefore, with respect to the managed device 20 that can detect the movement of the own device, when the device is detected to be moved, the first acquisition unit 12 acquires the position information of the device (held by the managed device 20). The managed device 20 may be controlled so as to transmit information such as the position information being performed and the signal strength of the received radio wave).

In addition, even if the device has once acquired the location information, it may be a device that is not subject to management of fixed assets. Therefore, it may be possible to set whether or not to acquire the position information (or not to acquire the position information) for each device.

When information on the type of drive power source (for example, battery drive, household power source drive, etc.) is used in the determination unit 16 described later, the first acquisition unit 12 sets the type of drive power source in addition to the position information. It may be made to acquire.

Further, the first acquisition unit 12 may acquire the position information of the own device (information processing device 20) in addition to the information of the managed device 20.

The update unit 13 updates the fixed asset management information with the information acquired by the first acquisition unit 12, the second acquisition unit 14, and the third acquisition unit 18. When the fixed asset management information is configured in the database format, it is the database management system that can directly update (can) the database. Therefore, the expression "updating the fixed asset management information" in this specification includes the concept of "sending an instruction / request to update the fixed asset management information" (to the database management system, etc.). do.

If the identification information of the device to be updated is not registered in the fixed asset management information, the identification information is also registered (new registration in the fixed asset management information). The identification information registered at that time does not have to be the same value as the identification information included in the existence notification signal received by the detection unit 11, but is included in the existence notification signal received by the detection unit 11. As long as it functions as an identifier by having a one-to-one correspondence with the identification information, even if it is uniquely numbered (for example, a character string consisting of "model name" + "serial number in registration order", etc.) good.

In addition, since it is necessary to describe the installation location (name) of the tangible fixed asset in the fixed asset ledger, if the acquired position information of the managed device 20 is coordinate information, the coordinate information is used as the location information. A conversion table for converting to a name may be prepared in advance.

In addition, the type of location information registered in the fixed asset management information may be the acquired coordinate information, the converted location name, or the symbolized information for specifying the location name. But it's okay. Moreover, a plurality of types of information among these may be registered.

The type of information stored in the fixed asset management information may include information on the purchase date and purchase price of the managed device 20. In addition to the method of manually registering such information, the initial value may be set automatically. As a method of determining the initial value, for example, if it is a purchase date, the operation start date: the date when the first communication with each managed device 20 is performed (for example, the date at the time of the above-mentioned new registration (registration of identification information)). Or, as the purchase price, there is a method of using a value (also referred to as a “catalog value”) included in the catalog information acquired by the second acquisition unit 14 described later.

The information registered in the fixed asset management information can be used for purposes other than fixed asset management business. For example, it is assumed that the location information of the device cannot be acquired due to an unexpected situation such as loss or theft, but the location information acquired while the device is moving is useful for searching together with the acquisition time information. It becomes information. For example, by combining information such as passing information of a flapper gate with an authentication function, information acquired by a motion sensor, and location information of a device carried by an individual, an individual who is likely to have taken out the managed device can be identified. It may be used to do.

The second acquisition unit 14 acquires catalog values (dimensions, weight, model number, price information, etc.) of the device from the Internet based on the identification information of the device to be updated.

The determination unit 15 determines whether or not the information update target device is moving by comparing the location information already registered in the fixed asset management information with the location information acquired by the first acquisition unit 12. By doing so, the movement of the device whose information is to be updated is detected. As an example of the determination method, when the difference in position information (for example, the value of the distance between coordinates) is larger than a predetermined threshold value, it is "moving", and when it is less than or equal to the threshold value, it is "not moving". There is a method of determining that.

The determination unit 16 determines the catalog value acquired by the second acquisition unit 14, the determination result by the determination unit 15, and the interval (time until the next acquisition of the position information) of the information update target device. decide.

As described below, in the present embodiment, the determination unit 16, the control unit 17, and the like work together to periodically acquire the position information of one managed device 20 at predetermined intervals. However, there may be cases where it is not necessary to acquire location information periodically.

In addition, when the location information is acquired periodically, the higher the frequency of acquiring the location information, the more accurate the information registered in the fixed asset management information can be improved, but at the same time, the information acquisition and fixation can be improved. The processing load for updating asset management information and the network traffic for acquiring information will increase.

Therefore, the user may be able to manually register the location information so that the location information is not periodically acquired for each device (or whether or not the location information is periodically acquired).

As a method of determining the interval for acquiring position information, for example, it is generally difficult to move due to circumstances such as large dimensions or heavy weight (hereinafter, also referred to as "low portability"). Since it is considered that the installation location of the device is not frequently moved, there is little merit in acquiring the position information frequently.

