JP2021087051A - Data receiving device and data processing method - Google Patents

Abstract

To allow received data to be appropriately classified regardless of contents in a device that receives data.SOLUTION: A receiving device 1 includes: a receiving unit 41 that receives data D1 by facsimile communication; an analysis unit 12 that analyzes image data included in the data D1; a storage unit 20 that stores accumulated information 22 in which analysis results of the analysis unit 12 are accumulated and storage destination information indicating a storage destination of the data D1; and a data processing unit 13 that determines the storage destination of the data D1 based on an analysis result of the analysis unit 12 and the accumulated information 22, and transmits the data D1 to the determined storage destination.SELECTED DRAWING: Figure 1

Description

The present invention relates to a data receiving device and a data processing method.

Conventionally, a device for distributing a received FAX document to a storage area is known (see, for example, Patent Document 1). The apparatus described in Patent Document 1 performs OCR processing on an area in which a character string exists in a FAX document, and determines a distribution destination of the FAX document by collating the character string recognized by the OCR processing with a distribution keyword. ..

JP-A-2019-16853

In the configuration described in Patent Document 1, it is necessary to obtain sufficient character information from the FAX document in order to determine the distribution destination. Therefore, there is a problem that sorting is difficult when there is no character information obtained from the FAX document or when the character information is insufficient.

One aspect of solving the above problem is a data receiving device that transmits data received by facsimile communication to a storage destination, and includes an analysis unit that analyzes image data, accumulated information that accumulates analysis results of the analysis unit, and storage information. The analysis unit includes a storage unit that stores storage destination information, a reception unit that receives data including image information by the facsimile communication, and a data processing unit that transmits the data to the storage destination. The image information included in the data is analyzed as the image data, and the data processing unit determines the storage destination based on the analysis result of the data by the analysis unit and the accumulated information stored in the storage unit. , A data receiver.

In the data receiving device, the data processing unit may have a learning unit that learns the correlation between the analysis result of the analysis unit and the storage destination of the data based on the accumulated information.

In the data receiving device, the stored information may include the reception date and time when the data was received and the source information indicating the source of the data by the facsimile communication.

In the data receiving device, when the data is transferred by the facsimile communication and received by the receiving unit, the stored information may include the transfer history of the data.

In the data receiving device, the image data may be at least one of the document format of the document and the data of the captured image obtained by capturing the subject.

The data receiving device includes a connection unit connected to a data storage device that stores the data as the storage destination, and the data processing unit is provided in a storage area provided in the data storage device via the connection unit. It may be configured to transmit data.

In the data receiving device, the storage unit has a data storage area for storing the data as the storage destination, and the data processing unit transmits the data to the data storage area of the storage unit. You may.

Another aspect of solving the above problem is a data processing method in which data received by facsimile communication is transmitted to a storage destination, and the accumulated information in which the analysis results of analyzing the image data are accumulated and the storage destination information are stored. Then, the data including the image information is received by the facsimile communication, the image information included in the data is analyzed as the image data, and the storage destination of the data is based on the analysis result of the data and the accumulated information. Is a data processing method in which the data is determined and the data is transmitted to the determined storage destination.

Block diagram of the receiver. The schematic diagram which shows the example of the data which a receiving device stores. The schematic diagram which shows the structural example of the training data set. A flowchart showing the operation of the receiving device.

Hereinafter, embodiments to which the present invention is applied will be described with reference to the drawings.
FIG. 1 is a block diagram of the receiving device 1. The receiving device 1 includes a control unit 10, a storage unit 20, a receiving unit 41, a connecting unit 42, an input unit 43, and a display unit 44. The receiving device 1 corresponds to an example of a data receiving device.

The receiving device 1 is a facsimile device that executes facsimile communication via a public switched telephone network or an IP telephone network and receives data D1 obtained by reading a document D.
In the present embodiment, as an example, a case where a device that receives data D1 by facsimile communication reads the document D in page units and receives data D1 which is image data of the entire page of the document D will be described. The data D1 is, for example, image data obtained by imaging one page of the manuscript D. The data D1 may be data having the format of an image file. In this case, the data D1 may be a file composed of one page of image data, or may be a file containing a plurality of pages of image data.

