JP3599226B2 - Article management system and terminal - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an article management system, and more particularly to an article management system for managing articles stored in a room.
[0002]
[Prior art]
In a museum or art museum, in order to manage the collection, it is common to list the inventory of the collection on a ledger or a card, or use a database that stores the inventory of the collection. As a method of associating the actual item of the collection with the inventory, for example, a method of attaching a bar code for identifying the collection to the collection has been adopted.
[0003]
Further, there is a method of reproducing a sound or the like that explains the collection when a visitor or the like approaches the collection on display, and specifically, for example, a method disclosed in Patent No. 02539507, There is a technique disclosed in JP-A-7-154322.
[0004]
The guidance system according to the method of Japanese Patent No. 02539507 receives code information indicating an exhibit, and among the guide information pre-recorded on a recording medium such as an optical disk, a commentary voice explaining the exhibit indicated by the received code information. Read and play back such data.
[0005]
Also, the individual receiving method according to the method of Japanese Patent Application Laid-Open No. 7-154322 is a method for receiving digital audio information related to a guide broadcast of an exhibit from a broadcast transmitter provided corresponding to the exhibit in a limited zone. To the machine. Then, the receiver reproduces the received digital audio information.
[0006]
[Problems to be solved by the invention]
However, in the above-described method of attaching a barcode to a collection, if the collection moves as a result of inventory, etc., and the position of the collection is not known to a manager of the collection, the collection is found. And the inventory of the holdings and the barcodes described above are practically unlikely to help find the holdings.
[0007]
Also, when searching for a collection, the above-described method of attaching a barcode to the collection requires that the barcode affixed to each collection must be read sequentially until the target collection is found. It becomes extremely complicated, or requires specialized knowledge to identify the desired collection without relying on barcodes.
[0008]
Further, in the method of Japanese Patent No. 02539507, since the data such as the commentary voice is not centrally managed, the procedure for changing the commentary of the exhibit becomes complicated. In addition, when the location of the target exhibit is unknown, it does not provide any information for knowing the position of the target exhibit. The same difficulties as in the above-described method of attaching the to the collection.
[0009]
Also, the method of Japanese Patent Application Laid-Open No. 7-154322 does not provide information for knowing the position of a target exhibit. Therefore, when specifying or searching for the position of an exhibit, the above-described method of attaching a barcode to a collection is used. Similar difficulties occur as in the technique of patent-02550707.
Further, according to the method disclosed in Japanese Patent Application Laid-Open No. Hei 7-154322, since a broadcast transmitter unidirectionally transmits digital audio information, a receiver that receives and reproduces the digital audio information transmits information required by a user of the receiver. Cannot be supplied at the timing required by the user.
[0010]
The present invention has been made in view of the above situation, and facilitates identification and retrieval of the position of an article, easily updates information stored in the article, and information requested by a user regarding the article at a timing requested by the user. An object management system is provided.
[0019]
[Means for Solving the Problems]
In order to achieve the above object, an article management system according to a first aspect of the present invention includes:
A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; An article management system comprising: an article information supply unit configured to supply article information related to the article to the terminal.
The terminal detection means,
Receiving means for receiving the identification information transmitted from the terminal identification means whose distance to the terminal detection means is equal to or less than a predetermined value, among the identification information transmitted by the terminal identification means in response to the request;
Identification information supply means for supplying the identification information received by the reception means to the article information supply means,
With
The article information supply means,
Article information storage means for storing the article and the article information in association with each other,
In response to the identification information being supplied from the terminal detection means, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and An article that provides the user with the article information on an article near the user by detecting the corresponding article information from the article information storage unit and supplying the detected article information to the specified terminal. Information provision means;
The number of the supplied identification information is counted for each terminal detecting means, and the count result is displayed as a list, thereby notifying the manager of the article information supplying means of the number of users near each article. Means for reporting the number of users by article;
Comprising,
It is characterized by the following.
[0020]
According to such an article management system, article information relating to an article to which the terminal detection means is attached is provided to the terminal in response to a request from the terminal detection means, and is output from the terminal. Further, the number of terminals detected by the terminal detecting means is specified for each terminal detecting means. Therefore, it can be easily grasped that the operator carrying the terminal is concentrated around which article, and it is easy to apply to, for example, grasping the congestion state in the museum.
[0021]
The article management system according to the second aspect of the present invention includes:
A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; An article management system comprising: an article information supply unit configured to supply article information related to the article to the terminal.
The terminal detection means,
Among the identification information transmitted in response to the request by the terminal identification means, receiving means for receiving the identification information transmitted from the terminal identification means, the distance to the terminal detection means is a predetermined value or less,
Identification information supply means for supplying the identification information received by the reception means to the article information supply means,
With
The article information supply means,
Article information storage means for storing the article and the article information in association with each other,
In response to the identification information being supplied from the terminal detection means, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and An article that provides the user with the article information on an article near the user by detecting the corresponding article information from the article information storage unit and supplying the detected article information to the specified terminal. Information provision means;
Stores history data in which the terminal, the terminal detection unit that has supplied the identification information of the terminal to the article information supply unit, and the order in which the terminal detection unit supplies the identification information are associated with each other. History data storage means;
With
The terminal includes a route notification instructing unit that instructs the article information supply unit to notify a route that the user has followed,
The article information providing unit detects the order corresponding to the terminal from the history data in response to an instruction from the route notification instruction unit, and supplies the detected order to the terminal to provide the user with the information. And a route notifying unit for notifying a route that the user has followed so far.
It is characterized by the following.
[0022]
According to such an article management system, article information relating to an article to which the terminal detection means is attached is provided to the terminal in response to a request from the terminal detection means, and is output from the terminal. Further, information indicating the order in which each terminal detecting means has detected the terminal in the past is supplied to the terminal. Therefore, for example, in a museum or the like, in order to navigate a visitor carrying a terminal, it is easy to apply the present invention to showing a route that the visitor has moved.
[0023]
The terminal further includes an article notification instruction unit that instructs the article information supply unit to notify the article that the user has not yet performed in the vicinity,
The article information providing unit, in response to an instruction from the article notification instruction unit, identifies the terminal detection unit that has not yet supplied the identification information of the terminal to the article information supply unit from the history data. An article notifying means for notifying the user of the article which the user has not yet visited by creating a list of the articles to which the detected terminal detecting means is attached and supplying the list to the terminal.
As a result, a terminal detection unit that has not yet detected a specific terminal is easily specified. Therefore, for example, an article to which the operator carrying the terminal has not yet approached is easily specified, and in a museum or the like, the visitors carrying the terminal can view the exhibits not yet viewed by the visitor. It is easy to apply to navigation and other purposes.
[0024]
The terminal identification means includes means for wirelessly transmitting the identification information,
The receiving means includes means for receiving the identification information wirelessly transmitted by the terminal identification means,
The terminal detection unit includes a unit that wirelessly transmits the identification information received by the reception unit to the article information supply unit,
In the terminal, the article information supply unit wirelessly transmitsThe article informationMeans for receiving the
The article information supply means,
Means for receiving the identification information wirelessly transmitted by the terminal detection means,
Retrieved from the article information storage meansThe article informationAnd a means for wirelessly transmitting the information to the terminal, the terminal identification means, the terminal detection means and the article information supply means need not be connected to each other by a cable or the like.
[0025]
The terminal identification means, the request from the terminal detection means, in response to a request from the terminal detection means the distance to the terminal identification means is less than or equal to a predetermined value, a transmission means for transmitting the identification information, It may be something.
As a result, the terminal detecting means selectively detects the terminal to which the terminal identifying means having a fixed positional relationship with itself is attached.
[0026]
The article information supply means,
According to the operation of the operator, terminal search key acquisition means for acquiring a terminal search key that specifies the terminal to be searched,
The identification information obtained from the terminal detection means determines whether the terminal search key obtained by the terminal search key obtaining means indicates the terminal specified by the terminal search key, and indicates that the terminal is indicative of the terminal. Means for outputting data for identifying the terminal detecting means which supplied the identification information determined to indicate the terminal specified by the terminal search key when the determination is made.
