JP2018092462A - Sensor information management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sensor information management system capable of using sensor information with high efficiency in a system for checking the authenticity of the sensor information acquired by a sensor, such as image data.SOLUTION: A sensor information input terminal: stores acquired sensor information and position information so as not to be altered; calculates a first hash value on the basis of the sensor information, the position information, and encryption time information provided by a sensor information management server; and transmits the first hash value, and the sensor information, the position information and the encryption time information used when calculating the first hash value, to the sensor information management server. The sensor information management server collates the first hash value with a second hash value calculated on the basis of the sensor information, the position information and the encryption time information. Only when the first hash value matches with the second hash value, the sensor information management server registers the received sensor information, the position information and the encryption time information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a sensor information management system for preventing falsification of various sensor information acquired by a sensor such as an image sensor.

  In recent years, the application of electronic documents including digital data and the creation of reports have been used in various fields. However, since digital data is easy to edit and falsify, the impersonation problem of digital data has become obvious. ing. For example, in construction management and ground surveys for construction work, the contractor of the construction and survey creates a report by altering the image data and ground survey data at the construction site, and conceals construction deficiencies after completion of the construction and survey. There have been cases of falsification of survey data. On the other hand, various techniques for detecting such alteration of digital data have been proposed and introduced in the management of actual construction work and ground investigation.

JP 2006-279518 A JP 2005-197901 A JP 2008-283235 A

  For example, in Patent Document 1, image data or a hash value of image data including image data shooting date / time information and shooting location information is registered in a certification authority as image data certification information, and image data calculated by an inquirer is disclosed. The authenticity of the image data is proved by comparing the hash value such as with the hash value registered in the certification authority. In this technology, the shooting date / time and shooting location information of the image data is information that supports the authenticity of the image, but since the shooting date / time information is the time information of the clock mounted on the camera that acquires the image data, There is a possibility that the shooting date and time information may be altered.

  Also in Patent Document 2, in addition to the image data captured by the image capturing apparatus, information in which shooting information indicating the shooting time and shooting position of the image data is embedded and the hash value of the shooting information are associated with the image information and managed. A technique for confirming the authenticity of image data by registering with the server has been proposed, but the information on the photographing time is the time information of the image photographing apparatus as in Patent Document 1, and in this technique, Tampering of time information indicating the time of shooting cannot be excluded.

  On the other hand, in Patent Document 3, the mobile terminal transmits positioning information to the data certification authority, the data certification authority calculates a certification code from the positioning information and time information of the mobile terminal, and provides the certification code to the mobile terminal. A method for transmitting ground survey data incorporating a code to a data certification authority has been proposed. The time information used when calculating the certification code is acquired by the data certificate authority, and the time information itself is not transmitted to the mobile terminal. It is secured.

  Here, since all the techniques proposed in Patent Documents 1-3 are used to confirm the authenticity of electronic data after the user uses the electronic data, When the number is large, there is a possibility that the work burden when confirming the authenticity of the electronic data becomes enormous. For example, when checking the authenticity of data in a large-scale project where multiple workers acquire multiple image data and create multiple reports using the acquired multiple image data. There has been a problem that the work load of the company becomes very large.

  The present invention has been made to solve the above-described problems, and reduces the burden on the user of sensor information in a system for confirming the authenticity of sensor information acquired by a sensor such as image data. Then, it aims at providing the sensor information management system which can utilize sensor information efficiently.

In order to solve the problems as described above, a sensor information management system according to the present invention includes a sensor information input terminal and a sensor information management server that manages sensor information acquired in the sensor information input terminal for each predetermined project. A sensor information management system comprising:
The sensor information input terminal receives sensor information acquisition means for acquiring the sensor information, position information acquisition means for acquiring position information of the sensor information input terminal, and reception of receiving encrypted time information from the sensor information management server Means, storage means for storing at least the acquired sensor information and position information, and inaccessible to a user operating the sensor information input terminal, and the sensor information and the position information stored in the storage means, First hash value calculation means for calculating a first hash value based on the encrypted time information received from the sensor information management server, and for calculating the first hash value and the first hash value. The sensor information, the position information, and the encrypted time information are transmitted to the sensor information management server using a predetermined communication line. A transmission unit that, the first hash value, the sensor information, prior to the transmission of the positional information and the encrypted time information, and a sensor information transmitting means for transmitting to the sensor information management server,
The sensor information management server includes a transmission unit that transmits the encrypted time information to the sensor information input terminal, the first hash value, the sensor information, the position information, and the encrypted time information. Sensor information receiving means for receiving from the input terminal, second hash value calculating means for calculating a second hash value based on the sensor information, the position information and the encryption time information, the first hash value and the second Hash value collating means for collating hash values, sensor information storage means for storing the sensor information, the position information and the encryption time information, and the sensor information, the position based on the collation result of the hash value collating means Determination means for determining whether to store the information and the encrypted time information in the sensor information storage means, the first hash value Only if the second hash value match, and to store the sensor information, the positional information and the encrypted time information to the sensor information storage means.

