CN108009606B - Data processing method of works - Google Patents

Abstract

The present disclosure discloses a data processing method for a work, comprising the following steps: s100, a server at a remote side issues an acquisition instruction in a wired or wireless mode; s200, reading RFID tags carried on all works on the bookshelf by an RFID tag reader-writer on the bookshelf where the works are located according to the acquisition instruction; s300, determining which works are on the bookshelf and determining the position of each work on the bookshelf according to the position information configured by the RFID tag reader-writer and the storage information in the RFID tag. This is disclosed through RFID label read write line configuration relevant position information for need not to realize in place at every bookshelf and realize the management, and can the remote management position of work on the bookshelf: layers partitioned for a work and columns partitioned for a work.

Description

Data processing method of works

Technical Field

The present disclosure relates to the field of work management, and in particular, to a data processing method for works.

Background

In modern society, books or multimedia works and other works are borrowed in a complicated mode, and the time is greatly shortened for finding the position of the related works, which is not in line with the increasing cultural requirements and the user experience requirements of people.

Disclosure of Invention

In order to solve the above problem, the present disclosure discloses a data processing method of a work, including the steps of:

s100, a server at a remote side issues an acquisition instruction in a wired or wireless mode;

s200, reading RFID tags carried on all works on the bookshelf by an RFID tag reader-writer on the bookshelf where the works are located according to the acquisition instruction;

s300, determining which works are on the bookshelf and determining the position of each work on the bookshelf according to the position information configured by the RFID tag reader-writer and the storage information in the RFID tag, wherein:

the RFID tag reader-writer is configured with the following position information: the system comprises a network address and a port as a selectable item, wherein the position information is used for remotely accessing the RFID tag reader-writer, and is used for marking the number of a bookshelf where the RFID tag reader-writer is located and the position of a work on the bookshelf, and the position of the work on the bookshelf comprises: layers partitioned for a work and columns partitioned for a work.

The technical scheme of the disclosure realizes a scheme capable of being remotely managed, and particularly realizes a scheme that the operation and the management do not need to be carried out on site at each bookshelf by configuring the relevant position information through the RFID tag reader-writer. That is, this is a remote central control scheme and is able to manage the location of the work on the bookshelf: layers partitioned for a work and columns partitioned for a work.

Drawings

FIG. 1 is a schematic flow chart diagram in one embodiment.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

Referring to FIG. 1, in one embodiment, the present disclosure discloses a method of data processing of a work, comprising the steps of:

s100, a server at a remote side issues an acquisition instruction in a wired or wireless mode;

s200, reading RFID tags carried on all works on the bookshelf by an RFID tag reader-writer on the bookshelf where the works are located according to the acquisition instruction;

s300, determining which works are on the bookshelf and determining the position of each work on the bookshelf according to the position information configured by the RFID tag reader-writer and the storage information in the RFID tag, wherein:

the RFID tag reader-writer is configured with the following position information: the system comprises a network address and a port as a selectable item, wherein the position information is used for remotely accessing the RFID tag reader-writer, and is used for marking the number of a bookshelf where the RFID tag reader-writer is located and the position of a work on the bookshelf, and the position of the work on the bookshelf comprises: layers partitioned for a work and columns partitioned for a work.

With this embodiment, it is possible to implement a method of remotely managing works by RFID, and particularly, to implement a scheme of not requiring manipulation and management at or near each bookshelf by configuring relevant location information by an RFID tag reader/writer. Further, the above embodiment is a solution for remote central control, and can be refined to the location of the work on the bookshelf: layers partitioned for a work and columns partitioned for a work.

For example, the number of the bookshelf is marked with the network address, and the position of the work on the bookshelf is also marked: for the layers into which the work is divided, the position of the work on the bookshelf is marked by a port: for columns into which the work is divided.

Preferably, in one embodiment, the network address includes an IP address and a URL.

(a1) Taking the IP address as an example, assume that: the IP of the 192.168.1.X network segment represents the whole row of bookshelf with the number 1, the IP of the 192.168.2.X network segment represents the whole row of bookshelf with the number 2, and each whole row of bookshelf is formed by splicing 5 small bookshelf units, and each small bookshelf unit comprises 6 layers.