As a result, the position of the terminal to which the terminal identification means is attached is easily searched, and the search result is output from the article information supply means. Therefore, for example, even when the position of the operator carrying the terminal is lost, the current position of the lost operator is easily specified, and application to search for lost children is easy.
[0027]
Further, the congestion status grasping method according to the third aspect of the present invention is characterized in that:
A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; , An article information supply means for supplying article information about the article to the terminal, a congestion status grasping method in an article management system comprising:
A receiving step of receiving the identification information transmitted from the terminal identification means whose distance to the terminal detection means is equal to or less than a predetermined value, among the identification information transmitted in response to the request,
An identification information supply step of supplying the identification information received by the reception step to the article information supply means,
An article information storing step of storing the article and the article information in association with each other;
In response to the identification information being supplied from the terminal detection step, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and the specified article is An article that provides the user with the article information on an article in the vicinity of the user by detecting the corresponding article information from the article information storage step and supplying the detected article information to the specified terminal. Information provision process,
The number of the supplied identification information is counted for each terminal detecting means, and the count result is displayed as a list, thereby notifying the manager of the article information supplying means of the number of users near each article. A user number notification process for each article;
Comprising,
It is characterized by the following.
[0028]
According to such a congestion state grasping method, article information on an article to which the terminal detecting means is attached is provided to the terminal in response to a request from the terminal detecting means, and is output from the terminal. Further, the number of terminals detected by the terminal detecting means is specified for each terminal detecting means. Therefore, it can be easily grasped that the operator carrying the terminal is concentrated around which article, and it is easy to apply to, for example, grasping the congestion state in the museum.
[0029]
Further, the navigation method according to the fourth aspect of the present invention includes:
A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; , An article information supply means for supplying article information about the article to the terminal, a navigation method in an article management system comprising:
A receiving step of receiving the identification information transmitted from the terminal identification means whose distance to the terminal detection means is equal to or less than a predetermined value, among the identification information transmitted by the terminal identification means in response to the request,
An identification information supply step of supplying the identification information received by the reception step to the article information supply means,
An article information storing step of storing the article and the article information in association with each other;
In response to the identification information being supplied from the terminal detection means, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and An article that provides the user with the article information on an article in the vicinity of the user by detecting the corresponding article information from the article information storage step and supplying the detected article information to the specified terminal. Information provision process,
Stores history data in which the terminal, the terminal detection unit that has supplied the identification information of the terminal to the article information supply unit, and the order in which the terminal detection unit supplies the identification information are associated with each other. A history data storage step;
A route notification instruction step of instructing the article information supply unit of a notification of a route that the user has followed,
In response to the instruction by the route notification instruction step, the order corresponding to the terminal is detected from the history data, and the detected order is supplied to the terminal. A route notification step of notifying a route that has been followed,
Comprising,
It is characterized by the following.
[0030]
According to such a navigation method, article information on an article to which the terminal detecting means is attached is provided to the terminal in response to a request from the terminal detecting means, and is output from the terminal. Further, information indicating the order in which each terminal detecting means has detected the terminal in the past is supplied to the terminal. Therefore, for example, in a museum or the like, in order to navigate a visitor carrying a terminal, it is easy to apply the present invention to showing a route that the visitor has moved.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an article management system according to an embodiment of the present invention will be described with reference to an example of a document management system that provides visitors with explanations of items in a storage.
[0033]
(First Embodiment)
FIG. 1 shows a physical configuration of a material management system according to a first embodiment of the present invention.
As shown, the material management system includes a server 1, a material management database 2, a terminal 3, a detector 4, and non-contact tags 5a to 5d.
[0034]
The server 1 includes a WWW (World Wide Web) server and a wireless communication device. As described later, the server 1 transmits contents at a logical position indicated by a URL (Uniform Resource Locator) wirelessly transmitted from the terminal 3 from the material management database 2. A process of reading and wirelessly transmitting to the terminal 3 via the own wireless communication device is performed. In addition, an operation described later is performed according to an instruction wirelessly transmitted from the terminal 3.
[0035]
The material management database 2 is connected to the server 1 and stores a sentence explaining each of the items in the storage and contents representing an illustration. The content stored in the material management database 2 is logically stored in the storage area of the material management database 2 at a logical position specified by a single URL for each item that describes the same collection. ing. (However, the URL that can specify the logical position need not be one.)
[0036]
The terminal 3 is a terminal to be carried by a visitor of the storage room or the like. The terminal 3 includes a control unit including a CPU (Central Processing Unit), a storage unit including a RAM (Random Access Memory) and a hard disk device, an input unit including a touch panel, an output unit including a liquid crystal display, and the like. A communication device is provided, and the detector 4 is mounted.
[0037]
The control unit of the terminal 3 executes a program for causing the terminal 3 to function as a WWW browser, and transmits a URL to the server 1 via the wireless communication device of the terminal 3 so that the terminal 3 performs processing described later. The content transmitted and transmitted by the server 1 is received via the wireless communication device and displayed on the output unit of the terminal 3. Further, the identification code of the non-contact tags 5a to 5d notified by the detector 4 is acquired.
The input unit of the terminal 3 supplies information according to the operation of a visitor carrying the terminal 3 to the control unit of the terminal 3. In addition, the terminal 3 performs an operation described later.
[0038]
The storage unit of the terminal 3 is used as a work area of the control unit of the terminal 3, and stores a tag management table and a URL correspondence table.
The tag management table is a table in which the terminal 3 stores two of the latest identification codes among the identification codes notified from the detector 4, a current tag field storing the latest identification code, and a second new identification code. And a tag field immediately before storing the code.
The URL correspondence table stores, for each of the non-contact tags 5a to 5d, an identification code assigned to the non-contact tag and a content that describes the holdings to which the non-contact tag is attached. This is a table that stores URLs for specifying positions in association with each other.
[0039]
The detector 4 is mounted on the terminal 3 and is to be carried together with the terminal 3 by visitors to the storage. The detector 4 emits a radio wave (hereinafter, referred to as a “detection wave”) for detecting the non-contact tags 5a to 5d, as described later. Then, when the non-contact tags 5a to 5d emit radio waves (hereinafter, referred to as "reply waves") indicating that the detection waves have been received, the non-contact tags receive the reply waves and identify the non-contact tags that have emitted the reply waves. Then, the terminal 3 is notified of the identification code representing the specified non-contact tag.
[0040]
The non-contact tags 5a to 5d are, for example, substantially the same as each other, and each include a wireless communication device and a memory. When the non-contact tags 5a to 5d receive the detection wave wirelessly transmitted by the detector 4 by their respective wireless communication devices, they read the identification codes for identifying themselves, which are stored in advance in their respective memories, and read the read identification codes. Is emitted from each wireless communication device.
[0041]
The return wave emitted by each of the non-contact tags 5a to 5d is specifically, for example, a carrier wave of a frequency assigned to each of them is subjected to modulation by a spread spectrum method using a respective identification code as a signal wave, and as a result, Includes the generated modulated wave.
[0042]
The non-contact tags 5a to 5d are attached to mutually separate items in a storage. For this reason, the identification code for identifying each of the non-contact tags 5a to 5d also identifies the collection to which each of the non-contact tags 5a to 5d is attached.
[0043]
(Operation of First Embodiment)
Next, the operation of the material management system will be described.
(Explanation of the collection)
FIG. 2A is a flowchart showing a process executed by the detector 4 for explaining the possession. FIG. 2B is a flowchart illustrating a process executed by the terminal 3 for explaining the possession.
In the following, it is assumed that the detector 4 receives a reply wave emitted from one of the non-contact tags 5a to 5d whose distance from itself is substantially equal to or less than a predetermined value.