  According to the present invention, in a system for confirming the authenticity of sensor information acquired by a sensor such as image data, it is possible to reduce the burden on the user of the sensor information and efficiently use the sensor information. A sensor information management system can be provided.

FIG. 1 is a diagram showing an outline of a sensor information management system. FIG. 2 is a diagram illustrating a configuration example of an input person terminal, an editor terminal, and a sensor information management server in the sensor information management system. FIG. 3 is an example of a sensor information management table. FIG. 4 is an example of a report information management table. FIG. 5 is an example of a user information management table. FIG. 6 is a diagram for explaining sensor information registration processing. FIG. 7 is a diagram for explaining report information creation and verification processing. FIG. 8 is a flowchart of sensor information registration processing in the sensor information management server.

  Hereinafter, embodiments for carrying out the present invention will be described.

<Outline of sensor information management system>
FIG. 1 is a diagram showing an outline of a sensor information management system.

  The sensor information management system uses the input person terminal 10 that inputs sensor information such as acquired image information to the sensor information management server 20, the sensor information management server 20 that manages sensor information, and report information using at least part of the sensor information. Is composed of an editor terminal 30 for creating the information and a verifier terminal 40 for verifying the sensor information with reference to the report information. The sensor information management system according to the present embodiment is applied to a system using image data in construction management of construction work or digital data in ground investigation, but is not limited thereto, and the authenticity of digital data is It can be applied to any problem. The sensor information is not limited to image information, and can be applied to digital data acquired by other sensors.

  The input person acquires sensor information such as image information and position information using the input person terminal 10 and inputs the sensor information to the sensor information management server 20. Here, the acquired sensor information and position information are stored in a storage unit that cannot be accessed by the input person who is the user of the input person terminal 10, and the input person cannot refer to or falsify the sensor information or the like.

  Prior to the input to the sensor information management server 20 such as sensor information, the input person terminal 10 calculates a hash value (first hash value) that is information for proving the authenticity of the acquired sensor information. To the sensor information management server 20. This hash value (first hash value) is calculated based on sensor information or the like stored in a storage unit that cannot be accessed by the input person, and is used to prove the authenticity of the sensor information and the like. It can be used as information.

  Further, when calculating the hash value, it is possible to confirm whether the sensor information is acquired at a valid place and time by using the position information and time information of the input person terminal 10. Here, the time information is acquired from the sensor information management server 20 and encrypted by the sensor information management server 20 so that it cannot be tampered with at the input person terminal 10.

  The input user terminal 10 further transmits to the sensor information management server 20 the sensor information, the position information, and the encryption time information used when calculating the hash value (first hash value). Here, since the hash value has a smaller data amount than the sensor information such as image information, for example, the hash value is transmitted using the wireless line of the mobile terminal, while the image information or the like has a larger data amount than the hash value. The sensor information may be transmitted to the sensor information management server 20 using a communication line with higher communication quality.

  For example, when it is necessary to register a large number of field images in a construction work, only the hash value calculated based on each of the acquired large number of image information prior to the transmission of the image information is stored in the wireless line of the mobile terminal. Is transmitted to the sensor information management server, and after transmission of all hash values, the image information corresponding to each hash value is transmitted to the sensor information management server 20 using a stable wired line with high communication quality. You may make it transmit.

  The sensor information management server 20 calculates a hash value (second hash value) based on the received sensor information, position information, and encryption time information, and receives a hash value (first hash value) received from the input terminal 10. ) And the received sensor information, position information, and encryption time information are stored, and if they do not match, the received sensor information is not stored. Thus, by registering only data for which authenticity such as sensor information can be confirmed, a highly reliable database of sensor information for which authenticity has been confirmed can be constructed.