The IP address of 5 small bookshelf units in the whole row of bookshelves numbered 1 may be set as follows:

the 1 st small bookshelf unit in the whole row of bookshelves of the 1 st number, the 1 st to 6 th layers of this small bookshelf unit set up the IP address respectively:

192.168.1.11，192.168.1.12，192.168.1.13，……，192.168.1.16：

the 2 nd small bookshelf unit in the whole row of bookshelves of the No. 1, the 1 st to 6 th layers of the small bookshelf unit are respectively provided with IP addresses:

192.168.1.21，192.168.1.22，192.168.1.23，……，192.168.1.26。

further, if the 1 st small bookshelf unit is divided into 5 columns of regions in the longitudinal direction, that is: the 1 st layer has the 1 st column, the 2 nd column, the 3 rd column … … and the 5 th column from left to right; the 2 nd to 6 th layers also have the 1 st to 5 th columns in the longitudinal direction, wherein:

column 1 is indicated by port 1, column 2 is indicated by port 2, and so on, and column 5 is indicated by port 5. Similarly, the 2 nd small bookshelf is also represented by a port column. Although the port numbers may be programmed into, for example, 65525 ports in sequence, it is not necessary for practical applications to be precise enough that each column area is used only to include space for accommodating one work, and therefore, each column area may include space for accommodating multiple works, without being divided too finely, unless it is necessary.

It can be appreciated that when accessing 192.168.1.11: 3, it means the 3 rd column region of the 1 st layer of the 1 st small bookshelf of the 1 st numbered whole row bookshelf. 192.168.1.23: 5 means the 5 th column area of the 3 rd layer of the 2 nd small bookshelf of the 1 st numbered whole row bookshelf.

As can be understood from the above specific embodiment, it not only realizes bookshelf numbering by IP address, but also can locate to the specific layer of the small bookshelf unit, and as for the port, locate to the specific column area of the small bookshelf unit. This, of course, facilitates quick locating of the general location of a work.

(b1) Taking the IP address as an example, assume that: the IP of the 192.168.1.X network segment represents the whole row of bookshelf with the number 1, the IP of the 192.168.2.X network segment represents the whole row of bookshelf with the number 2, and each whole row of bookshelf is formed by splicing 5 small bookshelf units, and each small bookshelf unit comprises 6 layers.

The IP address of 5 small bookshelf units in the whole row of bookshelves numbered 1 may be set as follows:

the 1 st small bookshelf unit in the whole row bookshelf of the 1 st number, the 1 st to 6 th layers of this small bookshelf unit only set up the IP address:

192.168.1.10；

the 2 nd small bookshelf unit in the whole row bookshelf of the No. 1, the 1 st to 6 th layers of the small bookshelf unit are also only provided with IP addresses:

192.168.1.20；

further, if the 1 st small bookshelf unit is divided into 5 columns of regions in the longitudinal direction, that is: the 1 st layer has the 1 st column, the 2 nd column, the 3 rd column … … and the 5 th column from left to right; the 2 nd to 6 th layers also have the 1 st to 5 th columns in the longitudinal direction, wherein:

port 11 for layer 1, column 1, port 12 for layer 1, and so on, and port 15 for layer 1, column 5.

Similarly, layer 2, column 1 to layer 2, column 5 are represented by ports 21 to 25.

That is, here, the port number of two digits may represent not only the column of the corresponding small bookshelf by the last 1 digit of the port number, but also the layer of the corresponding small bookshelf by the 2 nd digit of the port number.

It can be appreciated that when accessing 192.168.1.10: 63, it means the 3 rd column region of the 6 th layer of the 1 st small bookshelf of the 1 st numbered whole row bookshelf. 192.168.1.20: 51 means the 1 st column area of the 5 th layer of the 2 nd small bookshelf of the 1 st numbered whole row bookshelf.

As can be understood from the above specific embodiment, it can be located to the small bookshelf unit of the bookshelf with specific number by the IP address, and can be located to the specific layer and column area of the small bookshelf unit by the port. This, of course, facilitates quick locating of the general location of a work.

(c1) Taking the IP address as an example, assume that: each unique-numbered whole-row bookshelf is formed by splicing 5 small bookshelf units, each small bookshelf unit comprises 6 layers, and each layer is divided into 5 columns of areas.

If the IP of 192.100.X.Y network segment represents the whole row of bookshelf with the number 1, 192.200.X.Y network segment represents the whole row of bookshelf with the number 2, and:

192.100.z.mn each represents the nth column region of the mth layer of the Z-th small bookshelf unit of the 1 st number of whole rows of bookshelves, 192.200.z.mn each represents the nth column region of the mth layer of the Z-th small bookshelf unit of the 2 nd number of whole rows of bookshelves, where:

192.100.1.11 denotes the 1 st tier 1 st column of the 1 st small bookshelf unit of the 1 st row of bookshelves;

192.100.1.65 denotes the 6 th and 5 th columns of the 1 st small bookshelf unit of the 1 st full row bookshelf;

192.100.5.65 represents the 6 th layer and 5 th column of the 5 th small bookshelf unit of the 1 st number whole row bookshelf;

192.200.5.65 represents the 6 th layer and 5 th column of the 5 th small bookshelf unit of the 2 nd numbered whole row bookshelf;

that is, designing only the IP address and not the port number also enables locating to a small bookshelf unit of a specific numbered bookshelf, and a specific few-layer few-column region. This, of course, facilitates quick locating of the general location of a work.