The receiving unit 41 is connected to a public switched telephone network or an IP telephone network and has a function of transmitting and receiving data. The receiving unit 41 includes, for example, an RJ11 modular connector and a communication circuit. The receiving unit 41 performs facsimile communication, receives the data D1, and outputs the received data D1 to the control unit 10. IP is an abbreviation for Internet Protocol.

When the data D1 is received by facsimile communication, the receiving unit 41 acquires the information of the transmission source that transmitted the data D1. The information acquired by the receiving unit 41 is, for example, the telephone number, IP address, domain name, identification information, or other name of the source of the data D1, and is used as the telephone number in the present embodiment.

When the data D1 received by the receiving unit 41 is the data transmitted via the transfer by facsimile communication, the connecting unit 42 may be able to acquire the information regarding the transfer history of the data D1. Here, the transfer is an operation of receiving the data D1, temporarily storing the data D1, and transmitting the data D1 to another device. The information regarding the transfer history is transmitted to the connection unit 42 by data communication between the transmission source device that transmitted the data D1 to the reception unit 41 and the connection unit 42. The transfer history includes information indicating the device that first transmitted the data D1 and information indicating the device that transferred the data D1. When a plurality of devices transfer the data D1, the transfer history may include information on all the devices involved in the transfer of the data D1. These pieces of information are, for example, the telephone numbers of the device that first transmitted the data D1 and the device that transferred the data D1.

The connection unit 42 is a communication interface connected to the communication network 3, and transmits / receives data through the communication network 3. The connection unit 42 may be a wired interface having a terminal such as a USB connector or an Ethernet connector and an interface circuit, or may be a wireless communication interface. The type and number of devices accessed by the connection unit 42 through the communication network 3 are not limited. In the present embodiment, the connection unit 42 shows an example of accessing the first server 61 and the second server 62 through the communication network 3 under the control of the control unit 10. Ethernet is a registered trademark.

The first server 61 has a first storage area 63 for storing data. When the connection unit 42 accesses using the information that specifies the first storage area 63, the first server 61 accepts the access of the connection unit 42 and data in the first storage area 63 requested by the connection unit 42. Remember. The information that specifies the first storage area 63 is the URL that specifies the first storage area 63, and the information that specifies the domain name of the first server 61 and the first storage area 63. URL is an abbreviation for Uniform Resource Locator.

The first server 61 may be a server that provides an online storage service through the communication network 3. In this case, the first server 61 authenticates the receiving device 1 in response to the access of the connecting unit 42, and stores the data in the first storage area 63 in association with the user ID of the receiving device 1. The second server 62 is a device capable of operating in the same manner as the first server 61. The connection unit 42 can access the first server 61, the second server 62, and other servers through the communication network 3.
The first server 61 and the second server 62 correspond to an example of a data storage device, and the first storage area 63 and the second storage area 64 correspond to an example of a storage area.

The input unit 43 has, for example, an operation panel having switches and buttons, or an operation unit composed of a touch panel or the like. The input unit 43 receives the input by the user and outputs data indicating the content of the input to the control unit 10.

The display unit 44 has a display screen composed of, for example, a liquid crystal display panel, and displays characters and images on the display screen under the control of the control unit 10.

The control unit 10 includes a processor such as a CPU or a microcomputer, and controls each unit of the receiving device 1 by executing a control program by the processor. The control unit 10 may include a ROM that non-volatilely stores a program executed by the processor and / or a RAM that constitutes a work area of the processor, or may include other peripheral circuits. Here, CPU is an abbreviation for Central Processing Unitm, ROM is an abbreviation for Read Only Memory, and RAM is an abbreviation for Random Access Memory.

The control unit 10 includes a reception control unit 11, an analysis unit 12, and a data processing unit 13. Each of these units is realized by the cooperation of software and hardware by the processor of the control unit 10 executing the program stored in the storage unit 20.