[0044]
A visitor who wants to receive a commentary on the possession being exhibited or the like carries the terminal 3 equipped with the detector 4 and approaches the possession to be commented on.
The detector 4 emits a detection wave for detecting the non-contact tags 5a to 5d at regular intervals (FIG. 2A, step S101), and emits a detection wave until a predetermined period elapses after the emission of the detection wave. During this time, it waits for the non-contact tags 5a to 5d to transmit a reply wave indicating that the detection wave has been received.
[0045]
Among the non-contact tags 5a to 5d, the one that has received the detection wave reads the identification code identifying itself from the memory, and emits a reply wave representing the read identification code.
Then, the detector 4 receives the reply wave emitted by the non-contact tags 5a to 5d, demodulates the received reply wave, acquires the identification code represented by the reply wave, and notifies the terminal 3 of the identification code (step S102). ), And the process returns to step S101.
[0046]
The detector 4 receives a reply wave emitted from one of the non-contact tags 5a to 5d whose distance from itself is substantially equal to or less than a predetermined value. Accordingly, in step S102, the detector 4 notifies the terminal 3 of the identification code of the non-contact tag 5a to 5d whose distance from itself is substantially equal to or less than a certain value.
[0047]
On the other hand, the terminal 3 waits for being notified of the identification code from the detector 4 (FIG. 2B, step S110). Then, when the identification code is notified (step S111), if there is an identification code stored in the current tag field of the tag management table stored therein, it is transcribed to the immediately preceding tag field of the tag management table, and in step S111. The notified identification code is written in the current tag field (step S112). In step S112, the terminal 3 erases the identification code already written in the immediately preceding tag field, and erases the identification code transferred from the current tag field to the immediately preceding tag field from the current tag field.
[0048]
Next, the terminal 3 determines whether or not the identification code stored in the current tag field of the tag management table and the identification code stored in the immediately preceding tag field identify the same non-contact tag. Is determined (step S113).
[0049]
If it is determined that they are the same, the terminal 3 searches the URL correspondence table using the identification code currently stored in the tag field as a key, and searches for the URL associated with the identification code used as the key. Then, the searched URL is wirelessly transmitted to the server 1 (step S114). Upon receiving the wirelessly transmitted URL, the server 1 reads the content indicated by the URL from the material management database 2 and wirelessly transmits the content to the terminal 3.
[0050]
The content which the server 1 wirelessly transmits to the terminal 3 represents a sentence or an illustration explaining a possession to which the non-contact tag indicated by the identification code stored in the current tag field of the terminal 3 is attached. Since the non-contact tag indicated by the identification code currently stored in the tag field is closest to the detector 4, the server 1 ends up being closest to the visitor carrying the terminal 3 and the detector 4. The contents explaining the located possession are wirelessly transmitted to the terminal 3.
Upon receiving the content wirelessly transmitted from server 1, terminal 3 displays the received content (step S115), and returns the process to step S110.
[0051]
On the other hand, if it is determined in step S113 that the two identification codes stored in the current tag field and the immediately preceding tag field identify different contactless tags, the terminal 3 operates the terminal 3 itself. Then, for example, it is determined whether or not the visitor has supplied to himself / herself a URL indicating the content to be viewed, and has instructed display of the content (step S116).
[0052]
If it is determined that no instruction has been made, the process returns to step S110. If it is determined that the instruction has been given, the URL supplied by the visitor is wirelessly transmitted to the server 1, the content indicated by the URL is received from the server 1, and a process of displaying the content is performed (step S117). When the process ends, the process returns to step S110.
[0053]
As a result of the above-described processing being performed, the visitor carrying the terminal 3 and the detector 4 detects the reply wave emitted by the non-contact tag attached to the collection located closest to the visitor. When the terminal 3 stays at the receivable position for a certain period of time or more, the terminal 3 displays the content explaining the possession.
[0054]
Note that the material management system according to the first embodiment is not limited to the above.
For example, the server 1, the terminal 3, the detector 4, and the non-contact tags 5a to 5d do not need to perform data exchange by so-called radio waves, but, for example, perform data exchange using infrared rays. You may.
[0055]
Also, the number of non-contact tags is arbitrary as long as each of them is attached to a separate collection and is assigned a unique identification code to each of them. There may be a plurality of detectors as long as the separate detectors 4 are mounted on each of them.
[0056]
Further, the processing performed by the terminal 3 in step S117 may be any processing performed according to the operation of the person who operates the terminal 3. Therefore, in step S116, it may be determined whether or not an operator of the terminal 3 has instructed the terminal 3 to execute an arbitrary process. In this case, when the terminal 3 determines in step S116 that there is an instruction of the corresponding process, the terminal 3 may shift the process to step S117.
[0057]
In addition, the detector 4 does not necessarily need to receive only the return wave emitted from the non-contact tags 5a to 5d whose distance from the self is substantially equal to or less than a certain value.
For example, even if the non-contact tags 5a to 5d receive the detection waves emitted by the detector 4 when the distance from each of them to the detector 4 is substantially equal to or less than a fixed value, In step S102 described above, the terminal 3 is notified of the identification code of the non-contact tags 5a to 5d whose distance from themselves is substantially equal to or less than a fixed value.
[0058]
In addition, the material management system may specify the current position of a visitor to the storage.
In this case, specifically, for example, the server 1 is configured by a CRT (Cathode Ray Tube) or the like and includes a display device that displays an image. Then, when the storage manager operates the server 1 and instructs the server 1 to specify the position of the terminal, the server 1 transmits the data indicated by the URL wirelessly transmitted by the terminal in step S114 described above to any one of the terminals. It is specified whether the item is a description of the item, and characters and symbols representing the item are displayed on a display device.
Thereby, this material management system displays the position of the stored item closest to the position where the occupant of the storage is actually staying as the current position of the entrant.
[0059]
(Inspection of holdings)
In addition, in the document management system, when an administrator or the like who wants to check the collections for inventory taking, etc., operates the terminal 3 and instructs execution of the collection, for example, as shown in FIG. The process of checking the possession may be executed.
[0060]
However, when this material management system performs the processing shown in FIG. 3, the detector 4 shall also receive a reply wave emitted from any of the non-contact tags 5a to 5d in the storage, and Each of 5a to 5d receives a detection wave emitted by the detector 4.
[0061]
When the material management system performs the processing shown in FIG. 3, the material management database 2 stores the same number of inventory flags as the number of items to which the non-contact tags 5a to 5d are attached. The stock flag is a flag associated with each of the holdings to which the non-contact tags 5a to 5d are attached, and indicates whether or not the holdings associated with each of them are in stock in the storage. .
[0062]
Specifically, for example, when the stock flag is set (that is, the logical value is “1”), it indicates that the possession corresponding to the stock flag is in stock, and is reset ( That is, when the logical value is “0”, it indicates that the product is not in stock.
[0063]
When the material management system performs the processing illustrated in FIG. 3, the detector 4 performs substantially the same processing as the processing in steps S101 and S102 described above.
However, since the detector 4 emits a detection wave of such intensity that all of the non-contact tags 5a to 5d can receive the detection wave, and also receives a reply wave emitted by any of the non-contact tags, The detector 4 notifies the terminal 3 of the identification codes of all the non-contact tags in the storage.
[0064]
On the other hand, the terminal 3 waits for being notified of the identification code from the detector 4 (FIG. 3, step S210). Then, when notified of the identification code (step S211), it is determined whether or not there is any tag that is not stored in the current tag field of the tag management table stored therein (step S212).
[0065]
If it is determined that there is no terminal, the terminal 3 shifts the processing to Step S214. On the other hand, if it is determined that there is, an identification code not currently stored in the tag field is wirelessly transmitted to the server 1 (step S213), and the process proceeds to step S214.
