KR100714414B1 - Information reading device for processing input information together with position of information source, and information management server for managing the same - Google Patents

Abstract

Disclosed are an information input device such as a bar code input device for processing inputted information together with a location of an information park and an information management server managing the same. The information input device includes an input unit for inputting information, such as barcode information provided from the outside, by scanning or the like, and a signal receiving unit for receiving a position measuring signal such as a GPS signal transmitted from an external device. The data about the information input through the input unit, and the data on the position measurement signal received through the signal receiver is transmitted to the management server through the data transmission unit, and the management server reads and stores the data for the information park. The location of the information park is calculated and stored. In this case, the location calculation of the information park may be performed by the information input device, and the calculated location data may be transmitted to the information management server. In addition to reading or inputting information of an object, a function of identifying a location of an information park having such information is provided. Therefore, various types of information required for inputting and managing the location of the object together with information about the object are required. It provides convenient functions that can be used in the field.

Information, barcode, input, scan, location

Description

Information reading device for processing input information together with position of information source, and information management server for managing the same}

1 is a block diagram of an information management system according to a first embodiment of the present invention;

2 is a block diagram of an information management system according to a second embodiment of the present invention, and

3 is a block diagram of an information management system according to a third embodiment of the present invention.

The present invention relates to an information input device capable of inputting specific types of information, such as a bar code reader, and an information management server managing data provided by the information input device by performing data communication with the information input device.

Information input devices, such as barcode readers and RF readers, have a function of inputting information by scanning certain types of information through scanning or by analyzing the RF signal provided by a specific terminal. do. Such information input devices that are currently used are usefully used as a tool for reading and inputting information of an object, but have not escaped the level of a device for simply inputting information.

For example, in the case of a barcode reader, a barcode attached to a product is scanned and pattern recognition to extract information contained in the barcode. The bar code reader transmits the extracted information to a predetermined management server, and the management server compares the extracted information with reference data that it has and reads information about the product. That is, the management server reads information on which product the extracted barcode information is about, what is its price, and the like, and displays the read information on a display unit such as a monitor, for example, a salesman selling goods by selling price. It allows you to inquire. In addition, it is possible to use the so-called POS system that records the product sales history and reads the product inventory and sales performance by reading barcodes.

However, the conventional information input device as described above has a disadvantage in that its utilization is very limited because it provides only information that can grasp only the contents of the product itself, such as a barcode attached to the product.

That is, the conventional information input device may be used to identify predetermined information about goods or other information parks, but does not provide a function of automatically identifying and recording the location of the information parks. If the information input device can provide a function of identifying the location of the information park, the utilization of the information input device may be infinitely extended. For example, when reading a barcode of a book displayed in a library through a barcode reader, if the location of each book of which a barcode is currently read can be stored together with barcode information, management of the book in the library will be accurate and convenient. In addition, if it is widely applied to a field that requires the management of information about a specific object and its location, such as container location, car location, worker location, mail location, etc. Breakthrough electricity could be provided in areas such as work process management.

The present invention has been made in view of the above-mentioned matters, and an object of the present invention is to provide a function of reading or inputting information of an object and having a function of identifying a location of an information park having such information. It is to provide an information input device that can be utilized in.

Another object of the present invention is to provide a management server that is connected to the information input device as described above, and manages data on the location of the information park together with the data on the input information.

An information input device according to an aspect of the present invention for achieving the above object, the input unit for inputting information provided from the outside; A signal receiver which receives a signal for position measurement transmitted from an external device; And a data transmitter for transmitting data on the information input through the input unit and data on the position measurement signal received through the signal receiver to an external server.

The input unit may be configured by any one or a combination of an input device, a barcode reader, a wireless data reader, a magnetic card reader, an electric contact card reader, and a contactless card reader that a user can directly input specific information.

According to a preferred embodiment of the present invention, the information input device includes a position calculation unit for calculating position data indicating the position of the information input device based on the position measurement signal received through the signal receiver. In this case, the data transmitter transmits the position data calculated by the position operator to the external server.

The position calculation unit calculates the position data through a radio wave positioning method. In addition, the position calculation unit preferably calculates the three-dimensional position.

The signal receiver includes one or more of an electromagnetic wave receiver including a GPS signal, an optical wave receiver including a laser, and a sound wave receiver.

According to a preferred embodiment of the present invention, the information input device is configured to store data for the information input through the input unit and / or data for the position measurement signal received through the signal receiver. A part is provided.