The storage unit 20 is a non-volatile storage device composed of a magnetic storage device, an optical storage medium, a semiconductor memory element, and the like, and stores a program executed by a processor constituting the control unit 10 and various data.
The storage unit 20 of the present embodiment stores the setting data 21, the stored information 22, and the destination information 23. The storage unit 20 can be provided with a storage area for storing the data D1, and the number of storage areas of this type is not limited. In this embodiment, as an example, an example in which the first data storage area 25 and the second data storage area 26 are provided will be shown.

When the data D1 destined for the receiving device 1 is transmitted, the receiving control unit 11 controls the receiving unit 41 to receive the data D1 and acquire the data D1. The reception control unit 11 acquires the destination information and the transfer history acquired by the reception unit 41 at the time of receiving the data D1 together with the data D1. The reception control unit 11 updates the accumulated information 22 at a predetermined timing when the reception unit 41 receives the data D1.

The analysis unit 12 analyzes the data D1. When the data D1 includes image information of a plurality of pages, the analysis unit 12 may output the analysis result of the data D1 for each page, or may output the analysis result of the entire data D1. The data D1 transmitted by facsimile communication is usually image information obtained by optically reading the document D or image information synthesized for facsimile transmission by a personal computer or the like. The analysis unit 12 analyzes the image information included in the data D1 as image data. The analysis unit 12 has an analysis engine composed of, for example, a CNN, analyzes the data D1 by the analysis engine, and outputs an analysis result including the feature value of the data D1. CNN is an abbreviation for Convolutional Neural Network. The analysis unit 12 may store the analysis result of the data D1 in the storage unit 20.

The analysis unit 12 processes the image information included in the data D1 as image data. When the data D1 includes text data, the analysis unit 12 may perform analysis after converting the entire data D1 including the text data into image data. Alternatively, the analysis unit 12 may extract the image data and analyze the extracted image data when the data D1 includes the image data and the text data. For example, the analysis unit 12 extracts and analyzes the data of the image reflecting the document format of the document D and the data of the captured image obtained by capturing the subject from the data D1.

The data processing unit 13 acquires the analysis result of the analysis unit 12, and determines the transmission destination of the data D1 based on the acquired analysis result. The destinations of the data D1 are the first storage area 63, the second storage area 64, the first data storage area 25, the second data storage area 26, and the like. The data processing unit 13 sends the data D1 to the determined destination and stores it. When the destination is the first storage area 63 or the second storage area 64, the data processing unit 13 causes the connection unit 42 to transmit the data D1 to the first server 61 or the second server 62. When the destination of the data D1 is the first data storage area 25 or the second data storage area 26, the data processing unit 13 outputs the data D1 to the storage unit 20 to output the data D1 to the first data storage area 25 or the second data. It is stored in the storage area 26.

The process in which the data processing unit 13 transmits the data D1 to the destination is a specific example of the process in which the data D1 is stored in the data D1 storage destination. That is, the transmission referred to in this embodiment corresponds to an example of storage.
The data processing unit 13 determines a transmission destination from a plurality of different destinations for each data D1 received by the reception unit 41, and transmits the data D1. As a result, the data D1 is properly classified by being sent to different destinations.

The data processing unit 13 includes a learning unit 14 composed of artificial intelligence having a learning function, and uses the learning unit 14 for processing to determine a destination of data D1. The learning unit 14 is an initial model for machine learning composed of DNN or the like, or a learned model in which the initial model is made to perform learning using a learning data set. DNN is an abbreviation for Deep Neural Network. The learning unit 14 outputs the transmission destination of the data D1 in response to the input such as the analysis result obtained by the analysis unit 12 analyzing the data D1. The learning unit 14 will be described later.

The data processing unit 13 may accept the user's input regarding the destination of the data D1 by the input unit 43. In this case, the data processing unit 13 determines the transmission destination input by the input unit 43 as the transmission destination of the data D1.
The data processing unit 13 updates the destination information 23 when the data D1 is transmitted.

FIG. 2 is a schematic diagram showing a configuration example of information stored in the storage unit 20.
The setting data 21 includes setting values for each setting item related to the operation and function of the receiving device 1.