[0066]
Upon receiving the identification code wirelessly transmitted in step S213, the server 1 accesses the material management database 2 and is associated with the received identification code among the stock flags stored in the material management database 2. Set things. Then, the server 1 wirelessly transmits to the terminal 3 status data indicating whether the stock flag associated with each identification code is set or reset.
[0067]
On the other hand, in step S214, the terminal 3 receives the status data wirelessly transmitted by the server 1, and based on the received status data, stores the inventory to which the non-contact tag indicated by each identification code is attached. Specify whether or not.
Specifically, for each identification code, if the inventory flag associated with the identification code is set, it is determined that the possession with the non-contact tag indicated by the identification code is in stock. Identify and, if reset, identify as out of stock.
[0068]
Then, the terminal 3 displays an image indicating the specified result (that is, an image indicating whether or not the stock having the non-contact tag indicated by each identification code is in stock) (step S215). To end.
[0069]
As a result of performing the above-described processing, data indicating whether or not the possession to which the non-contact tag is attached is actually stored in the storage is recorded in the material management database 2 and displayed on the terminal 3.
[0070]
(History management of collection information)
Further, in this material management system, for example, an administrator or the like who wants to repair the collection and write the result of the repair into the material management database 2 operates the terminal 3 to execute the history management of the information of the collection. May be executed, for example, the process of managing the history of the collection shown in FIGS. 4A and 4B may be executed.
[0071]
Note that, even when the material management system performs the processing shown in FIGS. 4A and 4B, the detector 4 also sends a reply wave emitted by one of the non-contact tags 5a to 5d in the storage. , And each of the non-contact tags 5a to 5d receives a detection wave emitted by the detector 4.
[0072]
However, when the material management system performs the processing shown in FIGS. 4A and 4B, the memories of the non-contact tags 5a to 5d and the material management database 2 store history data stored by the processing described later. Shall be.
When the non-contact tags 5a to 5d receive the predetermined command transmitted wirelessly, the contactless tags 5a to 5d transmit the history data stored in their respective memories to the detector 4 by wireless in response to the command.
[0073]
The content of the history data stored in the memories of the non-contact tags 5a to 5d may be arbitrary, and is, for example, data representing the repair history of the collection to which the non-contact tag including the memory is attached. May be.
[0074]
The history data stored in the material management database 2 includes, for example, all the history data stored in the memories of the non-contact tags 5a to 5d. The history data stored in the material management database 2 is logically specified by a single URL in the storage area of the material management database 2 for each of the histories such as repair of the same collection. Stored in a logical location.
[0075]
Then, the storage unit of the terminal 3 stores the history URL correspondence table. The history URL correspondence table stores, for each of the non-contact tags 5a to 5d, an identification code assigned to the non-contact tag and history data substantially the same as that stored by the non-contact tag. This is a table that stores URLs that specify the logical positions that are present in association with each other.
[0076]
When the material management system performs the processing shown in FIGS. 4A and 4B, the detector 4 requests the non-contact tags 5a to 5d to wirelessly transmit the history data stored therein. The command is wirelessly transmitted to the non-contact tags 5a to 5d (FIG. 4A, step S301), and waits for the history data to be wirelessly transmitted from the non-contact tags 5a to 5d.
[0077]
Among the non-contact tags 5a to 5d, those that have received the command wirelessly transmitted by the detector 4 in step S301 read history data stored by themselves from the memory in response to the received command, and wirelessly read the read history data. Send.
Upon receiving the history data wirelessly transmitted by the non-contact tags 5a to 5d, the detector 4 supplies the received history data to the terminal 3 (Step S302), and returns the process to Step S301.
[0078]
The terminal 3 waits for the supply of the history data from the detector 4 (step S310). When the history data is supplied, the terminal 3 updates the image representing the supplied history data and updates the history data to the administrator or the like. Is displayed (step S311).
[0079]
Then, when the administrator or the like operates the terminal 3 itself, designates a non-contact tag that stores the history data to be updated, and supplies new history data to be stored in the non-contact tag to the terminal 3. No. 3 changes the image displayed in step S311 to an image representing new history data supplied to itself. Further, when the administrator or the like notifies the terminal 3 that the input of the history data to be updated is completed, the terminal 3 shifts the processing to Step S312.
[0080]
Then, in step S312, the terminal 3 determines whether or not there is new history data supplied to itself by the administrator or the like. If not, the terminal 3 ends the process. On the other hand, if it is determined that there is, the terminal 3 wirelessly transmits the corresponding new history data to the non-contact tag designated by the administrator or the like as the non-contact tag to store the history data (step S313).
[0081]
Next, the terminal 3 searches the history URL correspondence table using the identification code of the contactless tag of the other party that wirelessly transmitted the history data in step S313 as a key, and the history data of the contactless tag indicated by the identification code used as the key is The URL of the stored logical position is retrieved (step S314). The searched URL indicates a logical position where the history data wirelessly transmitted to the non-contact tags 5a to 5d in step S313 should be stored.
[0082]
Then, the terminal 3 transmits the history data wirelessly transmitted to the non-contact tags 5a to 5d in step S313 and the URL of the logical position where the history data is to be stored (that is, the history data of the non-contact tag of the other party wirelessly transmitted) The URL of the logical position to be stored) is wirelessly transmitted to the server 1 in association with each other (step S315), and the process ends.
[0083]
Upon receiving the history data and the URL wirelessly transmitted in step S314, the server 1 accesses the storage area at the logical position indicated by the received URL among the storage areas of the material management database 2 and receives the data. Overwrite history data.
[0084]
As a result of the above-described processing being performed, the history data stored in each non-contact tag is updated according to the operation of the administrator or the like, and the updated history data is also recorded in the material management database 2.
[0085]
(Search for holdings)
Further, in the material management system, for example, an administrator or the like who wants to search for a collection operates the terminal 3 to supply data specifying the collection to be searched to the terminal 3, and When execution of information history management is instructed, for example, a process of searching for a possession shown in FIG. 5 may be executed.
Note that, even when the material management system performs the processing shown in FIG. 5, the detector 4 also receives a reply wave emitted from any of the non-contact tags 5a to 5d in the storage. Each of the tags 5a to 5d receives a detection wave emitted by the detector 4.
[0086]
When the material management system performs the processing shown in FIG. 5, an administrator or the like who wants to search for a collection operates the terminal 3 and supplies data specifying the collection to be searched to the terminal 3. When instructing to execute a search for the possession indicated by the data (step S410), the terminal 3 waits for notification of the identification code from the detector 4 (step S411).
[0087]
On the other hand, the detector 4 performs substantially the same processing as the above-described processing of steps S101 and S102, and receives the identification codes of all the non-contact tags in the storage from the non-contact tags 5a to 5d, The terminal 3 is notified of the received identification code.
When notified of the identification code from the detector 4 (step S412), the terminal 3 is attached to the collection indicated by the data supplied by the administrator or the like in step S410 among the identification codes notified from the detector 4 It is determined whether or not there is a tag indicating the non-contact tag (step S413).
If it is determined that the item is not found, the terminal 3 displays an image indicating that the item to be searched is not in stock (step S414), and ends the process. If it is determined that there is, an image indicating the corresponding identification code is displayed (step S415), and the process ends.
[0088]
As a result of performing the above-described processing, data indicating whether or not the possession to which the non-contact tag is attached is actually stored in the storage is recorded in the material management database 2 and displayed on the terminal 3.
Note that the terminal 3 may wirelessly transmit information representing the determination result in step S413 to the server 1, or the server 1 may record information representing the determination result in the material management database 2, Arbitrary data stored in the material management database 2 may be updated to reflect the determination result.
[0089]
When performing the process of checking the collection shown in FIG. 3, the process of managing the history of the collection shown in FIG. 4, and the process of searching for the collection shown in FIG. Of 5 to 5d, the one whose distance from itself is substantially equal to or less than a certain value may receive a return wave emitted. In this case, while the visitor or the like carries the terminal 3 and the detector 4 and moves in the storage, it repeatedly executes any one of the processes in FIGS. The return waves emitted by 5a to 5d may be received in any of the repeatedly executed processes.