According to another aspect of the invention, the information input device, the input unit for inputting information provided from the outside; A data transmission unit for transmitting data about the information input through the input unit to an external server; A signal generator for generating a position measurement signal to be transmitted to an external device; And a signal transmitter for transmitting the position measurement signal to the external device so that the external device can measure the location of the information system park providing the information at the time when the information is input to the input unit. do.

The signal transmitter may include one or more of an electromagnetic wave transmitter including a GPS signal, an optical wave transmitter including a laser, and a sound wave transmitter.

On the other hand, according to the present invention, a data receiving unit for receiving data on the information and the signal for measuring the position transmitted from the information input device; A position calculator for calculating position data indicating the position of the information input device based on the data of the position measurement signal; And a storage unit for storing the data about the information received through the data receiver and the position data calculated by the position calculator.

According to another embodiment of the information management server, a data receiving unit for receiving data on information transmitted from the information input device; A signal receiver for receiving data on the location of the information input device transmitted from an external positioning system; And a storage unit which stores data on the information received through the data receiver and data on the location received by the signal receiver.

The information management server may include a position calculator that calculates position data indicating a position of the information input device based on the position measurement signal received by the signal receiver.

In this case, it is preferable that the position calculating unit calculates a three-dimensional position using a radio wave positioning method.

The storage unit stores the position data calculated by the position calculating unit together with the data about the information received through the data receiving unit.

According to the present invention, there is provided an information input device having a function of reading or inputting information of an object and a function of locating an information park having such information, and a management server for managing such information input device. Accordingly, the present invention provides a convenient function that can be utilized in various fields in which it is required to input and manage information on the location of the thing together with the information about the thing.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

In the description of the embodiments of the present invention, a bar code reader is described as an example of the information input device constituting the information management system of the present invention. However, this is only an example of the present invention, and the information input device of the present invention is not limited to such a barcode reader, and a scanning method, a wireless data transmission method or a wired data transmission method, a method of directly inputting specific information, etc. It includes any type of terminal or other device used to enter information about a particular thing using any other method. Examples of such information input devices include magnetic card readers, contact card readers by electrical contacts, contactless card readers without electrical contacts, and the like.

In addition, in the description of the embodiments of the present invention, the management server constituting the information management system of the present invention means not only a server in the form of a computer terminal that is commonly used, but also any processor capable of data processing, for example, for general personal use. It includes all kinds of processors capable of managing information according to the present invention, such as a computer or a PDA. Accordingly, what is termed a management server in the description and claims of the present specification should be construed as including not only a general server but also such various types of processors.

1 is a block diagram of an information management system according to a first embodiment of the present invention. The first embodiment of the present invention shows an example in which the barcode reader receives a position measuring signal from the positioning system to determine its position. The information management system according to the first embodiment of the present invention comprises a barcode reader 100, a management server 200, and a positioning system 300.

Positioning system 300 is a system for transmitting a position measurement signal, for example, may be a GPS signal transmitter of a satellite transmitting a satellite positioning GPS (Geographic Positioning System) signal, in addition to laser transmitter, Bluetooth signal transmitter , An RF signal transmitter, an infrared transmitter, or a Wi-Fi signal transmitter. For example, if location measurement is performed by a radiolocation method using satellite GPS signals, the positioning system 300 will consist of GPS satellites mounted on three or more satellites each to transmit a GPS signal. That is, the positioning system 300 may be a system for transmitting any kind of signal that may be used to determine the location of a specific terminal, and may include an electromagnetic wave transmitter and a laser including a GPS signal. It can be configured as one or a combination of a light wave transmitter and a sound wave transmitter.

The barcode reader 100 provides a function for inputting barcode information by scanning a barcode and a function for calculating the position of the barcode reader 100 itself and transmitting it to the management server 200. In order to provide such a function, the barcode reader 100 includes a barcode scanning unit 131, a barcode reader unit 133, a signal receiver 141, a data converter 143, a position calculator 320, and a data transmitter. And 160.

The barcode scanning unit 131 functions to input information input from the outside by scanning a barcode attached to a product. The barcode reader unit 133 codes the data scanned by the barcode scanning unit 131 through pattern recognition. Accordingly, the barcode information provided from the outside is converted into a code corresponding thereto.

The bar code scanning unit 131 is included as an information input device according to an embodiment of the present invention by illustrating the bar code reader 100, the input unit according to the present invention, the input unit, bar code that the user can directly input specific information It may be configured to include any one or a combination of a reader, a wireless data reader, a magnetic card reader, an electric contact card reader, a contactless card reader.