The stored information 22 includes information about the data D1 received by the receiving unit 41. In the example shown in FIG. 2, the stored information 22 includes an analysis result, a reception date and time, source information, and a transfer history, and each information is associated with a management number assigned to each data D1 received by the receiving unit 41. .. The analysis result is an analysis result obtained by analyzing the data D1 or the data extracted from the data D1 by the analysis unit 12. The reception date and time indicates the date and time when the receiving unit 41 received the data D1, and includes information on the date and time. The transmission source information is information acquired when the receiving unit 41 receives the data D1, and is information indicating the transmission source of the data D1. As described above, the destination information of the present embodiment is a telephone number. The transfer history is information indicating the transfer history acquired by the receiving unit 41 when the data D1 is received by the receiving unit 41 via the transfer.

The stored information 22 is updated by the reception control unit 11 every time the reception unit 41 receives the data D1 or at a preset timing. The control number is assigned by, for example, the reception control unit 11. Therefore, the stored information 22 stores information about the data D1 received by the receiving unit 41.
The stored information 22 may include the data itself analyzed by the analysis unit 12, and may include, for example, the data D1.

The destination information 23 includes information regarding the history in which the data processing unit 13 has transmitted the data D1. The destination information 23 includes a destination to which the received data D1 has been transmitted, that is, a storage destination of the data D1, and the destination is associated with a control number. The management number of the destination information 23 is shared with the stored information 22. The same management number is assigned to the stored information 22 and the destination information 23 regarding the data D1 received by the receiving unit 41. Therefore, it is possible to associate the stored information 22 with the destination information 23 using the management number as a key. The destination of the data D1 corresponds to an example of the storage destination, and the destination information 23 corresponds to an example of the storage destination information.

The destination information 23 is updated by the data processing unit 13 every time the data processing unit 13 transmits the data D1 or at a preset timing. Therefore, the destination information 23 includes the information of the destination to which the data processing unit 13 actually transmitted the data D1, and can be said to be the transmission history of the data D1.

The learning unit 14 executes learning based on the transmission history in which the data D1 is transmitted by the receiving device 1.

FIG. 3 is a schematic diagram showing a configuration example of the learning data set 50 used for learning of the learning unit 14.
The training data set 50 includes a plurality of training data 51. The learning data 51 includes received data 52 related to the data D1 and destination data 53 indicating the destination of the data D1.

The received data 52 is data extracted from the stored information 22, and the destination data 53 includes information on the destination extracted from the destination information 23. There is no limit to the number of training data 51 included in the training data set 50. FIG. 3 shows, as an example, the first learning data 51a, the second learning data 51b, and the third learning data 51c among the plurality of learning data 51. The first learning data 51a, the second learning data 51b, and the third learning data 51c contain the received data 52a, 52b, 52c, and the destination data 53a, 53b, 53c extracted from the accumulated information 22 and the destination information 23, respectively. Including. The received data 52a and the destination data 53a are information about the same data D1, and are stored in the storage unit 20 in association with a common registration number. The same applies to the received data 52b and the destination data 53b, and the received data 52c and the destination data 53c.

The learning unit 14 uses the learning data set 50 to learn the destination corresponding to the data D1. For example, the learning unit 14 executes supervised learning using the learning data set 50. In this case, the received data 52 corresponds to the learning data, and the destination data 53 corresponds to the correct answer label. As a result, the learning unit 14 learns the correlation between the analysis result of the data D1 received by the receiving unit 41, various information acquired at the time of receiving the data D1, and the transmission destination of the data D1.

As a result, the learning unit 14 is configured to output the transmission destination of the data D1 by inputting the analysis result of the analysis unit 12. The transmission destination output by the learning unit 14 may be one or a plurality of destinations. For example, the learning unit 14 may output the degree of relevance between the input analysis result and a plurality of destinations given in advance, and may output a plurality of destinations having a high degree of relevance.
The data processing unit 13 determines the destination of the data D1 from one or a plurality of destinations output by the learning unit 14. The data processing unit 13 may determine only one destination for one data D1. For example, the data processing unit 13 may select any one destination when the learning unit 14 outputs a plurality of destinations, or may allow the user to select and input one of the destinations. Good. Alternatively, the data processing unit 13 may determine a plurality of destinations for one data D1. In this case, the data processing unit 13 copies the data D1 to a plurality of destinations and transmits the data D1.