[0090]
Alternatively, when performing the processing of FIGS. 3 to 5, the non-contact tags 5 a to 5 d receive the detection waves emitted by the detector 4 when the distance from each of them to the detector 4 is substantially equal to or less than a fixed value. May be used. In this case, while the visitor or the like carries the terminal 3 and the detector 4 and moves in the storage, it repeatedly executes any one of the processes in FIGS. What is necessary is just to let 5a-5d receive the detection wave which the detector 4 emits in any process performed repeatedly.
[0091]
(Shipping management of possession)
In addition, the material management system may execute, for example, the outgoing management process shown in FIG.
However, when the material management system executes the processing of FIG. 6, the material management system has at least one of the following configurations (1) and (2), and (3) and (4) below. Has at least one of the following configurations.
[0092]
That is, this material management system
(1) The detector 4 receives a return wave emitted by a non-contact tag other than the non-contact tag that has entered a predetermined area (exit area) around the exit of the storage, and / or
(2) make the non-contact tags 5a to 5d receive a detection wave emitted by the detector 4 when each of them enters the exit area,
And
(3) The detector 4 receives a return wave emitted by a non-contact tag other than the non-contact tag that has entered a predetermined area (entrance area) around the entrance of the storage, and / or
(4) make the non-contact tags 5a to 5d receive a detection wave emitted by the detector 4 when each enters the entrance area,
Shall be.
[0093]
Further, the detector 4 specifies whether the non-contact tag which has emitted the return wave received by itself has emitted the return wave from the exit area or the entrance area, and information indicating the location of the identified emission (in / out). Identification data) to the terminal 3 in association with an identification code obtained by demodulating the return wave.
[0094]
When the material management system executes the processing in FIG. 6, the material management database 2 stores a delivery flag, a delivery approval flag, and a storage approval flag.
As described above, the retrieval flag is a flag indicating whether or not the possessed item associated with the self has been retrieved.
The delivery approval flag is a flag indicating whether or not the storage manager has been given a release approval for the holdings associated with the storage device, and the storage approval flag is associated with the storage device. This is a flag indicating whether or not the storage has been approved for storage by a storage manager or the like.
[0095]
The delivery approval flag and the storage approval flag are set by the processing described later, or are set or reset in advance by a storage manager or the like.
The retrieval approval flag indicates that, for example, when the self is set (or reset), the retrieval of the holdings associated with the self is approved (or not approved). Similarly, the storage approval flag indicates that, for example, when the self is set (or reset), the storage of the holdings associated with the self is approved (or not approved).
[0096]
When the material management system executes the processing in FIG. 6, the detector 4 performs substantially the same processing as the processing in steps S101 and S102 described above.
However, the detector 4 receives a return wave emitted by the non-contact tag that has entered the exit area of the storage, and / or the non-contact tags 5a to 5d have the detector 4 fired when entering the exit area. Receiving the detected wave. In addition, the detector 4 receives a return wave emitted by a non-contact tag entering the entrance area of the storage, and / or the non-contact tags 5a to 5d are fired by the detector 4 when entering the entrance area. Receiving the detected wave.
[0097]
Therefore, after all, the detector 4 notifies the terminal 3 of the identification code of the non-contact tag attached to the item stored in either the exit area or the entrance area of the storage.
In addition, the detector 4 associates the entry / exit identification data indicating whether the non-contact tag indicated by the acquired identification code has entered the exit area or the entrance area with the identification code and transmits the data to the terminal 3. Notice.
[0098]
On the other hand, the terminal 3 waits for being notified of the identification code and the entry / exit identification data from the detector 4 (step S510). When the identification code and the entry / exit identification data are notified, the notified identification code is wirelessly transmitted to the server 1 (step S511).
[0099]
Upon receiving the identification code, the server 1 accesses the material management database 2 and, among the delivery approval flag and the storage approval flag stored in the material management database 2, the one associated with the received identification code. , And wirelessly transmits to terminal 3 status data indicating whether the terminal is set or reset.
[0100]
The terminal 3 receives the status data indicating the status of the outgoing approval flag and the incoming approval flag transmitted wirelessly by the server 1, and based on the received status data, the non-contact indicated by the identification code notified by the detector 4 to itself. It is determined whether or not the possession to which the tag is attached has been approved for exit or entry (step S512).
[0101]
Then, when the terminal 3 determines that the exit approval or the entrance approval has been obtained, the terminal 3 shifts the processing to step S514.
On the other hand, if it is determined that neither the exit approval nor the entrance approval has been obtained, the entry / exit identification data notified from the detector 4 in step S511 indicates which of the exit area and the entrance area,
(A1) In the case of indicating the exit area, an image is displayed that warns that a possession that has not been approved for exit is about to be exited,
(B1) In the case of indicating the entrance area, an image is displayed to warn that a possession that has not been approved for entry is about to be entered (Step S513).
[0102]
Then, for example, when the administrator or the like operates the terminal 3 and supplies an instruction to the terminal 3 to approve the leaving or entering of the possession subject to the warning, the process proceeds to step S514. .
[0103]
In step S514, the terminal 3 notifies the detector 4 that the non-contact tag attached to the non-contact tag indicated by the identification code has been sent or received, and the entry / exit identification notified in step S511. The data and the data are wirelessly transmitted to the server 1, and the processing of the entry / exit management ends.
[0104]
Upon receiving the notification and the entry / exit identification data wirelessly transmitted from the terminal 3 in step S514, the server 1 accesses the material management database 2.
And
(A2) If the entry / exit identification data received by the user indicates the exit area, the exit approval flag stored in the material management database 2 that is associated with the possession indicated by the notification received by the user. And resets the stock flag stored in the material management database 2 that is associated with the possession indicated by the notification received by the user. Also,
(B2) If the entry / exit identification data received by the user indicates the entrance area, the entry / exit identification data stored in the material management database 2 is associated with the possession indicated by the notification received by the user. Set what you have.
[0105]
As a result of the above-described processing, each time a possession to which the non-contact tag is attached passes through the exit and the entrance, it is checked whether the possession has been approved for exit or entry, and then the exit or entry is performed. Is recorded in the material management database 2.
[0106]
(Second embodiment)
In the first embodiment described above, the non-contact tags 5a to 5d are attached to the items in the storage and the detector 4 is attached to the terminal 3. May be attached to the collection. Hereinafter, a second embodiment of the present invention will be described in which a non-contact tag is attached to a terminal and a detector is attached to a collection.
[0107]
FIG. 7 shows a physical configuration of a material management system according to the second embodiment of the present invention. As shown, this material management system includes a server 1, a material management database 2, terminals 3a to 3d, detectors 4a to 4d, and non-contact tags 5a to 5d.
[0108]
The server 1 has substantially the same configuration as that in the first embodiment, and performs an operation described below in accordance with an instruction wirelessly transmitted from the terminals 3a to 3d. However, the server 1 stores an ID management table. The ID management table is a table that stores identification codes of the non-contact tags 5a to 5d, which are notified from the detectors 4a to 4d in a process described later by the server 1, and is associated with the detectors 4a to 4d on a one-to-one basis. It consists of multiple records. The data stored in the ID management table is periodically updated according to processing described later.
[0109]
Each record of the ID management table has a detector name field for storing the name of the detector associated with the record, and the detector has emitted a reply wave in response to the most recently emitted detection wave. The current ID field for storing the identification code of the non-contact tag and the immediately preceding ID field for storing the identification code of the non-contact tag which has emitted a reply wave in response to the second newly emitted detection wave by the detector. include.
[0110]
Further, in the second embodiment, the server 1 stores a URL correspondence table. The URL correspondence table stored in the server 1 specifies, for each of the detectors 4a to 4d, the name of the detector and the logical position where the content describing the possession to which the detector is attached is stored. Are stored in association with each other.