The signal receiving unit 141 functions to receive a position measuring signal transmitted from the positioning system 300. The signal receiver 141 is implemented as a device corresponding thereto according to the type of the positioning system 300. That is, the signal receiver 141 is composed of a GPS signal receiver, a laser receiver, a Bluetooth signal receiver, an RF signal receiver, an infrared receiver, or a Wi-Fi signal receiver. The signal receiver 141 is a positioning system 300. This signal for position measurement is selected as being compatible with the positioning system 300 depending on which signal is transmitted by which protocol. If the positioning system 300 is composed of GPS satellites as described above, the signal receiver 141 may be configured as a device capable of receiving a GPS radio signal. As such, the signal receiver 141 may be configured as one or a combination of an electromagnetic wave receiver for receiving an electromagnetic wave including a GPS signal, an optical wave receiver for receiving an optical wave including a laser, or a sound wave receiver for receiving sound waves.

The data converter 143 converts the position measurement signal received through the signal receiver 141 into position calculation data of a form suitable for the position calculator 320 to perform a calculation operation. The position measurement signal received by the signal receiver 141 includes additional data such as data on a protocol for communication between the signal receiver 141 and the positioning system 300 in addition to the data directly necessary for the position measurement. The data converter 143 performs a function of directly extracting data necessary for position calculation except for such additional data.

The position calculator 320 calculates position data indicating the position of the barcode reader 100 based on the data of the position measurement signal received from the data converter 143. If the positioning system 300 is composed of GPS satellites as described above, the position calculating unit 320 calculates the position by the radio wave positioning method for the GPS signal. In this case, a method using a propagation path difference of GPS signals may be used as a specific method of calculating a position. In addition, the position calculating unit 200 may calculate the position data through a method such as a triangulation method, a tag measurement method, or a laser positioning method, and such a position calculation method corresponds to the type of the positioning system 300 and corresponding thereto. In consideration of the type of signal frequency converter 141, the precision of the required position calculation, etc., it is selected according to a need or a situation.

Typically, a GPS module for measuring a location using a GPS signal is manufactured to include a function for receiving a GPS signal and a function for calculating a location using the received GPS signal in one module. Therefore, when the positioning system is composed of GPS satellites as described above, by installing such a GPS module in the barcode reader 100, the signal receiver 141, the data converter 143, and the position calculator of the present embodiment. The 320 can be easily mounted in the barcode reader 100.

The data transmitter 160 provides an interface for transmitting the coded information data output from the barcode reader 133 and the position data output from the position calculator 320 to the management server 200. The data transmitter 160 may be configured as a wireless data transmitter such as a Bluetooth transmitter, or may be configured as a wired data transmitter including a USB port or a serial port. Whether such wired or wireless is a part to be selectively configured according to the environment and the need to use the barcode reader 100 and the management server 200. By such a data transmission unit 160, data about the information input through the barcode scanning unit 131, and the position data calculated by the position calculation unit 320 can be transmitted to the management server 200.

On the other hand, the storage unit 150 is provided in the barcode reader 100. The storage unit 150 stores data about information input through the barcode scanning unit 131 and / or data about a position measurement signal received through the signal receiving unit 141. The storage unit 150 is an optional additional component, and the barcode server 131 scans the barcode together with the position measurement signal received by the signal receiver 141 to immediately scan the management server 200. In the case of storing as such storage unit 150 will not necessarily be provided. However, when the storage unit 150 is provided to temporarily store the recognized information and the calculated position data in the storage unit 150, the management server 200 after the barcode reader 100 accumulates the data more than a predetermined amount. Since it can be sent to, the bar code reader 100 has the advantage that there is no burden to be kept in communication with the management server 200 at all times and the portability of the bar code reader 100 is enhanced.

On the other hand, the display unit 110 and the operation unit 120 is provided in the barcode reader 100. The display unit 110 functions to display the information scanned by the bar code reader 100 and / or information on the position measurement data. The operation unit 120 includes the display operation of the display unit, and the barcode scanning operation of the barcode scanning unit 131 and the barcode reader unit 133, the signal receiving unit 141, the data conversion unit 143, and the position calculating unit 320. ) Is provided for the user to control the operation and the manner of performing the operation for measuring the position, and the data transmission operation of the data transmission unit 160.

The management server 200 includes a data receiver 260, an information reader 230, and a storage 250.