Therefore, regarding the scale of portability such as the size and weight of the device to be managed, the acquisition interval is made larger than usual by comparing the size with a value predetermined as a threshold value (for example, the size (scale) as a measure of portability). As an example of the size as, there are volume, maximum length among the lengths in the three directions, total value of the lengths in the three directions, etc.) and when using the weight value, when it is larger than the threshold value. In addition, the acquisition frequency of position information can be increased by making the acquisition interval larger than usual (compared to devices whose size and weight values are below the threshold value), that is, by acquiring position information in a longer cycle. It is conceivable to take measures such as lowering the position or not acquiring the position information periodically.

As for the values that can be used as a measure of portability such as the size and weight of the device, the catalog values acquired by the second acquisition unit 14 may be used or manually registered.

In addition, the identification information is used to determine the presence or absence of the same type model already registered in the management asset information, which is the same as the size, weight, etc. of the same type model already registered in the management asset information. If the value is set, the load required for the process of acquiring the catalog value by the trouble of registration or the search can be reduced.

Also, for managed devices that are moving, the location information acquisition interval is shorter than usual (or the value set as the initial value or the value set when not moving), compared to when not moving. By acquiring the position information in a short cycle, the detection that the movement is completed becomes faster.

If the managed device 20 is a battery-powered device, communication with the device may not be possible due to exhaustion of the drive battery, and if the position is unknown, the device may be lost. Therefore, it is conceivable that the battery-powered device may have a longer or shorter movement information acquisition interval than a device driven by a household power source. In the former case, the battery consumption speed will be reduced, and in the latter case, the accuracy of the location information held in the fixed asset management information at the time of communication failure will be improved.

When the information on the type of the drive power supply of the managed device 20 is used when determining the position information acquisition interval in the determination unit 16, the power supply information can be manually input, and as described above, the first acquisition In addition to the position information, unit 12 may acquire the type of drive power supply.

The control unit 17 controls the first acquisition unit 12 so as to (again) acquire the position information of the information update target device after the position information acquisition interval determined by the determination unit 16 has elapsed. This control target is basically the first acquisition unit 12, but since the position information may be included in the existence notification signal, etc., the information update target device is linked with the third acquisition unit 18 as necessary. May be controlled.

Hereinafter, an example of a processing flow in which the fixed asset management information is updated by the information processing device 10 and the position information is periodically acquired for one managed device 20 will be described with reference to the flowchart of FIG. ..

In step S1, the device is detected as a communicable device by receiving the existence notification signal from the managed device 20.

In step S2, the position information and other information of the device detected in step S1 are acquired.

In step S3, it is determined whether or not the device detected in step S1 is already registered in the fixed asset management information. If YES, the process proceeds to step S9, and if NO, the process proceeds to step S4.

In step S4, by registering the identification information of the device detected in step S1, the device is newly registered in the fixed asset management information.

In step S5, the catalog value of the device detected in step S1 is acquired.

In step S6, the acquisition interval of the position information is determined based on the catalog value acquired in step S5, and the value of the determined acquisition interval is registered in the fixed asset management information.

In step S7, the fixed asset management information is updated with the location information acquired in step S2.

In step S8, the process waits until the acquisition interval time registered in the fixed asset management information elapses, and then proceeds to step S2.

In step S9, it is determined whether or not the device detected in step S1 is moving based on the location information acquired in step S2 and the location information registered in the fixed asset management information, and if YES. The process proceeds to step 10, and if NO, the process proceeds to step S11.

In step S10, the value of the location information acquisition interval registered in the fixed asset management information is changed to a value smaller than the value determined in step S6, and the process proceeds to step S7.

In step S11, the value of the location information acquisition interval registered in the fixed asset management information is changed as necessary so as to be the value determined in step S6, and the process proceeds to step S7.

In addition to the periodic acquisition as described above, the location information is updated so that the location information of all managed devices can be updated at any time desired by the user. Is also good. For example, a batch acquisition instruction receiving unit that receives an instruction to collectively acquire the position information of all managed devices is further provided, and when the batch acquisition instruction receiving unit receives the instruction, the first acquisition unit 12 receives the instruction. There is a method to acquire location information for all managed devices.

The third acquisition unit 18 controls the managed device 20, and when a specific event occurs in the managed device 20, information related to the event is transmitted to the information processing device 10 (periodically or the event). (Anytime when the occurrence of) is sent.

As a control method, for example, for information that is spontaneously transmitted from the managed device 20 (triggered by the occurrence of each event), the type and content of the information to be transmitted (event) and the transmission timing are set in advance. Do it by.