[0111]
The material management database 2 is substantially the same as that in the first embodiment, and is connected to the server 1.
Each of the terminals 3a to 3d has, for example, substantially the same configuration as the terminal 3 in the first embodiment, and executes an operation described later.
[0112]
The detectors 4a to 4d have substantially the same configuration as the detector 4 in the first embodiment.
However, each of the detectors 4 a to 4 d is attached to a separately stored item in the storage, and is connected to the server 1. Then, the server 1 is notified of the identification code indicating the non-contact tag specified based on the reply wave received by the server 1 itself.
[0113]
Each of the non-contact tags 5a to 5d is substantially the same as that in the first embodiment.
However, the non-contact tags 5a, 5b, 5c and 5d are attached to the terminals 3a, 3b, 3c and 3d. Therefore, the identification code for identifying each of the non-contact tags 5a to 5d also identifies the terminals 3a to 3d to which each of the non-contact tags 5a to 5d is attached.
[0114]
(Operation of Second Embodiment)
Next, the operation of the material management system will be described.
(Update of ID management table)
This material management system updates the contents of the ID management table by repeatedly executing the process of updating the ID management table shown in FIGS. 8A and 8B during startup.
FIG. 8A is a flowchart illustrating a process executed by each of the detectors 4a to 4d for updating the ID management table. FIG. 8B is a flowchart illustrating a process executed by the server 1 for updating the ID management table.
[0115]
More specifically, each of the detectors 4a to 4d emits substantially the same detection wave as that in the first embodiment at regular intervals (FIG. 8A, step S601), and outputs the detection wave. Until the predetermined period elapses after the issuance of the ID tag, the wireless communication device waits until the identification code is wirelessly transmitted from the non-contact tags 5a to 5d. Then, each of the detectors 4a to 4d receives the identification signal wirelessly transmitted by the non-contact tag 5a to 5d, notifies the server 1 of the received identification code (Step S602), and returns the process to Step S601.
[0116]
On the other hand, the server 1 waits for being notified of the identification code from each of the detectors 4a to 4d (FIG. 8B, step S610). Then, when the identification codes are notified from all the detectors 4a to 4d (step S611), the ID management table stored by itself is updated based on the notified identification codes (step S612), and the process is terminated. Return to S610.
[0117]
Specifically, in step S612, for each record in the ID management table, if there is an identification code stored in the current ID field, the server 1 transcribes the record to the immediately preceding ID field in the tag management table. Then, in step S611, each identification code notified from each of the detectors 4a to 4d is written in the current ID field of the record in which the name of the detector that has notified the identification code is stored in the detector name field.
In step S612, the server 1 erases the identification code already written in the immediately preceding ID field, and erases the identification code transferred from the current ID field to the immediately preceding ID field from the current ID field.
[0118]
By the processing described above, the ID management table is updated.
Then, for example, each of the detectors 4a to 4d emits a return wave emitted by one of the non-contact tags 5a to 5d that is located around itself (that is, the distance from the self is substantially equal to or less than a certain value). And / or all of the non-contact tags 5a to 5d receive a detection wave emitted by one of the detectors 4a to 4d located in the vicinity of itself. In this case, when the visitor carries any of the terminals 3a to 3d and approaches the collection to be explained, the contactless tag attached to the terminal carried by the visitor is the object of the explanation. Enter the area around the detector attached to the collection. As a result, the detector receives a reply wave emitted by the non-contact tag attached to the terminal carried by the visitor.
[0119]
(Explanation of the collection)
On the other hand, this material management system executes the process of explaining the collection shown in FIGS. 9A and 9B in parallel with the processes of FIGS. 8A and 8B.
FIG. 9A is a flowchart illustrating a process executed by the server 1 for explaining a possession. FIG. 9B is a flowchart showing a process executed by each of the terminals 3a to 3d for explaining the possession.
In the following, all of the detectors 4a to 4d receive a reply wave emitted by one of the non-contact tags 5a to 5d that is located near the same, and / or the non-contact tags 5a to 5d. 5d receives a detection wave emitted by one of the detectors 4a to 4d located in the vicinity of itself.
[0120]
First, for each record in the ID management table, if the current ID field of the record stores an identification code substantially different from that stored in the immediately preceding ID field of the record, Such an identification code is specified (step S711).
[0121]
Then, the server 1 wirelessly transmits a trigger signal for urging the start of data exchange to one of the terminals 3a to 3d to which the non-contact tag indicated by the specified identification code is attached (step S712). The identification of the terminal to which the non-contact tag indicated by the specified identification code is attached is performed, for example, by referring to a table storing the identification codes of the non-contact tags 5a to 5d in correspondence with the names of the terminals. Just do it.
[0122]
On the other hand, when the terminals 3a to 3d are activated (step S721), the terminals 3a to 3d determine whether or not a trigger signal wirelessly transmitted by the server 1 has been received (step S722). If not, the process moves to step S724.
[0123]
In step S723, the terminals 3a to 3d transmit a predetermined URL (hereinafter, referred to as an automatic updating URL) to be read to update the description of the collection to the server 1, and the process proceeds to step S726.
[0124]
On the other hand, in step S724, the terminals 3a to 3d determine whether or not the visitor operates the terminal and designates the URL of the data stored in the material management table 2. Then, if it is determined that no designation has been made, the process returns to step S722. If it is determined that designation has been made, the designated URL is transmitted to the server 1 (step S725), and the process proceeds to step S726.
[0125]
The server 1 that has wirelessly transmitted the trigger signal in step S712 next determines whether or not the URL has been wirelessly transmitted from the terminals 3a to 3d (step S713). If it is determined that the URL has not been wirelessly transmitted, the process proceeds to step S711. return. On the other hand, if it is determined that the URL has been transmitted wirelessly, it is determined whether or not the URL transmitted wirelessly is the URL for automatic updating (step S714).
[0126]
If it is determined that the URL is not the URL for automatic update, the content stored at the logical position indicated by the wirelessly transmitted URL is read from the material management database 2 and wirelessly transmitted to the terminal that wirelessly transmitted the URL (step S717). ), And returns the process to step S711.
[0127]
On the other hand, if the server 1 determines that the URL is the automatic update URL, the server 1 stores the identification code of the non-contact tag attached to the terminal that wirelessly transmitted the automatic update URL in the current ID field of any record of the ID management table. Is specified, and the name of the detector stored in the detector name field of the specified record is read (step S715).
[0128]
Then, using the read name as a key, a URL correspondence table is searched, a URL associated with the name as the key is searched, and the content indicated by the searched URL is read from the material management database 2 and used for automatic updating. The URL is wirelessly transmitted to the terminal that transmitted the URL (step S716), and the process returns to step S711.
[0129]
The content transmitted wirelessly by the server 1 in step S716 represents a sentence or an illustration explaining the possession to which the detector whose name has been read in step S715 is attached. The detector is substantially the closest to the terminal that transmitted the automatic update URL. Therefore, the server 1 eventually wirelessly transmits to the terminal a content describing the possession located closest to the visitor carrying the terminal.
[0130]
On the other hand, the terminal that has received the content wirelessly transmitted by the server 1 in step S716 or S717 displays the received content (step S726), and returns the process to step S722.
Note that, when the URLs are wirelessly transmitted from a plurality of terminals, the server 1 receives each of the wirelessly transmitted URLs, and performs the processes in and after S714 in parallel with each of the received URLs.
[0131]
As a result of the above-described processing being performed, the visitor carrying any of the terminals 3a to 3d stays near the possession for a certain period of time, and the contactless tag attached to the terminal carried by the visitor is Upon receiving the detection wave emitted by the detector attached to the article, the terminal carried by the visitor displays the content explaining the possession.