  The editor uses the editor terminal 30 to create report information using at least a part of the sensor information, the position information, and the encryption time information registered in the sensor information management server 20, and uses the created report information as a sensor. Register in the information management server 20. Note that the encryption time information is decrypted when creating the report information. Since the registered sensor information or the like has been confirmed to be authentic by comparing hash values, report information can be created using highly reliable data.

  This report information can be created only by an editor who has been authenticated by the sensor information management server 20, and all report information creation operations are performed in a secure environment on the sensor information management server 20. By preventing download to the outside of the management server 20, highly reliable report information can be created. In addition to the report information, sensor information identification information used when generating the report information, for example, a file name is also registered. This identification information is used to confirm sensor information that was not used when creating report information.

  The verifier verifies the generated report information using the verifier terminal 40. The verification of the report information can be performed only by a verifier authenticated by the sensor information management server 20. The verifier terminal 40 can check sensor information that has not been used to create report information by referring to the identification information of the sensor information that was used to create report information during verification. . As a result, it is possible to confirm whether or not the data that should be originally used is used, and thus it is possible to cope with data hiding and the like.

  In addition, the verifier registers deletion permission information for permitting deletion of the sensor information used for creating the report information with respect to the report information that has been verified. When this deletion permission information is registered in all the report information, it is possible to determine that the sensor information used for creating the report information can be deleted.

<Configuration of sensor information management system>
FIG. 2 is a diagram illustrating a configuration example of an input person terminal, an editor terminal, and a sensor information management server in the sensor information management system.

  The input person terminal 10 wirelessly communicates with a sensor unit 11 and a sensor information acquisition unit 12 that acquire sensor information such as image information, a position information acquisition unit 13 that acquires position information using a GPS function, and a sensor information management server 20. , A central processing unit 15 for controlling each unit, a storage unit 16 for storing various information, an input unit 17 for inputting information by an input person, a display unit 18 for displaying various information, and as necessary An I / F unit 19 that performs transmission processing of sensor information and the like is provided. The central processing unit 15 performs sensor information and position information acquisition control, transmission / reception control with the sensor information management server, hash value calculation processing, and the like. Here, the acquired sensor information and position information are stored in the storage unit 16 so that an input person who is the user of the input person terminal 10 cannot refer to or tamper with.

  In the central processing unit 15, sensor information such as image information acquired by the sensor information acquisition unit 12, position information of the input person terminal 10 acquired by the position information acquisition unit 13, encrypted time information acquired via the wireless unit 14 Is used to calculate a hash value (first hash value). This hash value (first hash value) is calculated based on sensor information and the like stored so that the input person cannot access, and is trusted as information for proving authenticity of the sensor information and the like. High nature. The calculated hash value (first hash value) is transmitted to the sensor information management server 20 via the wireless unit 14. Here, transmission of a hash value with a small amount of data is performed via the wireless unit 14, and sensor information with a large amount of data is transmitted via the I / F unit 19 using a communication line with higher communication quality. You may make it transmit to the information management server 20. FIG.

  The sensor information management server 20 includes a central processing unit 21 that manages sensor information and the like, an input person terminal 10, an editor terminal 30, and a verifier terminal 40 that communicate with the I / F part 26 via the network 50. And a storage unit 27 for storing sensor information and the like.

  The central processing unit 21 includes a time information management unit 22 that manages time information, a sensor information management unit 23 that manages sensor information, a hash information management unit 24 that manages hash information, and a report information management unit 25 that manages report information. In addition to time information, sensor information, hash information, and report information, authentication information (ID, password) of the input person, editor, and verifier is stored in the storage unit 27. The storage unit 27 may store user management information such as a hash value collation result for each input person and a verification result of report information for each editor together with authentication information for the input person.

  The time information management unit 22 encrypts and decrypts time information to be transmitted to the input person terminal 10, and the sensor information management unit 23 manages the sensor information and the like transmitted from the input person terminal 10. The hash information management unit 24 manages the hash value (first hash value) transmitted from the input user terminal 10 and the hash value (based on the sensor information, position information, and encryption time information transmitted from the input user terminal 10). (Second hash value) calculation, hash value collation, and determination as to whether or not to store sensor information or the like based on the collation result, the report information management unit 25 reports the report information for each created report information. Manage.

  3 to 5 are examples of a sensor information management table, a report information management table, and a user information management table, respectively.

