JP2010231660A - Inspection state management system, inspection state management device, inspection state management method and inspection state management program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inspection state management system, an inspection state management device, an inspection state management method, and an inspection state management program for attaining efficient and accurate inspection of a target device. <P>SOLUTION: The inspection state management device manages inspection state of a facility to be inspected by a security inspection device which is carried by a worker for patrolling the facility to inspect the security device according to instruction from a monitoring server. The inspection state management device includes: an encryption communication means which collates keys transmitted from the security inspection device and the monitoring server and transmits secret information by encryption; a security inspection device monitoring means which monitors position information and content of operation of the security inspection device carried by a security guard to be watched within the facility; an inspection execution determination means which determines execution of security inspection in the security inspection device; and a continuous processing execution determination means which determines, in collating the key information, whether to continue the execution of security inspection from identification information obtained from the security inspection device. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an inspection status management system, an inspection status management device, an inspection status management method, and an inspection status management program, and in particular, an inspection status management system and an inspection status management for efficiently and accurately inspecting target equipment. The present invention relates to an apparatus, an inspection status management method, and an inspection status management program.

  Conventionally, sensors (intrusion detection sensors) for detecting abnormalities such as fires or illegal intrusions in security target facilities such as buildings, factories, department stores, hospitals, condominiums, etc., security equipment such as emergency lights, and the above-mentioned security Install a security device to manage the equipment, and when an abnormality is detected in the security target facility, send it to a monitoring server connected via the communication network, and remotely monitor the facility where the abnormality occurred on the monitoring server There is a security system that dispatches guards.

  Here, when performing periodic inspections such as operation tests of security equipment, new installations, removals, etc., workers such as security guards use a paper with a sketch of the facility or a CAD (Computer) Aided Design) Record information on the location of security equipment created as data on the worker's mobile terminal (portable security inspection device), etc., and refer to it for equipment inspection, new installation, removal, etc. Do.

  However, since there is no means to reflect the contents on the paper or CAD data promptly in conjunction with the actual operation status of new installation or removal of security equipment, for example, the omission of the added equipment or the removal equipment Omission of deletion occurs. In addition, there is a possibility that inspection errors of security equipment may occur due to human error.

  Therefore, there is a technique for preventing oversight of an abnormality, omission of inspection, and the like when performing maintenance inspection of a fire alarm (see, for example, Patent Document 1). In addition, in the method shown in the above-mentioned Patent Document 1, there is a display means for displaying the number of a district where maintenance inspection has not been completed, and there is a district where maintenance inspection has not been completed when the maintenance inspection is stopped halfway. And a non-maintenance inspection display means for displaying the presence.

  In security operations, employees who are conducting other inspection work may be requested to "support". Here, “support” means, for example, that when employee A who is dealing with a case at contractor X cannot handle the case, employee B who is under inspection is directed to contractor X, and the case with employee A is dealt with. Say. In this case, the employee B rounds up the inspection work halfway, supports the employee A, and then performs the remaining inspection work.

Japanese Patent No. 3748182

  By the way, when a security guard receives a support request, he / she must rush to the support request promptly, and keeps records of inspection work and patrol information of security equipment that he has been carrying out so far. I don't have time to keep it. Moreover, it may become ambiguous how far the inspection has been carried out because the security guard is concerned about the support request and forgets to record the inspection situation.

  In addition, inspection results (OK / NG, etc.) for security equipment are not automatically reflected in the drawings and mobile terminals possessed by the security guards. At the time of re-starting, it may become ambiguous how far the inspection has been performed, and there is a possibility that an inspection failure may occur.

  In addition, if a security guard leaves the facility to be guarded without receiving an official notification of the end of the security check, it may be a support exit, a check-out exit, or a full inspection. There is no mechanism to determine or monitor whether the exit is in a state where the procedure for completing the inspection has been forgotten.

  Here, even when the method shown in Patent Document 1 described above is used, when the inspection or patrol of the security equipment is interrupted and the worker leaves the vehicle, the worker such as the security guard who has performed the inspection is inspected. There was a possibility that I couldn't correctly grasp how far the tour was completed and forgot that I had interrupted.

  The present invention has been made in view of the above-described problems, and is an inspection status management system, an inspection status management device, an inspection status management method, and an inspection status for efficiently and accurately inspecting a target device. The purpose is to provide a management program.

  In order to solve the above problems, the present invention employs means for solving the problems having the following characteristics.

  In the present invention, a monitoring server, a security inspection device that a worker possesses when inspecting security equipment by visiting a security inspection target facility according to an instruction from the monitoring server, and the target facility by the security inspection device In the inspection status management system comprising an inspection status management device that manages the inspection status of the inspection status, the monitoring server generates key information for performing encrypted communication between the inspection status management device and the security inspection device Select the key generation means to perform, the security inspection device management means to determine the worker to perform the security check at the target facility set in advance, and the worker to make a support request from the situation of the security check, the selected worker An inspection status grasping means for transmitting a support request signal to the inspection status management device of the target facility where the worker is working and the inspection status management device possessed by the inspection status management device Position information of security inspection device possessed by an encrypted communication means for performing verification by key information transmitted from the monitoring device and the monitoring server and communicating confidential information by encryption, and a security guard to be a security target in the facility And security inspection device monitoring means for monitoring the work content, inspection execution determination means for performing execution of security inspection in the security inspection device, and security from the identification information obtained from the security inspection device in the case of collation by the key information. A continuous process execution determination unit that determines whether or not to continue the inspection, and the security inspection device collates the inspection status management device with the key information and communicates confidential information by encryption. Encrypted communication means to perform, position positioning means for positioning the current position, and confidential information to erase confidential information acquired by the encrypted communication means based on a predetermined condition And having means to, and confidential information reacquisition unit to reacquire the confidential information has been erased by the confidential information erasing unit. Thereby, an accurate and accurate inspection of the target device can be realized.

  Further, the present invention provides an inspection status management for managing an inspection status of the target facility by a security inspection device possessed by a worker when the security inspection device is inspected by visiting the target facility for the security inspection based on an instruction from the monitoring server. In the apparatus, encrypted communication means for performing communication of confidential information by encryption by collating with the key information transmitted from the security inspection apparatus and the monitoring server, and security possessed by a security guard to be guarded in the facility Obtained from security inspection device monitoring means for monitoring position information and work contents of the inspection device, inspection execution determination means for performing execution of security inspection in the security inspection device, and from the security inspection device in the case of collation by the key information And a continuous process execution determination unit that determines whether or not to continue the security inspection from the identification information. Thereby, an accurate and accurate inspection of the target device can be realized.

  Further, in the present invention, the inspection status in the security inspection device is acquired, the inspection status acquisition means for updating the confidential information according to the acquired content, and the storage means for storing the updated confidential information obtained by the inspection status acquisition means It is characterized by having.

  Further, in the present invention, the continuation processing execution determination unit is configured to store the identification information stored in the storage unit based on the identification information acquired from the security inspection device during the verification using the key information by the encrypted communication unit. The updated confidential information corresponding to is acquired and transmitted to the security inspection device according to the result of the verification.

  Further, the present invention provides an inspection status management for managing an inspection status of the target facility by a security inspection device possessed by a worker when the security inspection device is inspected by visiting the target facility for the security inspection based on an instruction from the monitoring server. In the inspection status management method in the apparatus, an encrypted communication procedure in which confidential information is communicated by encryption by comparing with the security inspection apparatus and the key information transmitted from the monitoring server, and a security to be a security target in the facility The security inspection device monitoring procedure for monitoring the position information and the work content of the security inspection device possessed by the worker, the inspection execution determination procedure for performing the security inspection execution determination in the security inspection device, and the verification by the key information And a continuous process execution determination procedure for determining whether or not to continue the security inspection from the identification information obtained from the security inspection device. Thereby, an accurate and accurate inspection of the target device can be realized.

  In the present invention, the inspection status in the security inspection device is acquired, the inspection status acquisition procedure for updating the confidential information according to the acquired content, and the updated confidential information obtained by the inspection status acquisition procedure is stored in the storage means. And an accumulating procedure.

  According to the present invention, the continuation process execution determination procedure includes the identification information stored in the storage means by the identification information acquired from the security inspection device at the time of collation using the key information in the encrypted communication procedure. The updated confidential information corresponding to is acquired and transmitted to the security inspection device according to the result of the verification.

  Further, the present invention provides an inspection status management for managing an inspection status of the target facility by a security inspection device possessed by a worker when the security inspection device is inspected by visiting the target facility for the security inspection based on an instruction from the monitoring server. In the inspection status management program in the apparatus, the computer is compared with the security inspection apparatus and the key information transmitted from the monitoring server, encrypted communication means for performing communication of confidential information by encryption, and the security target in the facility In the case of verification by means of the security information, the security inspection device monitoring means for monitoring the position information and work contents of the security inspection device possessed by the security guard, the inspection execution determination means for performing the security inspection execution in the security inspection device, and the verification by the key information As a continuation process execution judging means for judging whether or not to continue the security inspection from the identification information obtained from the security inspection device. Make. Thereby, an accurate and accurate inspection of the target device can be realized. Further, by installing the program, the inspection status management process in the present invention can be easily realized by a general-purpose personal computer or the like.

  Further, in the present invention, the inspection status in the security inspection device is acquired, the inspection status acquisition means for updating the confidential information according to the acquired content, and the storage means for storing the updated confidential information obtained by the inspection status acquisition means It is characterized by having.

  Further, in the present invention, the continuation processing execution determination unit is configured to store the identification information stored in the storage unit based on the identification information acquired from the security inspection device during the verification using the key information by the encrypted communication unit. The updated confidential information corresponding to is acquired and transmitted to the security inspection device according to the result of the verification.