[0132]
(Visitor location search)
In order to know the current location of a specific visitor, the storage manager operates the server 1 and supplies information indicating the terminal carried by the visitor to be searched to the server 1, and FIG. The instruction to execute the processing of the visitor location search shown in FIG.
However, when the material management system performs the processing of FIG. 10, the server 1 is configured by a CRT (Cathode Ray Tube) or the like and includes a display device that displays an image.
[0133]
When the process of searching for a visitor position is started, the server 1 waits for being notified of an identification code from each of the detectors 4a to 4d executing the processes of steps S601 and S602 (step S810).
Then, when the identification codes are notified from all the detectors 4a to 4d (step S811), among the notified identification codes, the identification codes are attached to the terminals carried by the search target visitors carried by the administrator. It is determined whether or not there is a tag indicating the non-contact tag that has been set (step S812).
[0134]
If it is determined that there is no visitor, the server 1 displays a message indicating that the position of the visitor to be searched could not be specified (step S813), and ends the visitor position search process.
On the other hand, if it is determined that the contact exists, the server 1 is notified of the identification code of the non-contact tag attached to the terminal carried by the visitor to be searched from any of the detectors 4a to 4d. Is identified, a message indicating the identified detector is displayed (step S814), and the process ends.
[0135]
As a result of performing the above-described processing, if the visitor designated by the administrator as a search target carries any of the terminals 3a to 3d and is sufficiently close to any of the possessions, the possession that the visitor has approached is obtained. The product is specified.
[0136]
(Congestion status grasp)
The storage manager operates the server 1 to instruct the execution of the congestion state grasping process shown in FIG. 11 in order to know the number of visitors in the vicinity of each collection in the storage. .
[0137]
When the process of grasping the congestion state is started, the server 1 waits for being notified of the identification code from each of the detectors 4a to 4d executing the processes of steps S601 and S602 (step S910). Then, when the identification codes are notified from all the detectors 4a to 4d (step S911), the number of the identification codes notified from each of the detectors 4a to 4d is counted, and the counting result is displayed as a list ( Step S912), the process ends.
[0138]
The number of identification codes notified from each of the detectors 4a to 4d displayed in step S912 indicates the number of visitors staying around the possession to which the detector is attached.
Therefore, as a result of the above-described processing being performed, information for grasping the degree of congestion around each item in the storage is provided.
[0139]
(navigation)
Further, the material management system may perform the navigation processing shown in FIG.
When the material management system performs the processing of FIG. 12, the server 1 stores an ID history table. The ID history table is composed of a plurality of records associated with the non-contact tags 5a to 5d on a one-to-one basis.
[0140]
Each record of the ID history table includes an ID field for storing an identification code of a non-contact tag associated with the record, and a detector field following the ID field. The detector field stores the name of a detector that has received a reply wave emitted by a non-contact tag associated with a record having the detector field. When a plurality of detector fields are included in the same record, the names stored in these detector fields are arranged in the order in which the reply waves of the non-contact tag associated with the record are newly received. .
[0141]
When the material management system performs the process of FIG. 12, the server 1 performs substantially the same process as the above-described process of step S711, and performs the process in at least one record of the ID management table. It is determined whether or not an identification code (hereinafter, referred to as a new identification code) substantially different from that stored in the immediately preceding ID field of the record is stored in the current ID field of the record (step S1011). .
[0142]
If it is determined that it is not stored, the server 1 advances the processing to step S1014. If it is determined that the new identification code is stored, the new identification code determined to be stored is specified. For each of these new identification codes, the new identification code is stored in the detector name field of the record in which the new identification code is stored. The name of the stored detector is specified (step S1012).
[0143]
Next, the server 1 updates the ID history table stored therein based on the specified name of the detector (step S1013), and advances the process to step S1014.
Specifically, in step S1013, the server 1 determines, if there is a record in which the new identification code specified in step S1012 is stored in the ID field among the records of the ID history table, the ID of the record A detector field storing the name of the detector specified in step S1012 is inserted between the field and the detector field located next to the ID field.
[0144]
Then, in step S1014, the server 1 determines whether or not the server 1 itself has received data instructing to execute navigation, which is wirelessly transmitted by the terminals 3a to 3d.
[0145]
On the other hand, if the visitor carrying any of the terminals 3a to 3d wants to know, for example, a collection that he or she has not yet viewed or a route to move around the collection that he or she has not yet viewed, By operating a terminal carried by the user, the terminal instructs the terminal to wirelessly transmit data for instructing navigation.
[0146]
The data for instructing the execution of the navigation is, for example, a logical position in which a visitor carries a CGI (Common Gate Interface) for controlling a process after step S1015 described later on his / her mobile terminal. Any URL may be used. The CGI may be stored in, for example, the material management database 2.
[0147]
If it is determined in step S1014 that data for instructing execution of navigation has not been received, the process returns to step S1011. If it is determined that the data has been received, the server 1 searches the ID history table using the identification code of the non-contact tag attached to the terminal that has wirelessly transmitted the data as a key, and retrieves a record including the identification code used as the key. A search is made (step S1015).
[0148]
Then, the server 1 specifies a detector whose name is not stored in the record retrieved in step S1015 among the detectors in the storage (step S1016). Then, the information indicating the possession to which the detector identified in step S1016 is attached is wirelessly transmitted to the terminal that wirelessly transmitted the data for instructing the execution of navigation (step S1017), and the process returns to step S1011.
[0149]
Upon receiving the information wirelessly transmitted by the server 1 in step S1017, the terminal that has instructed the execution of the navigation process displays the name of the collection indicated by the information and an image indicating the position of the collection.
[0150]
The detector specified in step S1016 is a detector that has not yet received a reply wave emitted by the non-contact tag attached to the terminal that wirelessly transmitted the data for instructing the execution of the navigation. In other words, the detector specified in step S1016 is a detector attached to a collection in which the visitor carrying the terminal instructing the execution of the navigation processing has not yet stayed around the terminal. Represent.
[0151]
Therefore, as a result of the above-described processing being performed, the terminal that has instructed the execution of the navigation processing is provided with information indicating a collection that has not yet been viewed by a visitor carrying the terminal.
[0152]
In step S1017, the server 1 may wirelessly transmit the contents of the record of the ID history table, which the server 1 has searched for in step S1015, to the terminal that wirelessly transmitted the data for instructing the execution of navigation.
Then, the terminal that has received the content of the record may list the content of each detector field of the received record in the order in which the detector fields are arranged in the record.
As a result, information indicating the detector to which the visitor carrying the terminal has approached (and the possession to which the detector is attached) and the order in which they approached are provided to the visitor.
[0153]
The material management system according to the second embodiment is not limited to the above.
For example, data exchange between the detectors 4a to 4d and the server 1 may be performed by wireless communication.
Also, the number of detectors is arbitrary as long as each is attached to a separate collection and each is assigned a unique identification code, and the number of terminals is also Is optional as long as a separate non-contact tag is attached to the.
[0154]
As described above, the embodiment of the present invention has been described. However, the article management system of the present invention is not limited to the items stored in the storages and the exhibits of the museums and art museums, but can be applied to the management of arbitrary articles. it is obvious.
[0155]
Further, the article management system of the present invention can be realized by using a normal computer system without using a dedicated system. For example, the above-described processing is executed by installing the program for executing the above-described operation from a medium (a floppy disk, a CD-ROM, or the like) storing the program in a plurality of personal computers connected to the wireless communication apparatus. An article management system can be configured.
[0156]
Further, the medium for supplying the program to the computer may be a communication medium (a medium that temporarily and fluidly stores the program, such as a communication line, a communication network, or a communication system). For example, the program may be posted on a bulletin board (BBS) of a communication network and distributed via the network.
Then, by starting this program and executing it in the same manner as other application programs under the control of the OS, the above-described processing can be executed.
[0157]
When the OS shares a part of the processing, or when the OS constitutes a part of one component of the present invention, a program excluding the part is stored in the recording medium. You may. Also in this case, in the present invention, it is assumed that the recording medium stores a program for executing each function or step executed by the computer.