Examples of information to be transmitted include information that can be used by the user to determine the operating status of each managed device 20 (hereinafter, also referred to as “operation information”), and a device in which the managed device 20 is battery-powered. Information on the remaining capacity of the battery in the case of the above, and the like can be mentioned. Examples of operation information include turning on / off the power of the managed device, detecting that the managed device has detected some abnormality that impairs the normal operation of the own device, and starting / ending the use of a specific function of the managed device. , Etc.

As described above, when the managed device 20 is a battery-powered device, it is conceivable that communication with the device may not be possible due to the exhaustion of the drive battery. Therefore, it is necessary to periodically acquire information on the remaining battery level, detect a decrease in the remaining battery level before communication becomes impossible, and charge or replace the battery as necessary. It may be used for notification (e-mail, facsimile transmission, printing on paper media, information display on WEB page, etc.). Alternatively, the managed device 20 may be controlled so as to transmit information regarding the remaining battery level to the information processing device 10 when the remaining battery level falls below a predetermined threshold value.

Although it does not depend on the type and content of the information acquired by the 1st acquisition department or the 3rd acquisition department, there is a problem that communication becomes impossible due to the periodical acquisition of some information about the managed device 20 (expected). When the device fails to turn off the power, malfunctions related to the communication function, are taken out of the communicable range, etc.), the occurrence of the malfunction is detected when the information cannot be obtained, and if necessary. The user may be notified.

The list generation unit 19 is fixed from the information on the remaining book value and the operation information and location information of each managed device 20 as a fixed asset registered in the fixed asset management information in response to a request from the user. Generate a list required for asset operations (for example, a list of information about fixed assets to be managed). An example of the list is shown in FIG. The residual book value information is the residual book value calculation unit that calculates the residual book value based on the purchase price and purchase date information registered in the fixed asset management information, in addition to the manually entered value. May be further provided and the value calculated by the residual book value calculation unit may be used.

In addition, as one of the fixed asset management operations, the equipment to be retired may be examined, and a list of candidates for retirement may be created for the examination. “Retirement” is a concept in accounting business, and means to stop the use of (tangible) fixed assets for business purposes and to exclude them from the accounting books.

In addition to the remaining book value information, the information included in the retirement candidate list includes, for example, information on the period (or time ratio) in which the device is operating / used, information on the frequency of movement, and the frequency of failures. There is information on the period from the occurrence of a failure to the completion of repair, etc. Information on the period of use (or time ratio) is, for example, the shorter the period of non-operation / unused (the smaller the time ratio), the higher the business need, and should not be discarded. , Used to speculate. The information on the frequency of movement is used, for example, to infer that those that are frequently moved have a high business need and should not be discarded. Information on the frequency of failures and the period from the occurrence of failures to the completion of repairs states that, for example, those with many failures and those that require a long period of time need to be replaced with alternative machines (resulting in disposal). It is used to guess.

Therefore, by combining this information with the information on the residual book value and disposing of the device with a high residual book value and high possibility of disposal, the user considers that the device is highly useful (for example, has a high tax-saving effect). You may notify to. For example, a logic for judging the usefulness by removing is set in advance, and based on the result judged according to the logic, the managed devices are listed in order of increasing usefulness by removing. Or, the result of ranking according to usefulness (numerical value, etc.) may be included in the list.

In the present embodiment, an image forming unit may be further provided, and the removal candidate list generated by the list generation unit 19 may be printed out on a paper medium or the like. Further, as an output method (providing method) of the rejection candidate list, in addition to printing output, the information processing device 10 may be displayed on a display unit provided as an operation control panel or the like, or the information processing device may be displayed. If 10 has a WEB server function, it can be displayed on the WEB screen. Further, it may be generated as a specific file format and sent / stored in a specific file server, or attached to an e-mail and sent.

In addition, in the mode including the image forming unit, the final income tax return information acquisition unit, which acquires the information necessary for final income tax return from the fixed asset management information, and the fixed asset ledger in the book format used for final income tax return, etc. A fixed asset ledger generation unit to be generated may be provided, and the fixed asset ledger may be printed out in a format for the fixed asset ledger generated using the information stored in the fixed asset management information.

In the above embodiment, the first acquisition unit 12 and the update unit 13 are included in one device (information processing device 10), but in the present invention, the first acquisition unit 12 and the update unit 13 are included. It can also be implemented as an information processing system of a mode included in separate devices.