  According to the present invention, it is possible to efficiently and accurately check the target device.

It is a figure which shows an example of schematic structure of the inspection condition management system in this embodiment. It is a figure which shows the function structural example of the monitoring server in this embodiment. It is a figure which shows the function structural example of the terminal in a facility in this embodiment. It is a figure which shows the function structural example of the mobile terminal in this embodiment. It is a figure which shows an example of the hardware constitutions which can implement | achieve the inspection condition management process in this embodiment. It is a figure for demonstrating the mode of delivery of an electronic key. It is a figure of an example which shows the mode of verification of an electronic key. It is a figure which shows an example explaining the mode of delivery of drawing data. It is a figure for demonstrating the mode of inspection of the security equipment. It is a figure for demonstrating the mode of a support request. It is a figure which shows an example for demonstrating the loss prevention method of drawing data. It is a figure which shows an example of the determination content at the time of communication impossible. It is a figure which shows an example of the drawing data in this embodiment. It is a figure which shows an example of the confidential information contained in drawing data. It is a figure which shows an example of an apparatus management table. It is a figure which shows an example of the display content displayed by operation. It is a figure which shows an example of the display of halfway progress in drawing data. It is a figure for demonstrating an example of the display of drawing data at the time of a failure. It is a sequence diagram which shows an example about the inspection condition management system in this embodiment.

<About the present invention>
The present invention maintains and records the inspection status of security equipment (target equipment) in real time, so that the operator can leave the work once for reasons such as a support request and immediately check the inspection status before leaving when the inspection is started again. In addition, if the inspection work for the target facility is in the middle, for example, whether it is an exit for support, whether it is an exit without inspection, or whether it is an exit that has forgotten the inspection end procedure, etc. This makes it possible to easily determine and efficiently and accurately inspect target devices.

  In addition, the drawing data of the facility used in the security inspection work and the information related to the position of the security equipment displayed there can be referred to as confidential information in the security inspection. If the device is lost or stolen, the confidential information may be leaked. Therefore, in the present invention, when an operator such as a security guard takes out the mobile terminal, for example, the mobile terminal receives the electronic key in advance at a predetermined location such as the security company or the branch, and then the contractor etc. Confidential information such as drawing data is downloaded to the mobile terminal by encrypted communication by collating the electronic key at the place. Furthermore, when a mobile terminal is taken out from the target facility, the security of the confidential information is improved by constructing a mechanism for deleting the confidential information.

  Hereinafter, embodiments in which an inspection status management system, an inspection status management device, an inspection status management method, and an inspection status management program according to the present invention are suitably implemented will be described with reference to the drawings. In the following description, a schematic configuration example of an inspection status management system will be described as an embodiment using a security inspection device. In addition, as an example of confidential information used in the following embodiment, it is drawing data of a facility to be guarded, and this drawing data includes the name of the facility to be covered, a floor plan, a sensor for detecting an intrusion of a person, a fire, etc. Each sensor group such as a notification sensor is included. The confidential information applicable to the present invention is not limited to the above-described drawing data, and includes information such as security guard information, security procedures, emergency contact information, and the like.

<Example of schematic configuration of inspection status management system>
FIG. 1 is a diagram illustrating an example of a schematic configuration of an inspection status management system in the present embodiment. The inspection status management system 10 shown in FIG. 1 is configured to include a monitoring center 11, a target facility 12, and a mobile terminal 13 as a security inspection device. The monitoring center 11 and the target facility 12 are connected to a telephone line. In addition, the communication network 14 such as a dedicated line or an Internet line is connected in a state where data can be transmitted and received.

  As shown in FIG. 1, the monitoring center 11 has a monitoring server 21 that is a security monitoring device. The monitoring server 21 monitors the management status of the mobile terminal 13 and the presence or absence of an abnormality in the target facility with respect to the target facility such as one or a plurality of contractors that are the targets of security. The monitoring server 21 is provided with a confidential information database 22 as an accumulation means for accumulating confidential information. The confidential information database 22 stores drawing data 23 of the facility to be inspected as an example of confidential information. Yes.

  Here, the drawing data 23 includes the position information (three-dimensional coordinate system) of the target facility (building, etc.), the floor plan of the building, the installation location of the security device to be inspected (three-dimensional coordinate system), and the like. . The monitoring server 21 transmits drawing data 23 of the facility corresponding to the inspection target facility 12 via the communication network 14. That is, it is assumed that the drawing data 23 of the in-facility terminal 24 installed in the target facility 12 and the monitoring server 21 are synchronized with each other with the latest drawing data.

  The in-facility terminal 24 as an inspection status management device is installed in the target facility 12 for inspection and security. The drawing data 23 transmitted from the monitoring center 11 is also stored in the in-facility terminal 24 in the target facility 12. The in-facility terminal 24 manages all of the sensors 25-1 to 25-n as a plurality of security devices installed in the target facility 12. The in-facility terminal 24 can realize secure communication with the mobile terminal 13 in the entire target facility or in a predetermined area. In addition, the secure communication has a function capable of transmitting and receiving data through predetermined encrypted communication or the like.

  The mobile terminal 13 is a security inspection device that is always possessed by a security guard or the like. For example, when the security guard possesses the mobile terminal 13 and moves to the target facility 12, the drawing data 23 is transmitted from the in-facility terminal 24 to the mobile terminal 13 by the above-described encrypted communication. The security guard checks the sensors 25-1 to 25-n installed in the target facility 12 while referring to the drawing data 23 displayed on the display screen of the mobile terminal 13.

  In the inspection, for example, when the sensor 25 is an intrusion detection sensor, the operation is performed so that the guard is actually detected, and the operation is checked based on whether or not the target sensor 25 can be detected correctly. Further, when the detection is normally performed, for example, in order to recognize that the in-facility terminal 24 has detected, it is determined that the inspection is performed from the position information of the mobile terminal 13 at that time, and the result is obtained. The data is reflected in the drawing data 23 and transmitted to the mobile terminal 13 and the monitoring server 21. When detected or not detected, information such as “OK (◯)” or “NG (×)” and a problem occurrence signal are output from the mobile terminal 13 to the in-facility terminal 24 for each sensor 25. .

  Here, the mobile terminal 13 checks whether each sensor 25-1 to 25-n in the facility operates normally one by one, and transmits the result of the inspection to the in-facility terminal 24. The in-facility terminal 24 reflects the inspection result obtained from the mobile terminal 13 in the drawing data, and sends the reflected drawing data to the mobile terminal 13 and also outputs it to the monitoring server 21. Thereby, the latest drawing data can always be managed by the monitoring center 11 and the target facility 12.

  The mobile terminal 13 may be in the form of a notebook PC or the like, or may be in the form of a mobile terminal. Further, the mobile terminal 13 is possessed by, for example, a guard arranged near the target facility 12, and is not limited to a branch office of the monitoring center 11, but may be, for example, a sales office of a company that owns the monitoring center 11, It may be a subcontractor of the company.

  In addition, when the security guard possessing the mobile terminal 13 reaches the target facility 12, the drawing data 23 is sent from the in-facility terminal 24 to the mobile terminal 13. 11, the electronic key is sent to the in-facility terminal 24 and the mobile terminal 13, and key verification is performed between the in-facility terminal 24 and the mobile terminal 13. As a result, if it is a valid mobile terminal, the drawing data 23 is Sent from the in-facility terminal 24. When the electronic key is transmitted to the mobile terminal 13, the mobile terminal 13 is moved to the monitoring center 11 or to a security company or its branch in order to improve the secrecy, and is acquired there.

  Further, when the mobile terminal 13 leaves the target facility 12 such as a building after the inspection is completed, the mobile terminal 13 deletes the drawing data 23 stored in the mobile terminal 13. Thereby, data leakage can be prevented in advance. That is, in this embodiment described later, when the support request is received, the guard who possesses the mobile terminal 13 goes outside, so the drawing data 23 recorded in the mobile terminal 13 is deleted. Thereby, even when the mobile terminal 13 is lost, leakage of confidential information such as the drawing data 23 can be prevented.

  When the security guard finishes the support work at the contracted party X and returns to the target facility in the middle of the inspection, since the mobile terminal 13 enters the target facility 12, the key verification is performed with the in-facility terminal 24, and the encrypted communication is performed. After the restoration, the in-facility terminal 24 then transmits the drawing data 23 and the stored / recorded inspection results to the mobile terminal by encrypted communication. If the inspection has not been completed, a notification to that effect will be given. When encrypted communication with the in-facility terminal 24 is realized, it is determined that the security guard has returned from the support, and this is deleted when the mobile terminal 13 holds the support request signal.

  The mobile terminal 13 displays the inspection result on the display. If the inspection has not been completed, the fact is displayed on the display, so that the sensor 25 whose inspection result is not displayed can be inspected.

  Moreover, it is preferable that the communication network 14 is transmitted / received using the secure communication path which transmits / receives using the data encrypted, for example by VPN (Virtual Private Network). By performing VPN communication, a public network such as the Internet can be used as if it were a dedicated line, and a virtual private network can be constructed. Thereby, the security between the communication networks of the monitoring center 11, the target facility 12, and the mobile terminal 13 can be improved.

  Next, functional configuration examples of the monitoring server 21, the in-facility terminal 24, and the mobile terminal 13 described above will be described with reference to the drawings.

<Monitoring Server (Security Monitoring Device) 21: Functional Configuration Example>
FIG. 2 is a diagram illustrating a functional configuration example of the monitoring server according to the present embodiment. The monitoring server 21 shown in FIG. 2 includes an input unit 31, an output unit 32, a storage unit 33, an encrypted communication unit 34, a key generation unit 35, an in-facility terminal management unit 36, and a mobile terminal management unit 37. And an inspection status grasping means 38, a screen generating means 39, a notifying means 40, a transmitting / receiving means 41, and a control means 42.