  The sensor information management table of FIG. 3 includes, for each sensor information transmitted from the input person terminal, a sensor information file name for identifying sensor information, an input person ID for inputting sensor information, sensor information, position information, and time information. , And the hash value (first hash value) transmitted from the input user terminal is registered. Here, the sensor information, the position information, and the time information are the hash value (second hash value) calculated based on the sensor information and the like, and the hash value (first hash value) transmitted from the input terminal. If only the hash values do not match, only the hash value (first hash value) is registered. Note that the sensor information and the hash value (first hash value) are separately transmitted from the input terminal, but the association is performed by the sensor information file name that is identification information of the sensor information. .

  The report information management table in FIG. 4 is used to verify the editor information for each report information, the editor ID that created the report information, the sensor information file name of the sensor information used when creating the report information, and the report information. Of the sensor information and the deletion permission information of the sensor information registered with respect to the report information that has been verified. The sensor information used when creating the report information is specified by the sensor information file name that is identification information of the sensor information.

  In the user information management table of FIG. 5, information such as a hash value collation result for each input person and a verification result of report information for each editor is registered. These pieces of information can be used when guessing an input person who has tampered with or an editor who has made a fraud in creating report information.

<Sensor information registration process>
FIG. 6 is a diagram for explaining sensor information registration processing.

  The input person of sensor information logs in to a sensor information management server using an input person terminal, in order to input a hash value. When the authentication result is OK, the input person terminal acquires sensor information such as image information, receives encrypted time information from the sensor information management server, and acquires position information of the input person terminal. Here, the acquired sensor information and position information are stored so that the input person who is the user of the input person terminal cannot refer to or tamper with. In the input user terminal, a hash value (first hash value) is calculated using the acquired sensor information and the like, transmitted to the sensor information management server, and stored in the storage unit of the sensor information management server. This hash value (first hash value) is calculated based on sensor information stored so that the input person cannot access it, and is used as information for proving authenticity of the sensor information or the like. .

  Next, in order to input sensor information or the like, the input person logs in to the sensor information management server using the input person terminal, and sensor information used when calculating the hash value (first hash value), The position information and the encrypted time information are transmitted to the sensor information management server. Here, sensor information such as image information having a larger amount of data than the hash value may be transmitted to the sensor information management server using a wired line having higher communication quality.

  The sensor information management server that has received the sensor information or the like calculates a hash value (second hash value) based on the received sensor information or the like, and transmits the hash value (second hash value) transmitted from the input terminal and stored in the storage unit. The received sensor information and the like are stored only when they match each other. When the input person of the input terminal transmits sensor information or the like different from the sensor information used when calculating the hash value to the sensor information management server, the first hash value does not match the second hash value. Therefore, the received sensor information or the like is not stored. Since this hash value collation result is notified to the input person terminal, the input person can recognize that the hash values do not match.

<Report information creation and verification process>
FIG. 7 is a diagram for explaining report information creation and verification processing in the present invention.

  The editor logs in to the sensor information management server using the editor terminal, and creates report information using at least a part of the registered sensor information and the like. For example, the report information includes the contents of sensor information such as image information, position information, and time information. All the work of creating the report information is performed in a secure environment on the sensor information management server, and the sensor information and report information cannot be downloaded outside the sensor information management server. The created report information is registered in the sensor information management server, and the sensor information identification information used when creating the report information, for example, the file name is also registered. The created report information is given a verification ID for verifying the report information and notified to the editor terminal.

  The verifier logs in to the sensor information management server using the verifier terminal, and verifies the report information using the verifier ID notified to the editor. For example, the content, position information, and time information of the sensor information included in the report information are confirmed, and it is verified whether the correct sensor information has been acquired, or whether the sensor information has been acquired at the correct location and time. be able to. In addition, the verifier refers to sensor information identification information registered for each report information, for example, the sensor information file name, and confirms whether appropriate sensor information is used or data is not hidden. You can also Here, the authenticity of the sensor information or the like can also be confirmed by downloading the sensor information or the like used to create the report information, calculating the hash value, and collating it with the registered hash value.

  In the report information that has been verified, deletion permission information that permits deletion of the sensor information used to create the report information is registered. When this deletion permission information is registered in all the report information, it is possible to determine that the sensor information used for creating the report information can be deleted.

  FIG. 8 is a flowchart of sensor information registration processing in the sensor information management server of the present invention.

  When receiving the login information from the input terminal (S1-1), the sensor information management server transmits the authentication result (S1-2). When the time information request is received from the input user terminal (S1-3), the time information is encrypted (S1-4), and the encrypted time information is transmitted (S1-5). When the hash value (first hash value) is received from the input user terminal (S1-6), the received hash value is stored (S1-7).