(d) For URLs, the same is as described above.

Suppose that: net this URL address represents the full row of bookshelves numbered a, b.book.net represents the full row of bookshelves numbered b, and each full row of bookshelves is made up of 5 small shelf units, each small shelf unit comprising 6 layers, each layer being divided into 5 column regions.

The number a of the 1 st small bookshelf unit in the whole row of bookshelves, the domain names of the 1 st to 6 th layers of the small bookshelf unit are as follows:

http：//a.book.net/1；

the 2 nd small bookshelf unit in the whole row of bookshelves with the number a, the domain names of the 1 st to 6 th layers of the small bookshelf unit are as follows:

http：//a.book.net/2；

further, if the 1 st small bookshelf unit is divided into 5 columns of regions in the longitudinal direction, that is: the 1 st layer has the 1 st column, the 2 nd column, the 3 rd column … … and the 5 th column from left to right; the 2 nd to 6 th layers also have the 1 st to 5 th columns in the longitudinal direction, wherein:

(d1) in one aspect, specific layers and columns may be located through the port: for example, port 11 for layer 1, port 12 for layer 1, and port 15 for layer 1, column 2, and so on.

Similarly, layer 2, column 1 to layer 2, column 5 are represented by ports 21 to 25.

That is, here, the two-digit port number may represent not only the column of the corresponding small bookshelf unit by the last 1 digit of the port number, but also the layer of the corresponding small bookshelf by the 2 nd digit of the port number.

It can be appreciated that when accessing http: net/1: 63, it means the column 3 region of the 6 th layer of the 1 st small bookshelf unit of the whole row of bookshelves of number a.

(d2) On the other hand, it is also possible to locate a specific layer by URL, and a port locates only a specific column:

for example, further, when accessinghttp：//a.book.net/1/6: 1, which represents the 1 st row of the 1 st small bookshelf unit of the whole row bookshelf with the number a; when accessinghttp：//a.book.net/1/1: when 2, it represents the 1 st layer and 2 nd column of the 1 st small bookshelf unit of the whole row bookshelf with the number a;

(d3) on the other hand, it is also possible to locate a specific layer and a specific column only by URL without using port:

for example, further, when accessinghttp：//a.book.net/1/6At/1, it represents the 1 st column of the 6 th layer of the 1 st small bookshelf unit of the whole row bookshelf with the number a; when accessinghttp：//a.book.net/1/1At/2, it represents the 1 st layer 2 nd column of the 1 st small bookshelf unit of the whole row bookshelf with the number a;

as can be understood from the above specific embodiment, it can be located to the small bookshelf unit of the bookshelf with specific number by URL, even to the specific layer of the small bookshelf unit, and even to the area of the column without setting the port rule. This, of course, facilitates quick locating of the general location of a work.

In another embodiment, the stored information within the RFID tags on a work includes: a work bar code number and an RFID number.

With this embodiment, it embodies the range of choice of stored information within the RFID tag. The work bar code number is most straightforward since it uniquely points to almost all published information for a particular work. The RFID number represents the identification information of a particular RFID tag, similar to an ID.

After the storage information in the RFID tag, i.e. the bar code number and the RFID number of the work, is read by the RFID tag reader/writer and transmitted to the server on the remote side, since the server knows that the storage information is transmitted through a specific IP address or URL or even a port number, the server knows the position of the work on the bookshelf: for the layers and columns divided by the works (it can be understood that the layers and columns divided by the works correspond to the layers and columns described above), and meanwhile, since the storage information in the RFID tags is also transmitted to the server, the server knows the specific bar code number of the work, and can easily obtain almost all the publishing information of the work through the bar code number of the work; in addition, the server also knows the RFID number of the RFID tag storing the barcode number of the work. If the work needs to be borrowed, the borrowing place can access the RFID tag reader-writer through the position information, and sends a command to the RFID tag corresponding to the RFID number, so that the borrowing information of the work is written, the borrowing state of the work is changed, and the borrower is allowed to carry the work to leave the hall from the RFID entrance guard — the borrowing information can be easily understood, the borrowing information can be a mark position, for example, 1 represents that the borrowing is allowed, and 0 represents that the borrowing is not allowed. Borrow the information and still play the effect of theftproof simultaneously.