10 Information processing device 1 CPU
2 Memory 3 Storage device 4 Communication interface 5 Control bus 11 Detection unit 12 First acquisition unit 13 Update unit 14 Second acquisition unit 15 Judgment unit 16 Decision unit 17 Control unit 18 Third acquisition unit 19 List generation unit 20 Managed device 40 Fixed Asset Information Management Server 50 Network 51 Beacon Transmitter

Claims (18)

An acquisition method for acquiring the location information of equipment subject to fixed asset management,
An update means for updating fixed asset management information with the location information acquired by the acquisition means, and
It has a fixed asset management information storage means for storing the fixed asset management information, and has
The fixed asset information stored by the fixed asset management information storage means includes the remaining book value of the target device and information regarding the use of the target device.
An information processing device that determines the usefulness of the target device by removing it from the remaining book value of the target device and information on the use of the target device, and notifies the user. The acquisition means
A device control means for controlling the target device so as to transmit the held position information to the own device, and
A receiving means for receiving the position information transmitted from the target device, and
The information processing apparatus according to claim 1. The information processing device according to claim 2, wherein the device control means further controls the target device so as to transmit position information of the target device to its own device when it detects that the target device has been moved. The acquisition means
A device control means for controlling the target device so as to transmit information on the reception strength of a radio wave signal transmitted from a device whose existence position is known and received by the target device to the own device.
A receiving means for receiving the reception strength information transmitted from the target device, and
Have,
The information processing device according to claim 1, wherein the position information of the target device is acquired from the reception intensity information received by the receiving means. The acquisition means
Further, it has an estimation means for estimating the positional relationship between the device whose existence position is known and the target device from the information of the reception intensity received by the reception means.
The information processing apparatus according to claim 4, wherein the position information of the target device is acquired from the positional relationship estimated by the estimation means. The acquisition means
Further having an estimation means for estimating the distance and direction from the existence position of the device whose existence position is known to the existence position of the target device from the reception intensity information received by the reception means.
The information processing device according to claim 4, wherein the position information of the target device is acquired from the distance and direction estimated by the estimation means. The acquisition means
Information on a device whose existence position is known and whose existence position is known, which is located at the shortest distance from the target device among the devices capable of communicating with the target device, is transmitted to the own device. A device control means for controlling the target device and
A receiving means for receiving information on a device whose existence position is known, which is transmitted from the target device, and
Have,
The information processing device according to claim 1, wherein the information processing device according to claim 1 acquires the position information of the target device from the information of the device whose existence position is known received by the receiving means. The information processing device according to any one of claims 1 to 7, wherein the acquisition means periodically acquires the position information of the target device at predetermined intervals. The acquisition means acquires the position information at a longer cycle than the device whose weight or size value is equal to or less than the threshold value for the device whose weight or size value is larger than the predetermined threshold value. The information processing device according to claim 8. The information processing device according to claim 9, wherein the acquisition means does not periodically acquire position information for a device whose weight or size value is larger than a predetermined threshold value. Further equipped with a detection means for detecting the movement of the target device using the position information acquired by the acquisition means.
The information processing device according to claim 8, wherein the acquisition means acquires the position information of the target device detected to be moving by the detection means in a shorter cycle than when the target device is not moving. The device control means further controls the target device so as to transmit information related to the event to its own device when an event of a predetermined type occurs inside the target device. The information processing device described as either. The information processing device according to any one of claims 1 to 12, wherein the acquisition means further acquires the position information of the own device. The position information includes information on the coordinates of the existing position of the target device.
The information processing device according to any one of claims 1 to 13, further comprising a conversion means for converting information on coordinates of the existing position of the target device into a name of the place. The information processing device according to any one of claims 1 to 14, wherein the position information includes information regarding a name of a place where the target device exists. The information processing device according to any one of claims 1 to 15, wherein the position information is information that can change with the movement of the target device. An acquisition method for acquiring the location information of equipment subject to fixed asset management,
An update means for updating fixed asset management information with location information acquired by the acquisition means,
It has a fixed asset management information storage means for storing the fixed asset management information, and has
The fixed asset information stored by the fixed asset management information storage means includes the remaining book value of the target device and information regarding the use of the target device.
An information processing system that determines the usefulness of the target device by removing it from the remaining book value of the target device and information on the use of the target device, and notifies the user. Acquisition step to acquire the location information of the target device of fixed asset management,
An update step for updating fixed asset management information with the location information acquired in the acquisition step, and
It has a fixed asset management information storage step for storing the fixed asset management information, and has.
The fixed asset information stored by the fixed asset management information storage means includes the remaining book value of the target device and information regarding the use of the target device.
A program for determining the usefulness of removing from the remaining book value of the target device and the information on the use of the target device, and causing the computer to execute the notification to the user.

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