The learning unit 14 may be in the state of the initial model in which learning has not been performed at the time when the receiving device 1 starts to be used. In the state of the initial model, the learning unit 14 outputs a random destination when the analysis result of the analysis unit 12 or the information acquired at the time of reception of the receiving unit 41 is input.
The learning unit 14 may be a trained model in which learning based on the basic learning data set 50 is performed at the start of use of the receiving device 1. That is, the trained model trained by the basic training data set 50 may be mounted on the receiving device 1.

The learning unit 14 executes learning by the learning data set 50 generated based on the accumulated information 22 generated by the receiving device 1 and the destination information 23. Therefore, the learned learning unit 14 reflects the history in which the receiving device 1 has transmitted the data D1 and outputs an appropriate destination for the data D1.

The input unit 43 may have a configuration in which the transmission destination of the data D1 can be directly input. For example, the input unit 43 may have a key for inputting numbers and characters, and may be able to directly input a destination.

FIG. 4 is a flowchart showing the operation of the receiving device 1.
When the reception control unit 11 detects the reception of the data D1 by the reception unit 41, the reception control unit 11 receives the data D1 and acquires the data D1 and the information regarding the reception (step ST11). The information acquired in step ST11 is the reception date / time, the source information, the transfer history, and the like.

The analysis unit 12 acquires the data D1 or the image data extracted from the data D1 as data for analysis (step ST12). The analysis unit 12 analyzes the acquired data and outputs the analysis result (step ST13).

The reception control unit 11 updates the accumulated information 22 based on the information acquired in step ST11 and the analysis result of the analysis unit 12 (step ST14).

The data processing unit 13 inputs the analysis result of the analysis unit 12 to the learning unit 14, acquires the information of the transmission destination output by the learning unit 14, and determines the transmission destination of the data D1 (step ST15). Here, the data processing unit 13 may input information such as the reception date / time, the transmission source information, and the transfer history acquired in step ST11 into the learning unit 14 together with the analysis result of the analysis unit 12.

The data processing unit 13 causes the display unit 44 to display information indicating the destination determined in step ST15 (step ST16). The data processing unit 13 determines whether or not the input unit 43 has made an input for specifying the destination (step ST17). When the destination is input (step ST17; YES), the data processing unit 13 determines the destination of the data D1 as the destination based on the input of the input unit 43 (step ST18).

The data processing unit 13 transmits the data D1 to the determined destination after the destination is not input (step ST17; NO) and after the destination is determined in the destep ST18 (step ST19).

The data processing unit 13 updates the destination information 23 based on the result of transmitting the data D1 (step ST20).

The data processing unit 13 generates or updates the learning data set 50 from the accumulated information 22 and the destination information 23 (step ST21). The data processing unit 13 uses the generated or updated learning data set 50 to execute learning by the learning unit 14 (step ST22), and ends this processing.

The control unit 10 may omit steps ST16-ST18 in the above process. Further, the control unit 10 may execute steps ST14 and ST20 each time the receiving unit 41 receives, for example, a preset number of data D1s. In this case, steps ST21-ST22 are executed every time the stored information 22 and / or the destination information 23 is updated.

As described above, the receiving device 1 according to the embodiment to which the present invention is applied is a data receiving device that transmits the data D1 received by facsimile communication to the storage destination. The receiving device 1 receives the analysis unit 12 that analyzes the image data, the storage unit 20 that stores the accumulated information 22 that stores the analysis results of the analysis unit 12, and the storage destination information, and the data D1 that includes the image information by facsimile communication. The receiving unit 41 for receiving and the data processing unit 13 for transmitting the data D1 to the storage destination are provided, the analysis unit 12 analyzes the image information included in the data D1 as image data, and the data processing unit 13 analyzes the data D1. The storage destination is determined based on the analysis result of the data D1 by 12 and the accumulated information 22 stored in the storage unit 20.