In another embodiment, the wireless means includes Zigbee, Wifi, 3G, 4G, or infrared. For the purposes of this embodiment, this is a specific choice of wireless connection.

Under the conditions that cables are difficult to lay between the bookshelves or the bookshelves are seriously interfered by wireless transmission signals (Zigbee, Wifi, 3G, 4G and the like), an infrared signal transmission mode can be preferentially adopted as the specific model selection of wireless connection. At this time, the infrared transmitting and receiving module device and the signal amplifier which is increased according to the transmission distance as required need to be replaced (or added).

In another embodiment, the method further comprises the steps of:

s400, the steps S100 to S300 are repeated regularly, and the position information configured by the RFID label reader-writer and the stored information in the RFID label are completely stored in the database without covering the history information.

With the embodiment, a detailed log is established, the later-stage inventory is convenient, and the problems of work storage and management can be found.

In another embodiment, the database is designed separately from the server on the remote side. It can be appreciated that this embodies the flexible deployment characteristics of the present solution.

In another embodiment, the method further comprises the steps of:

s500, comparing and counting the position information configured by the RFID label reader-writer and the storage information in the RFID label which are stored in the database for the last time with the position information configured by the RFID label reader-writer and the storage information in the RFID label which are stored in the database for the first time.

It can be understood that by means of the alignment and statistics, at least: the total amount of the original works, whether new works have been added later, the number of works on shelves, the number of loaned works, the number of works with the positions of the bookshelves changed, whether the changes need to be corrected, and the like.

In another embodiment, the method further comprises the steps of:

s600, caching the position information configured by the RFID label reader-writer and the storage information in the RFID label, which are stored in the database for the last time, in a cache table, wherein the cache table is located in a hard disk or a memory.

For this embodiment, in order to improve the query efficiency, various lookup and statistics at the later stage are performed through the cache table. When the cache table is located in the memory, the efficiency can be further improved.

In another embodiment, the method further comprises the steps of:

s701, when a first work is borrowed, determining storage information in the RFID tag of the first work according to a pre-established corresponding relation between publishing information of the work and storage information in the RFID tag carried on the work;

s702, searching the storage information in the RFID label of the first work and the corresponding storage information configured by the RFID label reader-writer in the latest stored position information of the RFID label reader-writer and the storage information in the RFID label of the database, and if the storage information in the RFID label of the first work does not indicate that the work is in a borrowing forbidding state, taking the RFID label of the first work as a first target RFID label;

s703, writing borrowing information into the first target RFID tag according to the searched position information configured by the RFID tag reader-writer, and meanwhile updating the storage information in the RFID tag of the first work, which is stored in the database for the last time, by utilizing the borrowing information, wherein the borrowing information is used for indicating the borrowing state.

With respect to this embodiment, it is exemplary to describe a process of borrowing a work and updating the borrowing information to a database.

In another embodiment, the method further comprises the steps of:

s801, when the angelica returns the first work, writing return information into the first target RFID label, wherein the return information is used for indicating a return state;

s802, after the return information is written in, reading the storage information in the first target RFID label, wherein the storage information in the first target RFID label comprises the return information;

and S803, updating and returning the storage information in the RFID label stored in the database for the last time before the first work based on the read storage information in the first target RFID label.

It can be appreciated that this embodiment is exemplary of a scheme for returning a work and updating a database based on a borrowed work.

In another embodiment, when a work is put on shelf, the RFID tag reader is actively triggered to report and store: the position of the work on the bookshelf, the position information corresponding to the RFID label reader-writer configuration and the storage information in the RFID label. In particular, the server at the remote side can confirm the return state and compare the return state with the related information stored in the database at the previous time. This not only allows for the first time to actively update the location of the returned work on the bookshelf, but also allows for potential problems to be discovered, such as misplacement. It can be understood that this applies not only to the return scene but also to the scene in which the user has placed the work in the house by mistake. More broadly, the embodiment can also be implemented when the works enter the house, and because of the scheme of actively reporting the shelf-entering works, the time overhead and other cost overheads caused by large-area collection in the future can be saved.