  The input means 31 includes an encrypted communication instruction from a user such as an administrator, a key generation instruction, an in-facility terminal management instruction, a mobile terminal management instruction, an inspection status grasp instruction, a screen generation instruction, a notification instruction, a transmission / reception instruction, etc. Accepts various instructions. Note that the input unit 31 includes, for example, a keyboard, a pointing device such as a mouse, a voice input device such as a microphone, and the like.

  The output means 32 displays the instruction content input by the input means 31, the control data generated based on each instruction content, the contents of various information sent from the in-facility terminal 24 and the mobile terminal 13, and the sound. Is output. Note that the output unit 32 has a screen display function such as a display, a sound output function such as a speaker, and the like.

  The storage means 33 is stored in the key information such as the generated electronic key sent to each in-facility terminal 24 and the mobile terminal 13, or in the confidential information database 22 that is updated in synchronization with each in-facility terminal 24. Drawing data and its update information, information at the time of problem occurrence in security inspection, response method at the time of problem occurrence, access information to mobile terminal 13, security guard (worker) information, grasp information of security inspection status, screen generation result, etc. Are stored, and reading and writing are performed as necessary. The storage unit 33 can also acquire the various data described above from an external device connected to the communication network 14 or the like.

  The encrypted communication means 34 performs communication by encrypting data to be transmitted in order to perform secure communication with the target facility 12 and the monitoring center 11. The encrypted communication means 34 can use, for example, VPN communication.

  The key generation unit 35 generates a key for collating the mobile terminal 13 in the target facility 12. In other words, the monitoring server 21 generates, for example, the electronic key K by the key generation unit 35 and transmits it to the terminal (institution terminal 24) installed in the target facility and the mobile terminal 13. The electronic key K transmitted to the mobile terminal 13 is used for obtaining the drawing data 23 if the result of the collation is good when collating with the in-facility terminal when moving to the target facility 12. The electronic key K transmitted to the in-facility terminal 24 is also used to notify the manager of the in-facility terminal 24 that the worker is going to the target facility in the target facility 12 for reasons such as periodic inspection. Used.

Further, the key generation means 35 preferably transmits the electronic key K via the communication network 14 which is a secure communication path such as VPN when the mobile terminal 13 is in the monitoring center 11. Thereby, leakage and theft of the electronic key K can be prevented. The in-facility terminal management means 36 manages the current security inspection status and the like of all target facilities that are contractors managed by the monitoring server 21. is there. In addition, the facility terminal management means 36 also serves as time limit management when periodic inspection of the sensor or the like is necessary, and assigns workers according to the inspection date. In addition, the facility terminal management means 36, when a problem such as suspicious person intrusion occurs in the target facility 12, rings the emergency bell by remote control on the target facility 12, or closes all doors of the door. To prevent the camera from being opened, to display a video taken by a camera near the detected sensor, to send other security guards to the target facility 12 with the problem, or to notify the police. Do.

  The mobile terminal management unit 37 manages workers and the like that perform security inspection work on the target facility 12 in which the in-facility terminal 24 managed by the in-facility terminal management unit 36 is installed. Specifically, when the mobile terminal management unit 37 determines a worker to be checked for security at the target facility 12, the mobile terminal 13 of the worker has the electronic key K generated by the key generation unit 35 and the destination key. Information related to the target facility 12 (name, address, telephone number, etc.) is transmitted by the transmission / reception means 41.

  Moreover, the mobile terminal management means 37 acquires which worker is where through the mobile terminal 13 possessed by each worker. Specifically, for example, the mobile terminal management unit 37 periodically communicates with the mobile terminal 13 provided with a positioning unit such as a GPS (Global Positioning System) function to thereby obtain three-dimensional position information (for example, ( x, y, z) (latitude, longitude, altitude, etc.)), and the 3D map information stored in advance in the storage means 33 and the like (for example, confidential data such as drawing data of the contracted target facility 12) Information is also included.) And so on. Therefore, it is possible to acquire an accurate three-dimensional position even when the target facility of the contract is extended multiple times, and it is possible to accurately grasp which worker is performing security inspection on which floor.

  The inspection status grasping means 38 grasps the inspection status of the security equipment in the target facility 12 and the mobile terminal 13 of each contractor from the position information obtained by the mobile terminal management means 37. Specifically, the inspection status grasping means 38 determines whether or not the worker is working as instructed from the position information periodically obtained from the mobile terminal 13 possessed by the worker and the work content instructed in advance. Can be managed in real time.

  In addition, the inspection status grasping means 38 takes measures such as directing one or a plurality of guards to the target facility for facilities requiring security. Specifically, the inspection status grasping means 38, when there is a support request from a certain mobile terminal 13 or in-facility terminal 24, or when a problem requiring support occurs, the position information and security of other guards The guards to be sent to support etc. are selected based on the work contents of each employee. Note that the inspection status grasping means 38 selects the security guard closest to the site if it is urgent.

  The screen generation unit 39 generates a screen in a state where workers, managers, and the like can easily recognize data necessary for security, such as the drawing data 23. The screen generation unit 39 generates a screen of the drawing data 23 to be transmitted to the contractor so that the monitoring server 21 can easily acquire information on each contractor. In addition, a screen for outputting update information of confidential information such as drawing data obtained from the target facility 12 to the monitoring server 21 is also generated. Further, when the screen generating means 39 receives a signal indicating that a problem such as intrusion of a suspicious person has occurred from the target facility 12, the screen generating means 39 is for emergency such as information on the facility or information on guards nearby. Generate a screen to be displayed.

  Furthermore, the screen generation means 39 generates a screen for instructing the supervisor to the target facility 12 that has transmitted the problem occurrence signal, the countermeasure for the problem, the contents of the remote operation, and the like. Note that various information necessary for screen generation can be used by appropriately reading out necessary information from information stored in the storage unit 33 in advance. The generated screen is output together with sound and the like by the output means 32 having a display, a speaker, and the like.

  The notification means 40 responds to the problem occurrence signal from the problem occurrence signal from the target facility 12, and is responsible for the security officer, supervisor, representative of the target facility 12 (for example, a building such as a building) in an administrator or a security company. Has an alert function to notify the person in charge. The notification means 40 can be notified by an e-mail function, voice, screen display by a dedicated application, or the like.

  The transmission / reception means 41 performs secure communication with the target facility 12 and the monitoring center 11 via the communication network 14. Moreover, the transmission / reception means 41 can be used as a communication interface for transmitting to other terminals constituting the inspection status management system 10 and receiving various data from other terminals.

  The control means 42 controls the entire functional configuration in the inspection status management system 10. Specifically, the control unit 42 performs encrypted communication based on input information from the user input by the input unit 31, performs key generation, controls management of in-facility terminals, Various controls are performed such as controlling the management of information, grasping the security inspection status, generating screens, controlling communication, and transmitting / receiving with other terminals by transmission / reception control.

<In-facility terminal (inspection status management device) 24: functional configuration example>
FIG. 3 is a diagram illustrating a functional configuration example of the in-facility terminal according to the present embodiment. The facility terminal 24 shown in FIG. 3 includes an input unit 51, an output unit 52, a storage unit 53, an encrypted communication unit 54, a mobile terminal monitoring unit 55, an inspection status acquisition unit 56, and an inspection execution determination unit. 57, a continuation process execution determination unit 58, a screen generation unit 59, a notification unit 60, a transmission / reception unit 61, and a control unit 62.

  The input means 51 receives various instructions such as an encrypted communication instruction from a user, a mobile terminal monitoring instruction, an inspection status acquisition instruction, an inspection execution determination instruction, a continuous process execution determination instruction, a screen generation instruction, a notification instruction, and a transmission / reception instruction. Accept. Note that the input means 51 includes, for example, a keyboard, a pointing device such as a mouse, a voice input device such as a microphone, and the like.

  The output means 52 displays the instruction content input by the input means 51, the control data generated based on each instruction content, the contents of various information sent from the in-facility terminal 24 and the mobile terminal 13, and the sound. Is output. The output means 52 has a screen display function such as a display and a sound output function such as a speaker.

  The storage means 53 stores drawing data obtained from the monitoring center 11, a response method when a problem occurs, access information to the mobile terminal 13, security guard information, security information grasp information, screen generation results, and the like. Reading and writing are performed according to the above. The storage unit 53 can also acquire the various data described above from an external device connected to the communication network 14 or the like.

  The encrypted communication means 54 performs communication by encrypting data to be transmitted and received in order to perform secure communication with the monitoring center 11. The encrypted communication means 54 can use, for example, VPN communication. The encrypted communication unit 54 also performs secure communication with the mobile terminal 13. In this case, the encrypted communication means 54 performs collation using an electronic key, and performs secure communication if the result of the collation is a correct terminal or guard. The encryption unit 54 also acquires identification information such as terminal identification information and user identification information in the mobile terminal 13 at the time of collation with an electronic key.

  The mobile terminal monitoring means 55 monitors the position and work contents of each security guard by the mobile terminal 13 possessed by the security guard heading into the facility or already existing. The mobile terminal monitoring unit 55 performs collation using an electronic key sent in advance from the monitoring server 21 in order to collate the mobile terminal 13. That is, the mobile terminal monitoring means 55 collates the electronic key K sent from the monitoring center 11 with the electronic key K possessed by the mobile terminal 13 and determines whether or not the mobile terminal 13 (guard) is a correct security guard. To do.