  The sensor information management server accepts login from the input person terminal again (S1-8, S1-9), and receives sensor information, position information, and encryption time information from the input person terminal (S1-10). A hash value (second hash value) is calculated based on the sensor information (S1-11), checked against the hash value (first hash value) stored in the storage unit (S1-12), It is determined whether they match (S1-13). As a result of the collation, if the two match, the received sensor information or the like is saved (S1-14), and the hash value collation result is transmitted to the input user terminal (S1-15). Does not store sensor information or the like, but only transmits a hash value verification result.

  As described above, according to the present embodiment, the electronic data such as the sensor information is registered in the server only when the authenticity of the electronic data such as the sensor information can be confirmed. It is possible to construct a database of high sensor information. In addition, the burden associated with checking the authenticity of electronic data when creating a report or the like using a large amount of electronic data is reduced, and electronic data such as sensor information can be used efficiently.

  The present invention can be used in an electronic data management system for preventing falsification of various electronic data acquired by a sensor such as an image sensor.

  DESCRIPTION OF SYMBOLS 10 ... Input person terminal, 11 ... Sensor part, 12 ... Sensor information acquisition part, 13 ... Position information acquisition part, 14 ... Radio | wireless part, 15 ... Central processing part, 16 ... Input part, 17 ..., 18 ... Display part, 19 ... I / F unit, 20 ... sensor information management server, 21 ... central processing unit, 22 ... time information management unit, 23 ... sensor information management, 24 ... hash information management unit, 25 ... report information management unit, 26 ... I / F part, 27 ... storage part, 30 ... editor terminal, 31 ... wireless part, 32 ... central processing part, 33 ... storage part, 34 ... input part, 35 ... display part, 40 ... verifier terminal, 50 ... network 60 ... GPS satellites.

Claims (5)

A sensor information management system having a sensor information input terminal and a sensor information management server for managing sensor information acquired in the sensor information input terminal for each predetermined project,
The sensor information input terminal receives sensor information acquisition means for acquiring the sensor information, position information acquisition means for acquiring position information of the sensor information input terminal, and reception of receiving encrypted time information from the sensor information management server Means, storage means for storing at least the acquired sensor information and position information, and inaccessible to a user operating the sensor information input terminal, and the sensor information and the position information stored in the storage means, First hash value calculation means for calculating a first hash value based on the encrypted time information received from the sensor information management server, and for calculating the first hash value and the first hash value. The sensor information, the position information, and the encrypted time information are transmitted to the sensor information management server using a predetermined communication line. A transmission unit that, the first hash value, the sensor information, prior to the transmission of the positional information and the encrypted time information, and a sensor information transmitting means for transmitting to the sensor information management server,
The sensor information management server includes a transmission unit that transmits the encrypted time information to the sensor information input terminal, the first hash value, the sensor information, the position information, and the encrypted time information. Sensor information receiving means for receiving from the input terminal, second hash value calculating means for calculating a second hash value based on the sensor information, the position information and the encryption time information, the first hash value and the second Hash value collating means for collating hash values, sensor information storage means for storing the sensor information, the position information and the encryption time information, and the sensor information, the position based on the collation result of the hash value collating means Determination means for determining whether to store the information and the encrypted time information in the sensor information storage means, the first hash value The second only if the hash values match, the sensor information, the sensor information management system and to store the position information and the encrypted time information to the sensor information storage means. The sensor information transmitting means uses the communication line having higher communication quality compared to the communication line used when transmitting the first hash value, and transmits the sensor information, the position information, and the encryption time information. The sensor information management system according to claim 1, wherein the sensor information management system is transmitted to the sensor information management server. An editing terminal for creating report information using the sensor information;
Using the editing terminal, the report information is created using at least a part of the sensor information, the position information, and the encryption time information stored in the storage unit,
The sensor information management system according to claim 1, wherein the report information is stored in the storage unit together with identification information of the sensor information used when the report information is created. The sensor information management system according to claim 3, wherein the report information is created on the sensor information management server and cannot be downloaded outside the sensor information management server. A verification terminal for verifying the report information;
In the verification terminal, after the verification of the report information, deletion permission information that allows deletion of the sensor information used to create the report information is created,
The sensor information management server stores the deletion permission information in the storage unit for each report information, and the deletion permission information of all report information in the predetermined project is stored in the storage unit. The sensor information management system according to claim 4, wherein the sensor information used to create the report information is determined to be deleteable.