The data processing method executed by the receiving device 1 is a method of transmitting the data D1 received by facsimile communication to the storage destination, and stores the accumulated information 22 accumulating the analysis result of analyzing the image data and the destination information 23. The data D1 including the image information is received by the unit 20 and stored by facsimile communication, the image information included in the data D1 is analyzed as image data, and the data D1 is saved based on the analysis result of the data D1 and the accumulated information 22. The destination is determined, and the data D1 is transmitted to the determined storage destination.

According to the receiving device 1 and the data processing method in the receiving device 1, the transmission destination to which the data D1 is transmitted can be determined based on the result of analyzing the received data D1. As a result, the data D1 can be appropriately classified by determining the transmission destination for each data D1 and transmitting the data. For example, even when the document D does not include the text indicating the destination, the data D1 related to the document D can be appropriately classified.

The data processing unit 13 has a learning unit 14 that learns the correlation between the analysis result of the analysis unit 12 and the storage destination of the data D1 based on the accumulated information 22. Therefore, learning regarding determination of the transmission destination of the data D1 can be executed based on the result of actually processing the data D1 by the receiving device 1. Therefore, the data processing unit 13 can determine an appropriate transmission destination by reflecting the usage status of the receiving device 1.

The stored information 22 includes the reception date and time when the data D1 is received, and the source information indicating the source of the data D1 by facsimile communication. Therefore, it is possible to determine a more appropriate transmission destination based on not only the result of analyzing the data D1 by the analysis unit 12 but also various information regarding the reception of the reception unit 41. For example, when the stored information 22 includes the reception date and time, the learning unit 14 can learn from the stored information 22 to determine the destination of the data D1 in consideration of the date, day of the week, and time when the data D1 is received. Further, for example, when the stored information 22 includes the transmission source information, the transmission destination of the data D1 can be determined in consideration of the transmission source together with the analysis result of the data D1.

When the data D1 is transferred by facsimile communication and received by the receiving unit 41, the stored information 22 includes the transfer history of the data D1. Therefore, it is possible to determine a more appropriate transmission destination based not only on the result of analyzing the data D1 by the analysis unit 12 but also on the transfer history of the reception unit 41. That is, since the learning unit 14 learns from the accumulated information 22 including the transfer history, it is possible to determine whether or not the data D1 has been transferred and the destination of the data D1 in consideration of the transfer history.

The analysis unit 12 analyzes the image data obtained from the data D1. For example, the image data included in the data D1 is at least one of the document format of the document D and the data of the captured image obtained by capturing the subject. When the data D1 is image data, the analysis unit 12 analyzes the data D1. As a result, the transmission destination can be determined based on the overall characteristics of the document D without being affected by the information of the specific character string, as compared with the case of performing OCR analysis on the data D1.

The receiving device 1 includes a connection unit 42 connected to a first server 61 and / or a second server 62 that stores data D1 as a storage destination. The data processing unit 13 transmits the data D1 to the first storage area 63 and / or the second storage area 64 provided in the first server 61 and / or the second server 62 via the connection unit 42. Therefore, the data D1 can be transmitted and stored in a device different from the receiving device 1. For example, by transmitting the data D1 to a server or the like that provides the service through the communication network 3, the online service can be used by using the data D1 received by the facsimile communication. When the receiving device 1 receives the data D1 by the receiving unit 41, the receiving device 1 transfers the data D1. Therefore, for example, as compared with the case where the data D1 is collectively stored in the storage unit 20 or the like and the plurality of data D1s are individually transmitted to the first server 61, the second server 62, or the like, the data is faster and more efficient. D1 can be classified.

The storage unit 20 has a first data storage area 25 and / or a second data storage area 26 for storing data D1. The data processing unit 13 transmits data D1 to the first data storage area 25 and / or the second data storage area 26 of the storage unit 20. In this case, in the storage unit 20 included in the receiving device 1, the data D1 is appropriately classified based on the analysis result of the analysis unit 12 and stored in the first data storage area 25 and / or the second data storage area 26. Can be done.

The above embodiment is merely a specific example to which the present invention is applied. The present invention is not limited to the configuration of the above embodiment, and can be implemented in various aspects without departing from the gist of the invention.