  The inspection status acquisition means 56 always acquires security and inspection status for the mobile terminal 13. Moreover, the inspection status acquisition means 56 performs the response | compatibility (a support request etc.), such as making one or some guards go to the object facility about the facility which needs a guard, an inspection, and support. The inspection status acquisition means 56 acquires the position of each guard from the three-dimensional position information (for example, latitude, longitude, height, etc.) obtained by the position positioning function of the mobile terminal 13 that each possesses.

  The inspection status acquisition unit 56 updates the drawing data 23 based on the acquisition information described above, and transmits the updated drawing data 23 to the monitoring center 11 or the mobile terminal 13. Further, the inspection status acquisition means 56 acquires information (such as identification information based on terminal identification information and user identification information) for the mobile terminal 13 acquired by the encrypted communication means 54, and accumulates it with the drawing data 23 each time. Accumulate in means 53.

  The inspection execution determination unit 57 determines the stage at which the inspection content is currently executed in the mobile terminal 13. Also, the inspection execution determination means 57, for example, when communication with the mobile terminal 13 is interrupted, it is “whether it is due to an exit due to a support request”, “whether it is due to an inspection failure”, “ It is determined whether it is due to forgetting. The inspection execution determination means 57 is determined based on preset facility conditions such as presence / absence of a support request signal sent from the monitoring server 21, communication with the mobile terminal 13, inspection result information, and opening / closing status of the exit door. To do.

  The continuation process execution determination unit 58 determines whether or not the mobile terminal 13 that has performed the verification process using the electronic key is the mobile terminal 13 that has been inspected halfway. In other words, in this embodiment, the security guard is set in advance such as when a security guard once goes out of the target facility 12 due to a support request or the like, or when communication between the in-facility terminal 24 and the mobile terminal 13 is not possible for a predetermined time or more. When the above conditions are satisfied, the drawing data 23 recorded in the mobile terminal 13 is deleted.

  In addition, when the security guard returns to the target facility 12 after support, or when communication is possible between the mobile terminal 13 and the in-facility terminal 24, the mobile terminal 13 and the in-installation terminal 24 The electronic key is used for verification. At this time, the continuation process execution determination unit 58 acquires the identification information based on the terminal identification information and the user identification information obtained from the mobile terminal 13, and extracts the corresponding drawing data 23 from the storage unit 53 based on the acquired identification information. Then, the intermediate drawing data 23 corresponding to the terminal is transmitted.

  In addition, when the work is continued by another mobile terminal or other security guard, since the monitoring server 21 transmits the identification information and key information to that effect, the corresponding data out of the data stored in the storage means 53 The data of the item to be replaced is replaced, and the corresponding drawing data 23 is transmitted to the mobile terminal 13 based on the data.

  The screen generation means 59 generates a screen so that the administrator can easily recognize data necessary for security, such as the drawing data 23. The screen generation means 59 generates a screen of the drawing data 23 to be transmitted to the contractor so that the monitoring center 11 can easily acquire information on each contractor. Further, a screen for outputting update information of confidential information such as the drawing data 23 obtained from the target facility 12 to the monitoring center 11 is also generated.

  In addition, when the screen generating means 59 receives a signal indicating that a problem such as intrusion of a suspicious person has occurred from the target facility 12, the screen generating means 59 uses emergency information such as information on the facility or information on guards nearby. Generate a screen to be displayed.

  Furthermore, the screen generation means 59 generates a screen for instructing the monitoring facility to the target facility 12 that has transmitted the problem occurrence signal, the countermeasure for the problem, the content of the remote operation, and the like. Various kinds of information necessary for screen generation can be used by appropriately reading necessary information from information stored in the storage unit 53 in advance. In addition, the generated screen is output together with sound or the like by the output means 52 having a display, a speaker, or the like.

  The notification means 60 has an alert function for notifying the monitoring center 11, the security officer, the supervisor, the representative responsible person, etc. of the building in response to the problem occurrence signal from the mobile terminal in response to the problem occurrence signal. .

  The transmission / reception means 61 performs secure communication with the monitoring center 11 via the communication network 14-1. The transmission / reception means 61 also realizes secure communication with the mobile terminal 13 by LAN or wireless communication. Moreover, the transmission / reception means 61 can be used as a communication interface for transmitting to other terminals constituting the inspection status management system 10 and receiving various data from other terminals.

  The control means 62 controls the entire functional configuration in the inspection status management system 10. Specifically, the control unit 62 performs encrypted communication based on the input information from the user input by the input unit 51, controls the management of the mobile terminal, grasps the security status, generates the screen, and so on. Control, communication control, and transmission / reception control to / from other terminals.

<Mobile terminal (security inspection device) 24: functional configuration example>
FIG. 4 is a diagram illustrating a functional configuration example of the mobile terminal according to the present embodiment. The mobile terminal 13 shown in FIG. 4 includes input means 71, output means 72, storage means 73, encrypted communication means 74, position positioning means 75, screen display means 76, confidential information erasure means 77, It is configured to include confidential information reacquisition means 78, notification means 79, transmission / reception means 80, and control means 81.

  The input unit 71 accepts various instructions such as an encrypted communication instruction, a position measurement instruction, a screen generation instruction, a confidential information deletion instruction, a notification instruction, and a transmission / reception instruction from a user or the like. Note that the input unit 71 includes, for example, a keyboard, a pointing device such as a mouse, a voice input device such as a microphone, and the like.

  The output means 72 displays the contents of instructions input by the input means 71, the control data generated based on the contents of each instruction, the contents of various information sent from the in-facility terminal 24 and the mobile terminal 13, and the voice Is output. The output means 72 has a screen display function such as a display, a sound output function such as a speaker, and the like.

  The storage unit 73 stores key information obtained from the monitoring center 11, a response method in case of a problem sent from the in-facility terminal 24, security guard information, grasping information of security information, a screen generation result, and the like. Reading and writing are performed according to the above. The storage unit 73 can also acquire the various data described above from an external device connected to the communication network 14 or the like.

  The encrypted communication means 74 performs communication by encrypting data to be transmitted and received in order to perform secure communication with the monitoring center 11. The encrypted communication means 74 can use, for example, VPN communication. The encrypted communication unit 74 also performs secure communication with the in-facility terminal 24. In this case, the encrypted communication means 74 performs collation using the electronic key, and performs secure communication if the result of the collation is a correct terminal. The encryption unit 74 also transmits identification information such as terminal identification information and user identification information in the mobile terminal 13 to the in-facility terminal 24 when collating with the electronic key.

  The position measurement means 75 acquires three-dimensional position information (x, y, z) by a GPS function or the like. Further, the position positioning means 75 outputs the acquired three-dimensional position information to the in-facility terminal 24. Thereby, by associating the three-dimensional information obtained by the position positioning means 75 with the drawing data 23, the position of the guard and the position of the sensor 25 can be clearly grasped.

  The screen display means 76 converts the format of the data required for security such as the drawing data 23 obtained from the in-facility terminal 24 in accordance with the specifications of the output means 72 such as the size and resolution of the display provided in the mobile terminal 13 and displays the screen. To display. Further, the screen display means 76 changes the color of the inspected area or the sensor 25 with respect to the displayed screen, displays “◯”, “×”, etc., or places the cursor on the input means 71 or the like. It is also possible to move to the position 25 and acquire information relating to the sensor 25.

  Further, when the screen display means 76 receives a signal indicating that a problem such as intrusion of a suspicious person has occurred from the target facility 12, the screen display means 76 is for emergency such as information on the facility or information on guards nearby. Generate and display a screen to be displayed on the screen. Note that the screen display means 76 can appropriately read and use various information necessary for screen generation and display from information stored in the storage means 73 in advance. Note that the generated screen can also be output together with sound or the like by the output means 72 having a speaker or the like. The screen display means 76 can be a touch panel or the like.

  The confidential information erasure unit 77 relates the drawing data 23 recorded in the mobile terminal 13 to the reason when the mobile terminal 13 leaves the target facility 12 even temporarily or cannot communicate with the in-facility terminal 24. Forcibly erase without.

  The confidential information reacquisition means 78, for example, temporarily stops security or inspection by a support request, etc., moves away from the target facility 12 to go to another support location, returns to the target facility 12 after supporting the support. Re-acquire confidential information in case of accidents. Specifically, the confidential information reacquisition means 78 transmits the terminal identification information and user identification information of the mobile terminal 13 registered in advance to the in-facility terminal 24, and acquires the drawing data 23 corresponding to the identification information. . The acquired drawing data 23 is stored in the storage unit 73.

  The notification unit 79 transmits a problem occurrence signal to the in-facility terminal 24 when a problem occurs. Further, it has an alert function for notifying the monitoring center 11, the security officer in charge of the building, the supervisor, the representative manager, etc. in response to the signal of the problem occurrence by the signal.

  The transmission / reception means 80 performs secure communication with the monitoring center 11 via the communication network 14-2. The transmission / reception means 80 also realizes secure communication with the in-facility terminal 24 by LAN or wireless communication. The transmission / reception means 80 can be used as a communication interface for transmitting to other terminals constituting the inspection status management system 10 and receiving various data from other terminals.

  The control means 81 controls the entire functional configuration in the inspection status management system 10. Specifically, the control means 81 performs encrypted communication based on the input information from the user such as the input security guard, performs positioning, generates a screen, deletes confidential information, Various controls such as re-acquisition of confidential information, communication control, and transmission / reception with other terminals by transmission / reception control are performed.

<Hardware configuration example>
Here, the monitoring center 11, the in-facility terminal 24, and the mobile terminal 13 in the inspection status management system 10 described above can be controlled by a dedicated device configuration having the functions described above, but each function is executed by a computer. By generating an execution program (inspection status management program) that can be executed and installing the execution program in, for example, a general-purpose personal computer or server, the inspection status management processing in the present invention can be realized.