The data receiver 260 is an interface capable of communicating with the data transmitter 160 of the barcode reader 100 in order to receive data and position data about information transmitted from the barcode reader 100.

The information reading unit 230 compares the information received through the data receiving unit 260 with predetermined reference data and extracts detailed information corresponding to the received information. That is, the information reading unit 230 inquires a database including information on prices, product names, expiration dates, and the like of all the goods indicated by the bar code, and extracts detailed information of each item corresponding to the information on the input bar code. . Although not illustrated in FIG. 1, such a database may be provided in the management server 200, or may be separately installed in another DB server connected to the management server 200.

The storage unit 250 functions to store data and position data of information received through the data receiver 260. In this case, the storage unit 250 may store the information itself received through the data receiving unit 260 together with the location data, or may store the detailed information extracted by the information reading unit 230.

On the other hand, the management server 200 includes a display unit 210 and a control unit 280. The display unit 210 is configured as a general monitor or LCD display to display the position data or the detailed information of the product read by the information reading unit 230, or to display the operation status of the current management server 200 and the like. Used. The controller 280 is used to control overall operations of each component of the management server 200. Of course, a separate operation unit may be provided for the user to operate each control operation of the controller 280.

The operation of the information management system having such a configuration is as follows.

The positioning system 300 always outputs a position measuring signal such as a GPS signal. When the barcode reader 100 scans a specific barcode through the barcode scanning unit 131, at the same time, the signal receiver 141 receives data for position measurement transmitted by the positioning system 300. In this case, the signal receiver 141 may operate only at the time of scanning the barcode, or may continuously receive the signal for position measurement. In the case where the position measuring signal is constantly received, the position measuring data can be obtained at the same time only by checking the time scanned by the barcode scanning unit 131.

The data received from the signal receiver 141 is converted through the data converter 143, and the converted signal is transmitted to the position calculator 320, and the position calculator 320 of the barcode reader 100 is based on the received data. Compute position.

Meanwhile, the information scanned by the barcode scanning unit 131 and output from the barcode reader unit 133 is stored in the storage unit 150 together with the position data output from the position calculating unit 320. Data stored in the storage unit 150 is later transmitted to the management server 200 through the data transmission unit 160 according to the user's manipulation of the manipulation unit 120.

The data receiver 260 of the management server 200 receives data transmitted through the data transmitter 160. The information reading unit 230 extracts detailed information of a product corresponding to the barcode by querying a database having reference data as described above using the barcode information among the received data.

The storage unit 250 stores the position data calculated by the position calculator 220 and the detailed information extracted by the information reader 230. Accordingly, the storage unit 250 stores the data about the scanned product along with the location data of the scanned location of the database. By such a process, when the user of the management server 200 inquires the information of a specific product with a barcode, the user can know the location where the product is scanned.

On the other hand, the positioning system 300 as described above is selected according to the required accuracy, as described above, if the information input device of the present invention is used outdoors and requires a position accuracy of, for example, within a few meters GPS method This can be used, and cell-based location tracking schemes such as cell phone location tracking can be used when location accuracy of several tens of meters is required. In addition, when the information input device of the present invention is used indoors and requires a position accuracy of several tens of centimeters, for example, a book displayed in a library is scanned while carrying a barcode reader to input book information and book position together. In this case, the positioning system 300 may be installed as a separate indoor positioning system that can be installed indoors and has high positioning accuracy.

2 is a block diagram of an information management system according to a second embodiment of the present invention. The second embodiment of the present invention is an example in which the barcode reader transmits a position measurement signal received from the positioning system to the management server, and the management server calculates the position of the barcode reader based on the signal received from the barcode reader. Shows.

In the following embodiments, the same parts as those in the first embodiment shown in FIG. 1 will be omitted and the same reference numerals will be used, and only different parts from the embodiment in FIG. 1 will be described.

Also in the second embodiment, the information management system is composed of a barcode reader 100, a management server 200 and the positioning system 300.

The barcode reader 100 is the display unit 110, the operation unit 120, the barcode scanning unit 131, the barcode reader unit 133, the signal receiving unit 141, the data conversion unit 143, the same as the first embodiment A storage unit 150 and a data transmission unit 160 are provided, and their functions are basically the same as those of the first embodiment. However, in this embodiment, there is a difference that the barcode reader 100 does not have a position calculating unit.

The storage unit 150 stores the data received by the signal receiver 141 and the data converted by the data converter 143 together with the data of the information scanned by the barcode scanning unit 131, and the data transmission unit 160 scans the data. The data of the information and the data of the position measurement signal is transmitted to the management server 200.