For example, in the above embodiment, the function and operation of receiving and transmitting the data D1 by the receiving device 1 have been described, but the receiving device 1 may execute the function of transmitting the data D1 by facsimile communication. For example, the receiving device 1 may have a function of optically reading the document D to generate the data D1, and the receiving unit 41 may be configured as a communication unit for transmitting the data D1.

Further, the receiving device 1 may be a receiving-only facsimile machine having no transmission function. Further, the receiving device 1 may include a printing unit. In this case, the receiving device 1 may transmit the data D1 by the data processing unit 13, print based on the data D1 by the printing unit, and output the printed matter.

At least a part of the functional blocks shown in FIG. 1 may be realized by hardware, or may be a configuration realized by collaboration between hardware and software. The processing unit of the flowchart of FIG. 4 is divided according to the main processing contents in order to make it easy to understand the operation of the receiving device 1, and the embodiment is based on the method and name of dividing the processing unit of FIG. Is not restricted.

The data processing method executed by the receiving device 1 can be realized by causing the processors constituting the control unit 10 to execute the control program. This control program can also be recorded on a recording medium that is readable by a computer. As the recording medium, a magnetic or optical recording medium or a semiconductor memory device can be used, and the specific embodiment thereof is not limited.

1 ... Receiving device (data receiving device), 3 ... Communication network, 10 ... Control unit, 11 ... Reception control unit, 12 ... Analysis unit, 13 ... Data processing unit, 14 ... Learning unit, 20 ... Storage unit, 21 ... Setting Data, 22 ... Accumulated information, 23 ... Destination information (save destination information), 25 ... First data storage area, 26 ... Second data storage area, 41 ... Receiver unit, 42 ... Connection unit, 43 ... Input unit, 50 ... Learning data set, 51, 51a, 51b, 51c ... Learning data, 52, 52a, 52b, 52c ... Received data, 53, 53a, 53b, 53c ... Destination data, 61 ... First server (data storage device), 62 ... 2nd server (data storage device), 63 ... 1st storage area (storage area), 64 ... 2nd storage area (storage area), D ... manuscript, D1 ... data.

Claims (8)

A data receiving device that sends data received by facsimile communication to a storage destination.
An analysis unit that analyzes image data and
A storage unit that stores the accumulated information that stores the analysis results of the analysis unit and the storage destination information.
A receiving unit that receives data including image information by the facsimile communication, and
A data processing unit that transmits the data to the storage destination is provided.
The analysis unit analyzes the image information included in the data as the image data, and then analyzes the image information.
The data processing unit determines the storage destination based on the analysis result of the data by the analysis unit and the accumulated information stored in the storage unit.
Data receiver. The data receiving device according to claim 1, wherein the data processing unit has a learning unit that learns the correlation between the analysis result of the analysis unit and the storage destination of the data based on the accumulated information. The data receiving device according to claim 1 or 2, wherein the stored information includes a reception date and time when the data is received and source information indicating the source of the data by the facsimile communication. The data receiving device according to any one of claims 1 to 3, wherein when the data is transferred by the facsimile communication and received by the receiving unit, the stored information includes a transfer history of the data. The data receiving device according to any one of claims 1 to 4, wherein the image data is at least one of a document format of a document and data of an captured image of a subject. A connection unit connected to a data storage device for storing the data is provided as the storage destination.
The data receiving device according to any one of claims 1 to 5, wherein the data processing unit transmits the data to a storage area provided in the data storage device via the connection unit. The storage unit has a data storage area for storing the data as the storage destination.
The data receiving device according to any one of claims 1 to 6, wherein the data processing unit transmits the data to the data storage area of the storage unit. It is a data processing method that sends the data received by facsimile communication to the storage destination.
Stores the accumulated information that accumulates the analysis results obtained by analyzing the image data and the save destination information.
Data including image information is received by the facsimile communication,
The image information included in the data is analyzed as the image data, and the image information is analyzed.
The storage destination of the data is determined based on the analysis result of the data and the accumulated information, and the data is transmitted to the determined storage destination.
Data processing method.

Images