  A hardware configuration example of a computer capable of realizing the inspection status management process in the present embodiment will be described with reference to the drawings. FIG. 5 is a diagram illustrating an example of a hardware configuration capable of realizing the inspection status management process in the present embodiment.

  5 includes an input device 91, an output device 92, a drive device 93, an auxiliary storage device 94, a memory device 95, a CPU (Central Processing Unit) 96 for performing various controls, and a network connection device. 97 are connected to each other by a system bus B.

  The input device 91 has a pointing device such as a keyboard and a mouse operated by a user or the like, and inputs various operation signals such as execution of a program from the user or the like.

  The output device 92 has a monitor that displays various windows and data necessary for operating the computer main body for performing the processing according to the present invention, and displays the execution progress and results of the program by the control program of the CPU 96. can do.

  The input device 91 and the output device 92 may be integrated input / output means such as a touch panel. In this case, the input device 91 and the output device 92 are predetermined using a finger of a user, a pen-type input device, or the like. The position can be touched to input.

  Here, the execution program installed in the computer main body in the present invention is provided by a portable recording medium 98 such as a USB (Universal Serial Bus) memory or a CD-ROM, for example. The recording medium 98 on which the program is recorded can be set in the drive device 93, and the execution program included in the recording medium 98 is installed in the auxiliary storage device 94 from the recording medium 98 via the drive device 93.

  The auxiliary storage device 94 is a storage means such as a hard disk, and can store an execution program according to the present invention, a control program provided in a computer, and the like, and can perform input / output as necessary.

  The memory device 95 stores an execution program or the like read from the auxiliary storage device 94 by the CPU 96. The memory device 95 includes a ROM (Read Only Memory), a RAM (Random Access Memory), and the like.

  Based on a control program such as an OS (Operating System) and an execution program read and stored by the memory device 95, the CPU 96 performs various operations and inputs / outputs data to / from each hardware component. Each process in inspection status management etc. can be realized by controlling the process. Various information necessary during the execution of the program can be acquired from the auxiliary storage device 94, and the execution result and the like can also be stored.

  The network connection device 97 acquires an execution program from another terminal connected to the communication network 14 by connecting to a communication network or the like, or an execution result obtained by executing the program, or the present invention. The execution program itself can be provided to other terminals. With the hardware configuration described above, the inspection status management process in the present invention can be executed. Further, by installing the program, the inspection status management process in the present invention can be easily realized by a general-purpose personal computer or the like. Next, specific contents of the inspection status management process will be described.

<Specific example of inspection status management in this embodiment>
Next, a specific example of inspection status management in the present embodiment will be described with reference to the drawings. In the following description, the inspection status management system 10 shown in FIG. 1 described above is used. In addition, a security guard (worker) of a security company that performs a security check carries the mobile terminal 13 during the check. The mobile terminal 13 has at least a function for making the drawing data visible, a wireless encryption communication function, and a position positioning function.

<Process during inspection>
At the time of inspection, the monitoring center 11 generates the electronic key K and then transmits the electronic key K to the mobile terminal 13 and the in-facility terminal 24 using the secure communication line. Here, FIG. 6 is a diagram for explaining how the electronic key is distributed. As shown in FIG. 6, after generating the electronic key K as described above, the monitoring server 21 transmits the electronic key K to the in-facility terminal 24 using the communication network 14 which is a secure communication line such as VPN. To do.

  In addition, the electronic key K is transmitted to the mobile terminal 13 within a predetermined area such as the monitoring center 11. Thereby, the secrecy of key information can be improved. The electronic key K can use a general key format used in encrypted communication such as a common key, public key / private key, and the like. The reason for transmitting the electronic key K to the in-facility terminal 24 is to notify the in-facility terminal 24 that the inspection is to be performed.

  Next, the security guard of the security company has the mobile terminal 13 that he owns, and heads to the target facility 13 of the contract destination instructed by the monitoring server 21. Here, when the mobile terminal 13 is taken out, only the information of the electronic key K is accumulated, and the drawing data 23 and the like that are confidential information in the target facility 12 are not recorded. Therefore, even if the mobile terminal 13 is stolen, no confidential information regarding the contracted target facility 12 is known.

  In addition, when the mobile terminal 13 leaves | separates from the body of a guard between the monitoring center 11 shown in FIG. 6 and the object facility 12, it is thought that there was a possibility of loss, theft, or robbery. Therefore, in that case, for example, when the mobile terminal 13 leaves the body of the security guard in the section A, the electronic key K can be deleted or the electronic key can be invalidated. In order to recognize that the mobile terminal 13 has moved away from the security guard who carries it, for example, between the mobile terminal 13 and a thing that can be worn easily such as a guard's clothes, a watch, a card or the like. When a non-contact type communication device such as an electronic tag is provided and the distance is so great that the communication is impossible, it can be recognized that both are separated.

  Next, after the security guard enters the building of the target facility 12, the mobile terminal 13 is operated to attempt wireless encryption communication with the in-facility terminal 24. Here, FIG. 7 is a diagram illustrating an example of how the electronic key is verified. In the verification of the electronic key K in the present embodiment, specifically, “(1) mobile terminal 13 → facility terminal 24: transmission of connection request”, “(2) facility terminal 24 → mobile terminal 13: challenge M”. "," (3) Mobile terminal 13 → intra-facility terminal 24: transmission of keyed hash value H (M, K) "," (4) in-facility terminal 24: keyed hash value H (M, K) " Verification ”. When the in-facility terminal 24 determines that the keyed hash value is correct in the encrypted communication according to the above procedure, the in-facility terminal 24 determines that the electronic key K is correct and performs the encrypted communication with the mobile terminal 13 using the electronic key K. .

  Further, the in-facility terminal 24 transmits the drawing data 23 to the mobile terminal 13 by encrypted communication. Here, FIG. 8 is a diagram illustrating an example of how the drawing data is distributed. As shown in FIG. 8, the drawing data 23 is transmitted from the in-facility terminal 24 to the mobile terminal 13 by encrypted communication, and the mobile terminal 13 that receives the drawing data visualizes the drawing data.

  Security personnel of the security company carry out inspections such as operation tests of security devices such as the sensors 25-1 to 25-n while carrying the mobile terminal 13. In addition, when there is a security device that has been security-checked by the mobile terminal 13 or a security device that has been newly installed or removed, change content information indicating the content of the change is transmitted to the in-facility terminal 24 by encrypted communication. Send. The in-facility terminal 24 reflects the changed part in the drawing data 23 and transmits the changed drawing data 23 to the mobile terminal 13 by encrypted communication and also transmits it to the monitoring server 21 via the communication network 14. As a result, the synchronization processing can be performed between the in-facility terminal 24 and the monitoring server 21, and the drawing data 23 reflecting the latest shape inspection status can be displayed on the mobile terminal 13. The efficiency of the work can be improved.

  A security guard of the security company checks the operation test of the security terminals such as the sensors 25-1 to 25-n while holding the mobile terminal 13. The security terminal transmits the test result to the in-facility terminal 24. The in-facility terminal 24 transmits the test result to the mobile terminal 13 using wireless communication.

  In the drawing data 23, for example, a floor plan of the facility at the security destination, position information thereof, positions of security devices such as sensors 25-1 to 25-n, and the like are described in detail. When the inspection of the security guard is completed, information that allows the inspection result to be easily grasped is displayed on the security equipment on the corresponding drawing. Specifically, if there is no abnormality as a result of the inspection, a “◯” mark is displayed for the security device, and if there is an abnormality, an “×” mark is displayed, The security equipment mark with the problem blinks, and the "finished" and "unfinished" inspections are displayed in different colors, and the work contents can be understood by using diagonal lines etc. Can be displayed.

  Further, when the inspection of target devices such as all the sensors in each room is completed, the entire area corresponding to the area of the drawing data 23 can be colored, or a pattern can be given by diagonal lines or the like. In addition, the mobile terminal 13 displays the operation status of each of the sensors 25-1 to 25-n on the display. Further, the security device displays a mark indicating that the inspection has been performed on the display as an inspection such as an operation test. When the operation test of the security device is not performed, a mark indicating that is displayed on the display of the mobile terminal 13. For this reason, the security guard can perform an inspection such as an operation test of the security equipment while looking at the display. The guard operates the mobile terminal 13 at the end of the inspection, and notifies the in-facility terminal 24 that the inspection has ended.

<Inspection of security equipment>
Next, the inspection method for the security device in the present embodiment will be described with reference to the drawings. FIG. 9 is a diagram for explaining a state of inspection of security equipment. As shown in FIG. 9, in this embodiment, when inspecting a security device such as a sensor, not only confirming that communication of the sensor or the like has been notified to the terminal, but also notifying the monitoring center 11 correctly. Also check if it is done.

  In this case, the inspection result information 100, which is the progress of inspection, is recorded. For example, inspection of devices subject to security inspection such as “when there is a sensor that is not properly notified”, “when there is a device that is not functioning correctly”, “when there is a device inspection omission”, etc. The result information is recorded and notified to the mobile terminal 13. Note that the inspection result information 100 can be displayed as a list as it is, or can be reflected on the drawing data 23 and displayed.