[0158]
【The invention's effect】
As described above, according to the present invention, it is easy to specify and search for the position of an article, to easily update information stored for an article, and to provide information required by a user regarding an article at a timing required by the user. Is realized.
[Brief description of the drawings]
FIG. 1 is a diagram showing a basic configuration of a material management system according to a first embodiment of the present invention.
2 (a) and 2 (b) are flowcharts showing a process of explaining a possession performed by the material management system of FIG. 1. FIG.
FIG. 3 is a flowchart showing a process of checking a possession performed by the material management system of FIG. 1;
FIG. 4 is a flowchart illustrating a process of managing the history of a possession performed by the material management system of FIG. 1;
FIG. 5 is a flowchart showing a process of searching for a possession performed by the material management system of FIG. 1;
FIG. 6 is a flowchart showing a process of entry / exit management performed by the material management system of FIG. 1;
FIG. 7 is a diagram illustrating a basic configuration of a material management system according to a second embodiment of the present invention;
FIGS. 8A and 8B are flowcharts showing a process of updating an ID management table performed by the material management system of FIG.
9 (a) and 9 (b) are flowcharts showing a process for explaining a possession performed by the material management system of FIG. 7;
FIG. 10 is a flowchart showing a process of searching for a visitor position performed by the material management system of FIG. 7;
FIG. 11 is a flowchart showing a process of grasping a congestion state performed by the material management system of FIG. 7;
FIG. 12 is a flowchart illustrating a navigation process performed by the material management system in FIG. 7;
[Explanation of symbols]
1 server
2 Material management database
3, 3a-3d terminal
4, 4a-4d detector
5a-5d Non-contact tag

Claims (8)

A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; An article management system comprising: an article information supply unit configured to supply article information related to the article to the terminal.
The terminal detection means,
Receiving means for receiving the identification information transmitted from the terminal identification means whose distance to the terminal detection means is equal to or less than a predetermined value, among the identification information transmitted by the terminal identification means in response to the request;
Identification information supply means for supplying the identification information received by the reception means to the article information supply means,
With
The article information supply means,
Article information storage means for storing the article and the article information in association with each other,
In response to the identification information being supplied from the terminal detection means, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and An article that provides the user with the article information on an article near the user by detecting the corresponding article information from the article information storage unit and supplying the detected article information to the specified terminal. Information provision means;
The number of the supplied identification information is counted for each terminal detecting means, and the count result is displayed as a list, thereby notifying the manager of the article information supplying means of the number of users near each article. Means for reporting the number of users by article;
Comprising,
Article management system characterized by the above-mentioned. A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; An article management system comprising: an article information supply unit configured to supply article information related to the article to the terminal.
The terminal detection means,
Among the identification information transmitted in response to the request by the terminal identification means, receiving means for receiving the identification information transmitted from the terminal identification means, the distance to the terminal detection means is a predetermined value or less,
Identification information supply means for supplying the identification information received by the reception means to the article information supply means,
With
The article information supply means,
Article information storage means for storing the article and the article information in association with each other,
In response to the identification information being supplied from the terminal detection means, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and An article that provides the user with the article information on an article near the user by detecting the corresponding article information from the article information storage unit and supplying the detected article information to the specified terminal. Information provision means;
Stores history data in which the terminal, the terminal detection unit that has supplied the identification information of the terminal to the article information supply unit, and the order in which the terminal detection unit supplies the identification information are associated with each other. History data storage means;
With
The terminal includes a route notification instructing unit that instructs the article information supply unit to notify a route that has been followed by the user,
The article information providing unit detects the order corresponding to the terminal from the history data in response to an instruction from the route notification instruction unit, and supplies the detected order to the terminal to provide the user with the information. Including a route notifying unit for notifying a route that the user has followed so far,
Article management system characterized by the above-mentioned. The terminal further includes an article notification instruction unit that instructs the article information supply unit to notify the article that the user has not yet performed in the vicinity,
The article information providing unit, in response to an instruction from the article notification instruction unit, identifies the terminal detection unit that has not yet supplied the identification information of the terminal to the article information supply unit from the history data. By creating a list of the articles to which the terminal detecting means is attached and supplying the list to the terminal, the article includes an article notifying means for notifying the user of the article that the user has not yet performed in the vicinity.
The article management system according to claim 2, wherein: The terminal identification means includes means for wirelessly transmitting the identification information,
The receiving means includes means for receiving the identification information wirelessly transmitted by the terminal identification means,
The terminal detection unit includes a unit that wirelessly transmits the identification information received by the reception unit to the article information supply unit,
The terminal includes means for receiving the article information wirelessly transmitted by the article information supply means,
The article information supply means,
Means for receiving the identification information wirelessly transmitted by the terminal detection means,
Means for wirelessly transmitting the article information retrieved from the article information storage means to the terminal,
The article management system according to claim 1, 2, or 3 , wherein: The terminal identification means, the request from the terminal detection means, in response to a request from the terminal detection means the distance to the terminal identification means is less than or equal to a predetermined value, the transmission means for transmitting the identification information,
The article management system according to any one of claims 1 to 4, wherein: The article information supply means,
According to the operation of the operator, terminal search key acquisition means for acquiring a terminal search key that specifies the terminal to be searched,
The identification information acquired from the terminal detection means determines whether the terminal search key acquired by the terminal search key acquisition means indicates the terminal specified by the terminal search key, and indicates that the terminal is indicative of the terminal. Means for outputting data for identifying the terminal detection means that supplied the identification information determined to indicate the terminal specified by the terminal search key,
The article management system according to any one of claims 1 to 5, wherein: A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; , An article information supply means for supplying article information on the article to the terminal, a congestion state grasping method in an article management system comprising:
A receiving step of receiving the identification information transmitted from the terminal identification means whose distance to the terminal detection means is equal to or less than a predetermined value, among the identification information transmitted in response to the request,
An identification information supply step of supplying the identification information received by the reception step to the article information supply means,
An article information storing step of storing the article and the article information in association with each other;
In response to the identification information being supplied from the terminal detection step, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and the specified article is An article that provides the user with the article information on an article in the vicinity of the user by detecting the corresponding article information from the article information storage step and supplying the detected article information to the specified terminal. Information provision process,
The number of the supplied identification information is counted for each terminal detecting means, and the count result is displayed as a list, thereby notifying the manager of the article information supplying means of the number of users near each article. A user number notification process for each article;
Comprising,
A congestion situation grasping method characterized by the following. A terminal carried by each user, terminal identification means attached to each terminal and storing identification information of the terminal, and terminal detection means attached to each article and requesting the terminal identification means to transmit the identification information; An article information supply unit that supplies article information about the article to the terminal, and a navigation method in an article management system,
A receiving step of receiving the identification information transmitted from the terminal identification means whose distance to the terminal detection means is equal to or less than a predetermined value, among the identification information transmitted by the terminal identification means in response to the request,
An identification information supply step of supplying the identification information received by the reception step to the article information supply means,
An article information storing step of storing the article and the article information in association with each other;
In response to the identification information being supplied from the terminal detection means, the article to which the terminal detection means is attached, and the terminal indicated by the identification information are specified, and An article that provides the user with the article information on an article in the vicinity of the user by detecting the corresponding article information from the article information storage step and supplying the detected article information to the specified terminal. Information provision process,
Stores history data in which the terminal, the terminal detection unit that has supplied the identification information of the terminal to the article information supply unit, and the order in which the terminal detection unit supplies the identification information are associated with each other. A history data storage step;
A route notification instruction step of instructing the article information supply unit of a notification of a route that the user has followed,
In response to the instruction by the route notification instruction step, the order corresponding to the terminal is detected from the history data, and the detected order is supplied to the terminal. A route notification step of notifying a route that has been followed,
Comprising,
A navigation method characterized in that:

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