In conclusion, the intelligent management system can realize various work management functions of collection, inventory, search, borrowing and returning, statistics and the like, and realize the intellectualization of work management. In work management, the present disclosure has particular advantages as follows:

1. the management of a single bookshelf can be conveniently expanded to a plurality of bookshelves, and the deployment scale is flexible and variable;

2. the system is easy to integrate with an access control system, so that the security function of internal works is realized;

3. due to the fact that the information processing requirement of each bookshelf is reduced, the information display function of a single bookshelf can be omitted, equipment cost is reduced, and the arrangement flexibility of the information display device is improved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present disclosure. Various modifications to these embodiments, which are not inventive in the prior art, will be readily apparent to those skilled in the art. Furthermore, the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A method of data processing a work, comprising the steps of:

s100, a server at a remote side issues an acquisition instruction in a wired or wireless mode;

s200, reading RFID tags carried on all works on the bookshelf by an RFID tag reader-writer on the bookshelf where the works are located according to the acquisition instruction;

s300, determining which works are on the bookshelf and determining the position of each work on the bookshelf according to the position information configured by the RFID tag reader-writer and the storage information in the RFID tag, wherein:

the RFID tag reader-writer is configured with the following position information: the system comprises a network address and a port as a selectable item, wherein the position information is used for remotely accessing the RFID tag reader-writer, and is used for marking the number of a bookshelf where the RFID tag reader-writer is located and the position of a work on the bookshelf, and the position of the work on the bookshelf comprises: a layer divided for a work and a column divided for the work;

and, the network address includes an IP address or a URL, wherein,

the number of the bookshelf is marked by the network address, and the position of the work on the bookshelf is also marked: with respect to the layers into which the work is divided,

ports to mark the location of the work on the bookshelf: columns partitioned for the work;

when an IP address:

the IP address not only realizes bookshelf numbering, but also can be positioned to the specific layer of the small bookshelf unit, and the port is positioned to the specific row area of the small bookshelf unit; or the like, or, alternatively,

the IP address is positioned to a small bookshelf unit of a bookshelf with a specific number, and is positioned to a specific layer and a specific column area of the small bookshelf unit through a port; or the like, or, alternatively,

c. only IP addresses are designed, and port numbers are not designed, so that small bookshelf units of bookshelves with specific numbers and specific few-layer and few-column areas can be positioned;

when the URL is:

the URL is positioned to a small bookshelf unit of a bookshelf with a specific number, and is positioned to a specific layer of a row area of the small bookshelf unit through a port; or the like, or, alternatively,

url to locate specific layer, port to locate specific column only; or the like, or, alternatively,

f. a specific layer and a specific column are located only by URL without using a port.

2. The method of claim 1, wherein storing information within RFID tags on a work comprises: a work bar code number and an RFID number.

3. The method of claim 1, wherein when a work is on shelf, the RFID tag reader is actively triggered, reporting and storing: the position of the work on the bookshelf, the position information corresponding to the RFID label reader-writer configuration and the storage information in the RFID label.

4. The method of claim 1, wherein the wireless means comprises Zigbee, Wifi, 3G, 4G, or infrared.

5. The method of claim 1, wherein the method further comprises the steps of:

s400, the steps S100 to S300 are repeated regularly, and the position information configured by the RFID label reader-writer and the stored information in the RFID label are completely stored in the database without covering the history information.

6. The method of claim 1, wherein the database is designed separately from the server on the remote side.

7. The method of claim 5, wherein the method further comprises the steps of:

s500, comparing and counting the position information configured by the RFID label reader-writer and the storage information in the RFID label which are stored in the database for the last time with the position information configured by the RFID label reader-writer and the storage information in the RFID label which are stored in the database for the first time.

8. The method of claim 5, wherein the method further comprises the steps of:

s600, caching the position information configured by the RFID label reader-writer and the storage information in the RFID label, which are stored in the database for the last time, in a cache table, wherein the cache table is located in a hard disk or a memory.

9. The method of claim 5, wherein the method further comprises the steps of:

s701, when a first work is borrowed, determining storage information in the RFID tag of the first work according to a pre-established corresponding relation between publishing information of the work and storage information in the RFID tag carried on the work;

s702, searching the storage information in the RFID label of the first work and the corresponding storage information configured by the RFID label reader-writer in the latest stored position information of the RFID label reader-writer and the storage information in the RFID label of the database, and if the storage information in the RFID label of the first work does not indicate that the work is in a borrowing forbidding state, taking the RFID label of the first work as a first target RFID label;

s703, writing borrowing information into the first target RFID tag according to the searched position information configured by the RFID tag reader-writer, and meanwhile updating the storage information in the RFID tag of the first work, which is stored in the database for the last time, by utilizing the borrowing information, wherein the borrowing information is used for indicating the borrowing state.

10. The method of claim 9, wherein the method further comprises the steps of:

s801, when the angelica returns the first work, writing return information into the first target RFID label, wherein the return information is used for indicating a return state;

s802, after the return information is written in, reading the storage information in the first target RFID label, wherein the storage information in the first target RFID label comprises the return information;

and S803, updating and returning the storage information in the RFID label stored in the database for the last time before the first work based on the read storage information in the first target RFID label.

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