<About support request>
Next, the support request in this embodiment will be described with reference to the drawings. FIG. 10 is a diagram for explaining the state of the support request. Here, in this embodiment, a support request is an emergency when an equipment abnormality or intrusion alarm occurs at another contractor, and a member (guardman) or technician at the site is dispatched to the contractor or the like where the abnormality or problem has occurred. It is something to be made. The monitoring server 21 in the monitoring center 11 is configured so that when an event that must be dealt with urgently occurs, such as an intrusion of a bandit (robbery, etc.) at another facility, A guard who requests support is selected according to the current position, work content, and the like, and the generated support request signal 101 is transmitted to the mobile terminal 13 possessed by the selected guard. In addition, when the selected security guard is carrying out the inspection work at the target facility that conducts other security inspections, the support request signal 101 is also sent to the in-facility terminal 24 of the target facility 12 that performs the inspection work. Send.

<Preventing loss of drawing data>
Here, a method for performing a process such as erasure to prevent the loss of drawing data as confidential information used in the present embodiment and preventing the loss of drawing data will be described with reference to the drawings. FIG. 11 is a diagram illustrating an example for explaining a method for preventing loss of drawing data.

  Here, in this embodiment, the drawing data 23 is handled as confidential information in the present invention, and the drawing data 23 is stored in the in-facility terminal 24 and the monitoring center 11. The mobile terminal 13 has a function of measuring position information in real time.

  Then, as shown in FIG. 11, after receiving the support request, when the current position of the mobile terminal 13 leaves the building of the contract facility in order to go to the site, the drawing stored in the mobile terminal 13 Data 23 is automatically deleted. Specifically, in a state where the drawing data 23 is held in the mobile terminal 13, the mobile terminal 13 is in the building of the contracted party (security target facility) based on the position information measured by the positioning means of the mobile terminal 13. When it is detected that the mobile terminal 13 has been taken out of the predetermined area, the mobile terminal 13 deletes the drawing data 23. Further, the drawing data in the mobile terminal 13 can be deleted by an erasure instruction from the in-facility terminal 24. As another method other than deletion, for example, a meaningless drawing or symbol may be written a plurality of times so that the exact position of a security device such as a sensor may not be known.

  As another method for deleting the drawing data and the like, for example, the drawing data and the like may be deleted or overwritten even when communication with the in-facility terminal 24 becomes impossible for a predetermined time or more. Thereby, even if the mobile terminal 13 is stolen or lost on the way home from the inspection, the drawing data 23 is not leaked. Furthermore, by providing an expiration date for the key, it is possible to prohibit viewing the drawing data 23 at a time other than the predetermined period.

  Moreover, although the security guard heading for the inspection possesses the mobile terminal 13, even if the mobile terminal 13 is taken or lost, the drawing data 23 will not be leaked. In addition, if the security guard does not perform a predetermined operation within a certain time, or if an operation other than the predetermined operation is performed, it is determined that a person other than the security guard is operating. Further, the loss prevention processing (deletion etc.) of the drawing data 23 may be performed.

  In the above-described processing, between the in-facility terminal 24 and the mobile terminal 13, between the in-facility terminal 24 and the monitoring center 11, the sensors 25-1 to 25-n that are security devices and the in-facility terminal 24 is connected by a secure line, so that the position information of the security device does not leak to the outside.

  Further, in the present embodiment, when the mobile terminal moves away from the body of the security guard so that a third party (picking, theft, robbery, etc.) possessing the mobile terminal 13 does not enter the contract destination, the electronic key K can be disabled.

  Further, when the security guard finishes the support operation by the support request and returns, the communication between the mobile terminal 13 and the in-facility terminal 24 is performed, and the verification process is performed using the electronic key K by the above-described process. When the collation result is OK, the guard can continuously perform the inspection work by reacquisitioning the drawing data 23 to which the contents of the inspection work that has been performed halfway are added.

<Other embodiments>
In addition, in this embodiment, when the security guard who went for the support request returns, the subsequent inspection process is performed. In addition, it takes time until the inspection work is completed, and a load on the work amount is applied to the guard (security guard A). Therefore, the monitoring center 11 can cause other guards (guard B) to go to the place and continue the inspection process. In addition, as conditions for proxying to other security guards, one or more of the time elapsed since leaving once, the number of work items, work contents, response time, availability of other security guards, current position, etc. should be set. Therefore, it is possible to manage so as to perform personnel deployment for improving the overall work efficiency.

  At this time, the monitoring server 21 of the monitoring center 11 transmits the electronic key K as key information to the mobile terminal 13 of another guard (guard B), and the guard arrives at the target facility 12, and the in-facility terminal 24 and the mobile terminal 13 of the guard (for example, worker B) perform encrypted communication using the electronic key K by collating the electronic key K, and the information during the inspection is reflected after the electronic key K is collated. The drawing data 23 is transmitted, and processing is performed by the guard B.

  In addition, the guard A is notified that other guards will continue the inspection work. The electronic key K of the mobile terminal 13 of the security guard A who has received the notification is erased by the notification means 40 of the monitoring server 21 by an electronic mail or a voice message by telephone. As a result, when the security guard A finishes the work of the support destination and returns to the previous target facility 12, the electronic key K is deleted if another security guard has been assigned. Therefore, drawing data cannot be acquired. Thereby, distribution of confidential information can be suppressed to a minimum, and safety can be improved.

  These series of operations are managed by the monitoring server 21 of the management center 11, and are managed in detail such as the work contents of the guards.

<About the judgment contents when leaving the target facility>
Next, the determination contents in the inspection execution determination means 57 at the time of leaving the target facility in the facility terminal 24 of the present embodiment will be described with reference to the drawings. FIG. 12 is a diagram illustrating an example of determination contents when communication is not possible. In the diagram shown in FIG. 12, as examples of the determination contents, “support request signal”, “communication state between in-facility terminal and mobile terminal”, “exit information”, “failure information”, etc. according to the signal state “ “Exit due to support request”, “Exit due to inspection (tour) leak”, “Exit due to forgetting process”, “Forget inspection (patient) end procedure”, etc. are determined.

  Note that the above-described disconnection for a predetermined time or more is, for example, a confirmation of whether or not communication between terminals is performed every preset time, and it is determined that there is no response when there is no response for a certain period of time. The exit information is determined based on sensor information such as a human body detection sensor or a door opening / closing sensor. Further, as the failure information, for example, the in-facility terminal 24 grasps the presence or absence of a malfunctioning device.

  Here, in the example of FIG. 12, for example, there is a support request signal, the communication state between the in-facility terminal 24 and the mobile terminal 13 has been disconnected for a predetermined time or more, and the inspection (touring) result information has not been inspected. If there is a sensor (area) and there is exit information, and there is any failure information, it is determined that the exit is due to a support request.

  In addition, for example, there is no support request signal, the communication state between the in-facility terminal 24 and the mobile terminal 13 is not more than predetermined, and the inspection (tour) result information is a sensor (area) that has not been inspected, and the user exits. When there is information and there is no failure information, it is determined that the exit is due to inspection (patient) leakage.

  In addition, for example, there is no support request signal, the communication state between the in-facility terminal 24 and the mobile terminal 13 is not more than predetermined, and the inspection (tour) result information is a sensor (area) that has not been inspected, and the user exits. When there is information and there is no failure information, it is determined that the exit is due to forgetting to process.

  In addition, for example, there is no support request signal, the communication state between the in-facility terminal 24 and the mobile terminal 13 is not more than predetermined, there is exit information at the end of inspection (tour) of all sensors (areas), failure If there is information, it is determined that the exit is due to forgetting the treatment. In addition, as an example of leaving due to forgetting treatment, there is, for example, a case where the contracted party is left without repairing or replacing a failed device.

  In addition, for example, there is no support request signal, the communication state between the in-facility terminal 24 and the mobile terminal 13 is not more than predetermined, there is exit information at the end of inspection (tour) of all sensors (areas), failure If there is no information, it is determined that the inspection (patrol) completion procedure has been forgotten. In addition, as an example of forgetting the inspection (patient) end procedure, for example, all sensors (areas) have been inspected (patent), but the inspection end procedure has not been performed for the monitoring center 11 or the in-facility terminal 24. Etc.

<Example of confidential information>
Next, an example of confidential information displayed on the screen by the monitoring server 21, the in-facility terminal 24, the mobile terminal 13, and the like will be described with reference to the drawings.

<Example of drawing data>
Here, an example of drawing data in the present embodiment will be described with reference to the drawings. FIG. 13 is a diagram showing an example of drawing data in the present embodiment. In the diagram shown in FIG. 13, as an example, sketches of facilities from the first floor to the third floor are shown (FIGS. 13A to 13C).

  The screen displayed in FIG. 13 may be arranged by arranging a plurality of floors on one screen as shown in FIGS. 13A to 13C. Each floor or each predetermined distance area on each floor, You may display for every 1 or several room, and for every position part with one room.

  In each floor of FIGS. 13A to 13C, a plurality of different types of security devices or device sensors necessary for security are displayed in a state where the types can be visually recognized at the installation positions. For example, in FIG. 13, a security lamp (emergency light, etc.) 111, an IC card reader 112, an open / close sensor 113, a space sensor (infrared sensor) 114, a fire sensor 115, and the like are installed at predetermined positions. When the mobile terminal 13 enters the security inspection target facility, the mobile terminal 13 performs encrypted communication with the in-facility terminal 24 to perform key verification processing. If there is no problem as a result of verification, the target facility shown in FIG. 12 drawing data are acquired from the in-facility terminal 24. Thereby, an inspection process can be easily performed using this data. In addition, about the sensor etc. which are shown in FIG. 13, in this invention, it is not limited to FIG.

  Here, FIG. 14 is a diagram illustrating an example of confidential information included in the drawing data. In this embodiment, for example, as shown in FIG. 14 (a), when a correspondence table between a circuit system and a signal corresponding thereto is set and stored in advance, when a failure or problem occurs, If only the symbol is transferred, the contents can be grasped between the mobile terminal 13, the in-facility terminal 24, and the monitoring server 21, and what happens even if only the symbol is wiretapped by another person? The meaning cannot be understood unless the correspondence table shown in FIG. Therefore, information security can be improved. Further, by associating the symbol with the position information, it is possible to easily grasp what kind of device failure is in which place.