Thus, since the barcode reader 100 does not have a function of calculating its own position data, the management server 200 should be provided with a separate position calculator 220. Accordingly, in this embodiment, the management server 200 includes a data receiver 260, an information reader 230, a display 210, a storage 250, and a controller 280 as in the first embodiment. However, the position calculation unit 220 is additionally provided.

According to the present embodiment as described above, even if the barcode reader 100 does not have a function for performing position calculation by itself, but has only a function of receiving a signal transmitted by the positioning system 300, By transmitting to the management server 200, the management server 200 can recognize the location of the barcode reader 100.

3 is a block diagram of an information management system according to a third embodiment of the present invention. The third embodiment of the present invention provides a function of providing a basis on which a positioning system or another system (eg, a management server) can calculate the position of a barcode reader by sending a positioning signal to the positioning system. The example provided is shown. In measuring the position of a specific device, as in the above-described GPS method, a single receiver receives and computes signals from multiple position transmitters, and conversely, one transmitter transmits one signal and multiple receivers respectively. There is a method of receiving and calculating a signal received by a transmitter. Of these methods, this embodiment shows an example in which the latter method is adopted.

Also in the third embodiment, the information management system is composed of a barcode reader 100, a management server 200 and the positioning system 300.

The barcode reader 100 is the display unit 110, the operation unit 120, the barcode scanning unit 131, the barcode reader unit 133, the storage unit 150, and the data transmission unit 160 as in the first embodiment And the functions thereof are basically the same as in the first embodiment.

In the present embodiment, the barcode reader 100 includes a signal generator 420 and a signal transmitter 410 instead of the signal receiver 141 and the data converter 143 of the first embodiment.

The signal generator 420 generates a position measurement signal to be transmitted to an external device, and the signal transmitter 410 transmits the position measurement signal generated by the signal generator 420 to the positioning system 300. Function to transmit. The signal transmitter 410 may be configured as one or a combination of an electromagnetic wave transmitter, an optical wave transmitter including a laser, and an acoustic wave transmitter similarly to the positioning system 300 in the first embodiment.

The positioning system 300 includes a plurality of receivers, each of which receives a signal received by the signal transmission unit 410, so that the positioning system 300 itself or the data from the positioning system 300 is received. The other device receiving the transmission may calculate the position of the barcode reader 100 by the positioning technique based on the propagation path difference.

The storage of location information may store location information received from the positioning system 300.

Meanwhile, in the present embodiment, the storage unit 150 and the data transmission unit 160 store only the barcode information scanned by the barcode scanning unit 131 without storing or transmitting the data of the position measurement signal or the management server 200. Will be sent).

On the other hand, based on the configuration of the bar code reader 100 and the positioning system 300, the management server 200 will have a slightly different configuration than the embodiment of FIG. That is, the management server 200 operates the data receiver 260, the information reader 230, the storage 250, the display 210, the controller 280, and the position calculator 220 as in the second embodiment. And their functions are substantially the same as those of the second embodiment, but in addition, the signal receiver 510 is provided.

The signal receiver 510 may perform data communication with the positioning system 300 in a wired or wireless manner, and receives a position measuring signal transmitted by the positioning system 300. That is, the positioning system 300 transmits data on the position measurement signal received from the barcode reader 100 to the management server 200, and the signal receiving unit 510 of the management server 200 receives the data. do.

The position calculator 220 calculates position data indicating the position of the barcode reader 100 by applying a positioning method based on a radio wave propagation path difference as described above based on the position measurement signal received by the signal receiver 510. do.

On the other hand, due to this difference, the data receiving unit 260 receives only information on the bar code transmitted by the data transmitting unit 160 of the bar code reader 100, and the functions and operations of the other parts are the first embodiment described above. Same as the management server 200 in the example.

According to the present embodiment as described above, the barcode reader 100 itself provides the position measuring signal to the external device so that the external device can measure the location of the information system when the barcode reader 100 scans the barcode. In this way, the information input and the location of the information park can be input.

Meanwhile, in the present exemplary embodiment, the position calculating unit 220 is provided in the management server 200, but the position calculating unit 220 may be provided in the positioning system 300 itself. In this case, since the positioning system 300 itself can provide the management server 200 with the position data calculated by calculating the position of the barcode reader 100, the position calculating unit 220 in the management server 200. Since there is no need to be provided, there is an advantage that the configuration of the management server 200 becomes simpler.