  Note that the circuit system (signal) in FIG. 14A can be expressed as, for example, “a security area or a type of alarm”. That is, the security target building is divided into a plurality of security areas, and a signal is set for each divided security area. For example, when an intruder is detected in the president's room on the first floor, the in-facility terminal 24 transmits a signal “A4” to the monitoring server 21, and when detecting that the safe on the first floor has been taken out, the signal “A1” is monitored. Send to server 21. Thereby, the monitoring staff of the monitoring server 21 can know that an intruder has occurred in the building to be guarded and that the intruder is taking some action in the safe while in a remote place. In addition, information such as a fire or a power failure can be transmitted to the circuit system as a type of alarm. In addition, the above-mentioned process can transmit / receive the signal between the mobile terminal 13 and the in-facility terminal 24 which an operator has at the time of a security check etc., for example.

  Further, as shown in FIG. 14B, by storing the “symbol (mark)”, “product name”, etc. of the security device displayed in the drawing data 23 described above in association with each other, The contents can be easily understood. Further, as shown in FIG. 14C, by acquiring “device name”, “general name”, “its function / role”, etc. corresponding to the “symbol” shown on the drawing data 23, the specifics are obtained. Can be easily understood. In addition, each item shown to FIG.14 (b), (c) is equivalent to the apparatus classification mentioned above. Thereby, the user can easily grasp what position of the security device is installed in the drawing data 23, and can improve the usability.

  In FIG. 14C, specifically, for example, a safe detector is a sensor that detects metal. The safe detector has a function / role such as outputting an alarm to the in-facility terminal 24 when the sensor is removed from the safe or when vibration is detected. Similarly, a space sensor (infrared sensor) is a sensor that detects a human body using infrared rays. Note that the sensing range (distance) varies depending on the type of sensor. The open / close sensor (magnet sensor) is a sensor that detects an open / closed state of a door, a window, or the like. The open / close sensor has a function / role such as attaching a magnet to a door or window and detecting open / close by the presence or absence of a magnetic field. The fire sensor is a sensor that detects a fire. Fire sensors include sensors of a constant temperature type (alarm when a predetermined temperature is exceeded), a differential type (alarm when a temperature difference of a predetermined level or more is detected in a short period of time), a smoke detection type sensor, and the like. Thereby, even if it is inexperienced, the security guard can understand the security equipment installed in the place easily.

  FIG. 15 is a diagram illustrating an example of a device management table. 15 is stored in the monitoring server 21, the in-facility terminal 24, and the mobile terminal 13, and the items include, for example, “device management No.”, “device name”, “area (signal Type ”,“ apparatus identification information ”,“ ID ”,“ position information (three-dimensional coordinate system <latitude, longitude, altitude>) ”,“ inspection completion flag ”,“ inspection date and time ”, and the like. The device management table may be in a data format combined with the drawing, or may be data different from the drawing as described above.

  The “device identification information” may be, for example, an IP address, but is not particularly limited as long as it can be identified for each device. As the “ID”, for example, an S / N (Serial Number) or a Mac address can be used. In the present embodiment, the “coordinate” is a three-dimensional coordinate system including longitude, latitude, and altitude. However, the present invention is not limited to this, and other three-dimensional coordinates are set in advance. A value based on the spatial coordinate system may be set. The “inspection completion flag” is used to identify devices that have been inspected or devices that have not been inspected. Specifically, “1” is displayed after the inspection is completed, and the inspection is not completed. “0”, “2” or the like is set when a failure such as a failure occurs. The inspection date / time is recorded as the inspection signal transmitted from the mobile terminal 13 by the inspection is transmitted to the in-facility terminal 24 and received by the in-facility terminal 24. Thereby, it is possible to confirm when the inspection process has been performed, and it is possible to manage the time spent as a whole and perform efficient operation.

  In the present embodiment, not only the above-described drawing data and the like are displayed on the mobile terminal 13 and the like, but also editing and display content change can be performed by an actual operation. Here, FIG. 16 is a diagram illustrating an example of display contents displayed by the operation. For example, as shown in FIG. 16, the above-described various device management data shown in FIG. 15 can be displayed by aligning the cursor 116 displayed on the screen with the security device. Thereby, various information of the various devices displayed can be easily acquired.

  FIG. 17 is a diagram illustrating an example of a display of progress in the drawing data. In the diagram shown in FIG. 17, the inspection result information 100 described above is reflected in the drawing data, and what kind of information is retained and visualized when leaving during inspection and patrol is shown in the drawing. It is a thing. For example, the inspection completion flag is set in the security equipment that has already been inspected, and the security equipment that has been inspected is filled in as shown in FIG. 17A by referring to the inspection completion flag. Etc. are highlighted. In addition, as shown in FIG. 17A, when the inspection completion sensor flag is set in all the security devices in the area, for example, “EV hall (1st floor)” is displayed with diagonal lines, and inspection or patrol is completed. This is displayed on the drawing. This makes it easy to know which part of the floor has not yet been checked.

  Further, as shown in FIG. 17B, by highlighting the area where the uninspected sensor exists, it is possible to easily recognize that the inspection or patrol is not finished. Further, in the case of a large area such as the “office (sales department)” shown in FIG. 17B, when a predetermined area of the entire area is completed, the completion of the area is completed. A mark may be provided. Therefore, it can be set not for each room but for each predetermined area for each room. Moreover, the abnormal part can be clearly grasped by performing highlighting different from others for the security device that has an abnormality in the security inspection.

  The display examples for distinguishing between completed and incomplete are not particularly limited to those described above in the present invention. For example, if there is no abnormality as a result of the inspection, a “◯” mark is displayed. If there is an abnormality, an “x” mark may be displayed.

  Furthermore, the screen example that can be displayed according to the present embodiment is not limited to this. For example, a screen that lists security devices and their check statuses, and a check that indicates when the sensor was checked. History information and the like can be acquired.

  The guard operates the mobile terminal at the end of the inspection, and notifies the in-facility terminal 24 that the inspection has ended. The in-facility terminal 24 checks the security equipment that has been tested for operation and the security equipment that has not been tested. If there is an inspection failure, the mobile terminal 13 is notified accordingly. The mobile terminal 13 notifies the guards of the information (the position of the security terminal where there is an inspection omission). Note that the above-described process for newly installing a security device can be applied to the process for adding a security device.

<Example of drawing data display at the time of failure>
Next, a display example of drawing data at the time of failure in the present embodiment will be described with reference to the drawings. FIG. 18 is a diagram for explaining an example of display of drawing data at the time of failure. As shown in FIG. 18, for example, when a failure due to communication failure occurs in a certain sensor (sensor B), the error information is transmitted to the in-facility terminal 24. The in-facility terminal 24 extracts the sensor information acquired from FIG. 15 corresponding to the sensor B, transmits the content to the mobile terminal 13 as the above-described inspection result information 100, and displays it on the mobile terminal 13. The displayed contents are necessary information at the time of inspection such as “equipment management No.”, “name”, “area”, “identification information”, “ID”, “coordinates”, “state”, etc. However, the present invention is not limited to this. Moreover, about the sensor which failed, the state (in FIG. 18, communication failure) is displayed, and after that, a guard can exchange with another sensor etc., and it can return to normal by checking again.

  Note that the above-described drawing data and the like shown in FIGS. 13 to 18 are generated by the screen generation means 58 of the in-facility terminal 24 and displayed on the display of the mobile terminal 13 or the like.

<Operation sequence>
Next, an exemplary operation sequence for the inspection status management system in the present embodiment described above will be described with reference to a sequence diagram. FIG. 19 is a sequence diagram illustrating an example of the inspection status management system in the present embodiment. In the sequence diagram illustrated in FIG. 19, a series of sequences of the inspection status management system will be described using the monitoring server 21, the in-facility terminal 24, and the mobile terminal 13.

  In the example shown in FIG. 19, first, in the monitoring server 21, the target facility and the guard (worker) are designated (S01), and a corresponding key is generated (S02). Next, the key information is transmitted to the in-facility terminal 24 (S03). As a result, the in-facility terminal 24 can recognize in advance that a guard is coming to the facility. In addition, you may add and send the information which shows that a guard comes in the process of S03.

  It should be noted that the drawing data of the facility possessed by the monitoring server 21 has been transmitted to the in-facility terminal 24 in advance, but if it has not been transmitted, the drawing data 23 required for security and patrol is stored in the in-facility terminal 24 (S04). Further, the monitoring server 21 transmits the key information generated in the process of S02 to the mobile terminal 13 of the security guard in charge of guarding the facility (S05). In addition, in the process of S05, destination information on which facility to go to can be given in addition to the key information.

  Next, when the mobile terminal 13 can communicate with the in-facility terminal 24 (S06), key verification is performed (S07), and if the verification result is OK, the drawing data 23 is transmitted to the mobile terminal 13 ( S08). Note that if the result of collation is NG in the processing of S07, the subsequent processing is not performed, and error information is transmitted from the in-facility terminal 24 to the monitoring server 21 and the mobile terminal 13.

  When the mobile terminal 13 acquires the drawing data 23 from the in-facility terminal 24, the mobile terminal 13 displays the drawing data 23 on the screen (S09). Next, while holding the mobile terminal 13, the security guard patrols and checks each sensor (S10). In addition, after the process of S10, the obtained inspection result, the position information of the mobile terminal 13, and the like are transmitted to the in-facility terminal 24 (S11), and the drawing data 23 is updated by the in-facility terminal 24 (S12). The updated drawing data 23 is returned to the mobile terminal 13 (S13). In this way, the mobile terminal 13 goes around until all the sensors are completed. The mobile terminal 13 reflects the latest drawing data 23 sent from the in-facility terminal 24.

  When the mobile terminal 13 displays the latest information on the screen (S14) and is inspecting (S15), if a problem such as malfunction does not occur in a certain sensor, a problem occurrence signal is generated. Then, it is transmitted to the in-facility terminal 24 (S16). The in-facility terminal 24 grasps the occurrence of a failure or the like (S17), updates the drawing data based on the failure information, and transmits it to the mobile terminal 13 (S18). The mobile terminal 13 displays the screen (S19), and handles the failure such as replacing the sensor at the failure location (S20).

  Here, when the monitoring server 21 requests support (S21), the monitoring server 21 transmits the support request signal to the in-facility terminal 24 (S22). The monitoring server 21 transmits a similar support request signal to the mobile terminal 13 (S23). In the process of S23, the in-facility terminal 24 that has received the signal in the process of S22 may transmit the support request signal to the mobile terminal 13.

  Since the mobile terminal 13 has received the support request signal, the mobile terminal 13 leaves the target facility 12 during the work (S24). At this time, as described above, the confidential information recorded in the mobile terminal 13 is deleted (S25). In addition, when the communication with the mobile terminal 13 is interrupted for a predetermined time, the in-facility terminal 24 checks in what state the mobile terminal 13 has left the building based on the determination (S26). Further, when the support ends (S27) and the mobile terminal 13 can communicate with the in-facility terminal 24 (S28), collation is performed with each other's key information (S29) as shown in S06 described above. The terminal 24 generates a continuation screen for the inspection work that the mobile terminal 13 has performed so far (S30), and transmits it to the mobile terminal 13 (S31).

  The mobile terminal 13 displays the continuation screen, and continuously performs inspection work while viewing the screen (S32). Moreover, when inspection is complete | finished (S33), the completion | finish procedure of the inspection which shows that is performed to the terminal 24 in a facility (S34), and it leaves a target facility (S35). At this time, as described above, the confidential information recorded in the mobile terminal 13 is deleted (S36). In addition, when the communication with the mobile terminal 13 is interrupted for a predetermined time, the in-facility terminal 24 checks in what state the mobile terminal 13 has left the building based on the determination (S37). In the case of the process of S37, if the inspection end procedure is completed in S34, it can be easily understood that the inspection process has been completed.

  As described above, according to the present invention, it is possible to efficiently and accurately check the target device. Specifically, the confidential information is deleted when leaving the target facility once due to a request for support, etc. By reacquiring, the security guard can continue to perform inspection work.

  In the present invention, the confidential data is automatically deleted or a meaningless symbol is written a plurality of times, so that even if the mobile terminal is taken away or lost on the way back from inspection, drawing data is leaked. Can be prevented. Moreover, although the security guard heading for the inspection carries the mobile terminal, the drawing data will not leak even if the terminal is taken or lost. Further, since the in-facility terminal and the mobile terminal, the in-facility terminal and the monitoring server, and the security device and the in-facility terminal are connected by a secure line, the location information of the mobile terminal 13 Will not leak to the outside.

  The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to such specific embodiments, and various modifications, within the scope of the gist of the present invention described in the claims, It can be changed.

DESCRIPTION OF SYMBOLS 10 Inspection condition management system 11 Monitoring server 12 Contract facility 13 Mobile terminal 14 Communication network 21 Monitoring server 22 Confidential information database 23 Drawing data 24 In-facility terminal 25 Sensor 31,51,71 Input means 32,52,72 Output means 33, 53, 73 Storage means 34, 54, 74 Encrypted communication means 35 Key generation means 36 Facility terminal management means 37 Mobile terminal management means 38 Inspection status grasping means 39, 59 Screen generation means 40, 60, 79 Notification means 41, 61 , 80 Transmission / reception means 42, 62, 81 Control means 55 Mobile terminal monitoring means 56 Inspection status acquisition means 57 Inspection execution determination means 58 Continuous processing execution determination means 75 Position positioning means 76 Screen display means 77 Confidential information erasure means 78 Confidential information reacquisition Means 91 Input device 92 Output Location 93 drive device 94 the auxiliary storage device 95 memory device 96 CPU
97 Network connection device 98 Recording medium 100 Inspection result information 101 Support request 111 Security lamp 112 IC card reader 113 Open / close sensor 114, space sensor (infrared sensor)
115 fire sensor 116 cursor

Claims (10)

A monitoring server, a security inspection device that a worker possesses when inspecting the security equipment by visiting the security inspection target facility according to an instruction from the monitoring server, and the inspection status of the target facility by the security inspection device In an inspection status management system comprising an inspection status management device to manage,
The monitoring server includes key generation means for generating key information for performing encrypted communication between the inspection status management device and the security inspection device, and a worker who performs security inspection at a preset target facility Security inspection device management means to determine the worker who requests support from the status of security inspection, the security inspection device possessed by the selected worker and the inspection status of the target facility where the worker is working An inspection status grasping means for transmitting a support request signal to the management device;
The inspection status management device includes encrypted communication means for performing communication based on the key information transmitted from the security inspection device and the monitoring server and communicating confidential information by encryption, and a security guard to be a security target in the facility. The security inspection device monitoring means for monitoring the position information and work contents of the security inspection device possessed by the security inspection device, the inspection execution determination means for performing the security inspection execution determination in the security inspection device, and the security in the case of collation by the key information A continuous process execution determination means for determining whether or not to continue the security inspection from the identification information obtained from the inspection device;
The security inspection device is an encrypted communication means for performing communication with confidential information by encryption by comparing with the inspection status management device and the key information, a position positioning means for positioning the current position, and the encrypted communication means. The confidential information erasing means for erasing the confidential information acquired by the above-mentioned method based on a predetermined condition, and the confidential information re-acquiring means for re-acquiring the confidential information erased by the confidential information erasing means Inspection status management system. In the inspection status management device that manages the inspection status of the target facility by the security inspection device possessed by the worker when inspecting the security equipment by visiting the target facility of the security inspection from the instruction from the monitoring server,
Encrypted communication means for communicating confidential information by encryption by collating with the key information transmitted from the security inspection device and the monitoring server,
Security inspection device monitoring means for monitoring the position information and work contents of the security inspection device possessed by the security guards to be guarded in the facility;
Inspection execution determination means for performing execution of security inspection in the security inspection device;
An inspection status management apparatus comprising: a continuous process execution determination unit that determines whether or not to continuously perform a security check from identification information obtained from the security check apparatus in the case of collation by the key information. An inspection status acquisition means for acquiring an inspection status in the security inspection device and updating the confidential information with the acquired content;
3. The inspection status management apparatus according to claim 2, further comprising storage means for storing updated confidential information obtained by the inspection status acquisition means. The continuation process execution determining means is
In the verification using the key information by the encrypted communication means, the updated confidential information corresponding to the identification information stored in the storage means by the identification information acquired from the security inspection device is acquired, The inspection status management device according to claim 3, wherein the inspection status management device is transmitted to the security inspection device according to a result of the collation. Inspection status management in the inspection status management device that manages the inspection status of the target facility by the security inspection device possessed by the worker when inspecting the security equipment by visiting the target facility for security inspection from the instruction from the monitoring server In the method
Encrypted communication procedure for conducting confidential information communication by encryption by collating with the key information transmitted from the security inspection device and the monitoring server,
A security inspection device monitoring procedure for monitoring position information and work contents of a security inspection device possessed by a security guard to be guarded in the facility;
An inspection execution determination procedure for performing an execution determination of the security inspection in the security inspection device;
An inspection status management method comprising: a continuous process execution determination procedure for determining whether or not to continuously perform a security check from identification information obtained from the security check device in the case of collation by the key information. An inspection status acquisition procedure for acquiring the inspection status in the security inspection device and updating the confidential information with the acquired content;
6. The inspection status management method according to claim 5, further comprising a storage procedure for storing updated confidential information obtained by the inspection status acquisition procedure in a storage means. The continuation process execution determination procedure includes:
In the verification using the key information by the encrypted communication procedure, the updated confidential information corresponding to the identification information stored in the storage means is acquired by the identification information acquired from the security inspection device, The inspection status management device according to claim 6, wherein the inspection status management device is transmitted to the security inspection device according to a result of the collation. Inspection status management in the inspection status management device that manages the inspection status of the target facility by the security inspection device possessed by the worker when inspecting the security equipment by visiting the target facility for security inspection from the instruction from the monitoring server In the program
Computer
Encrypted communication means for performing communication with confidential information by encryption by collating with the key information transmitted from the security inspection device and the monitoring server,
Security inspection device monitoring means for monitoring position information and work contents of a security inspection device possessed by a security guard to be guarded in the facility;
Inspection execution determination means for determining execution of security inspection in the security inspection device, and
An inspection status management program for functioning as continuous processing execution determination means for determining whether or not to continuously perform security inspection from identification information obtained from the security inspection device in the case of collation by the key information. An inspection status acquisition means for acquiring an inspection status in the security inspection device and updating the confidential information with the acquired content;
9. The inspection status management program according to claim 8, further comprising storage means for storing updated confidential information obtained by the inspection status acquisition means. The continuation process execution determining means is
In the verification using the key information by the encrypted communication means, the updated confidential information corresponding to the identification information stored in the storage means by the identification information acquired from the security inspection device is acquired, The inspection status management program according to claim 9, wherein the inspection status management program is transmitted to the security inspection device according to a result of the collation.

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