Meanwhile, in the description of the embodiments of the present invention, although each part is shown as a separate block by dividing each function by its function, when the actual implementation of each component is performed, unlike in these embodiments, a plurality of blocks are included in one module. It may be implemented by. Furthermore, each module may be configurable only in software, configurable as hardware, or may be implemented in a combination of software and hardware.

In addition, the above-described embodiments illustrate a method of determining the position of the barcode reader 100 based on the position measurement signal for the time when the barcode reader 100 scans, but the barcode reader 100 and the positioning system. Transmitting and receiving the signal for measuring the position between the 300 is always made, and thus adopts a method such that the position of the barcode reader 100 itself or the management server 200 is constantly grasping the position of the barcode reader 100 accordingly. You may. In the case of employing such a method, since the barcode reader 100 or the management server 200 always recognizes the position of the barcode reader 100 or at least always has data capable of identifying the position of the barcode reader 100. In addition, even when the barcode reader 100 records only the information about the scanned time in the storage unit 150 or is modified to transmit the data to the management server 200 through the data transmission unit 160, the management server 200 always has a barcode. The position of the reader 200 can be calculated.

In this case, since the time when the barcode reader 200 scans the barcode is the same as having the information on the position measurement signal of the barcode reader 200, the data of the position measurement signal in the embodiments and claims of the present invention. In this modified example, it should be interpreted that the concept of transmitting only the information on the time of scanning from the barcode reader 200 to the management server 200.

Meanwhile, in the description of the embodiments of the present invention, the GPS system for the positioning system 300 is mainly described as an example. The GPS satellite positioning method enables three-dimensional position measurement, and the position calculating unit uses a three-dimensional position calculation algorithm to conform to the positioning system that enables the three-dimensional position measurement. Calculate the data. Such a three-dimensional positioning method has a variety of methods in addition to this, and when using the three-dimensional positioning method as described above may be more various applications of the present invention. However, the present invention is not limited only to this three-dimensional positioning method, and if necessary, a method of measuring two-dimensional positioning, that is, only coordinates on a plane, may be employed.

As described above, according to the present invention, there is provided a function of reading or inputting information of an object and a function of identifying a location of an information park having such information. Accordingly, the present invention provides a convenient function that can be utilized in various fields in which it is required to input and manage information on the location of the thing together with the information about the thing.

Although the above has been illustrated and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, those skilled in the art without departing from the gist of the present invention various modifications It will be understood that such modifications are within the scope of the claims of the present invention.

Claims (18)

An input unit configured to include any one or a combination of a barcode reader, a wireless data reader, a magnetic card reader, an electric contact card reader, and a contactless card reader, and read externally provided information; A signal receiver which receives a signal for position measurement transmitted from an external device; And And a data transmitter for transmitting data on the information read through the input unit and data on the position measurement signal received through the signal receiver to an external server. delete The method of claim 1, And a data converting unit converting the position measuring signal received through the signal receiving unit into position calculating data recognizable by the external server. And the data transmission unit transmits the position calculation data output by the data conversion unit to the external server. The method according to claim 1 or 3, And a position calculator configured to calculate position data indicating a position of the information input device based on the position measurement signal received through the signal receiver. And the data transmitter transmits the position data calculated by the position calculator to the external server. The method of claim 4, wherein And the position calculator calculates a three-dimensional position. The method of claim 4, wherein And the position calculating unit calculates the position data through a radio wave positioning method. The method according to claim 1 or 3, The signal receiving unit includes an information receiver comprising at least one of an electromagnetic wave receiver including a GPS signal, an optical wave receiver including a laser, and a sound wave receiver. The method according to claim 1 or 3, And a storage unit for storing at least one of data for the information input through the input unit and data for the position measurement signal received through the signal receiver. device. An input unit for inputting externally provided information; A data transmission unit for transmitting data about the information input through the input unit to an external server; A signal generator for generating a position measurement signal to be transmitted to an external device; And A signal transmitter which transmits the position measurement signal to the external device so that the external device can measure the location of the information system providing the information at the time when the information is input to the input unit; Information input device comprising a. The method of claim 9, The input unit may include any one or a combination of an input device, a barcode reader, a wireless data reader, a magnetic card reader, an electric contact card reader, and a contactless card reader that can directly input specific information. device. The method according to claim 9 or 10, The signal transmission unit, an information input device comprising any one or more of an electromagnetic wave transmitter, an optical wave transmitter including a laser, and a sound wave transmitter. delete delete delete delete delete delete delete

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