JP6001252B2 - Suspicious radio wave monitoring system and suspicious radio wave monitoring program - Google Patents

Description

  The present invention relates to a suspicious radio wave monitoring system and a suspicious radio wave monitoring program, and in particular, an eavesdropping / voyeurism device is newly provided by detecting / notifying that a suspicious radio wave that is unknown to the user is transmitted. The present invention relates to a suspicious radio wave monitoring system that allows a user to recognize this, and a suspicious radio wave monitoring program that is stored in a monitoring computer and executes a system operation.

  In recent years, eavesdropping devices and voyeur cameras have become smaller and more sophisticated, and there is a risk that personal privacy information and corporate information will be illegally obtained over a long period of time, being set in an inconspicuous state. It is growing. In addition, since these devices can be obtained cheaply and easily by mail order etc., it is said that there is a possibility of suffering from eavesdropping and voyeurism without knowing by not only celebrities and companies but also ordinary people Yes.

  For this reason, when suspicious, a specialist is requested to check for the presence or absence of an eavesdropper or voyeur equipment, and if present, the position is identified and removed. However, there are cases where these devices are installed after the investigation by specialists is completed, and regular investigations are necessary to ensure security, so the effort and cost burden for that is likely to be excessive. .

  In response to such a problem, Japanese Patent Laid-Open No. 2002-181860 discloses an antenna that is placed indoors and continuously receives a predetermined radio wave, and a host that is connected to the antenna and determines whether there is an eavesdropping radio wave (for monitoring). ) An eavesdropping radio wave monitoring system equipped with a computer has been proposed, and it is possible to constantly monitor the presence or absence of eavesdropping radio waves by installing it once.

  Japanese Patent No. 4565346 discloses a first measurement mode (individual measurement mode) in which the monitoring computer receives a predetermined frequency for the receiver and a second measurement mode (individual measurement mode) in which the entire frequency band of interest is received ( Eavesdropping radio wave monitoring system that can efficiently detect even devices that operate only during use, such as a telephone eavesdropper, has been proposed as having a function to switch between full scan mode) according to the time zone. ing. Further, JP 2010-134670 A proposes a system for detecting suspicious radio waves including not only eavesdropping radio waves but also voyeur radio waves.

  In these systems, radio wave data indicating each electric field intensity acquired using a receiver in a state where there is no suspicious radio wave is stored in a monitoring computer in advance, and wiretapping radio waves are compared with radio wave data transmitted from the receiver. The efficiency of the monitoring work is improved by determining the presence or absence of the signal, or by determining the environmental signal detected and stored in advance by the monitoring computer.

  However, including the system having the function of switching between the first measurement mode and the second measurement mode according to the time zone, it has a function of sweeping only to frequencies that a commercially available wiretap may use. In the case where an eavesdropper using a frequency different from the conventional one is sold, it is difficult to perform efficient monitoring in response to the change in the situation in a short period of time.

  Also, it is difficult to set or learn about radio waves that occur suddenly for a very short time, such as fire fighting radios, substitute radios, or telephone cordless handsets, so these are judged as suspicious radio waves. There is also a drowning. Further, even if the monitoring computer side excludes such environmental radio waves at the time of determination, since the excluded radio waves are once received by the receiver side, the sweep time per one cool in the measurement work is reduced. Since it does not lead to shortening, the work efficiency is still insufficient.

JP 2002-181860 A Japanese Patent No. 4565346 JP 2010-134670 A

  The present invention is intended to solve the above-mentioned problems, even when a bugger / voyeur equipment having a frequency different from the conventional one is used, or when external radio waves are suddenly mixed in the environmental radio waves, An object is to enable efficient and accurate monitoring of suspicious radio waves.

Therefore, the present invention operates with software stored and placed in each of a plurality of user facilities, and receives a predetermined radio wave while transmitting received radio wave data to perform radio wave measurement work, and this reception It is determined whether or not the data received by the suspicious radio wave determination means connected to the machine includes suspicious radio waves that may be wiretapped or / and voyeurized. In a suspicious radio wave monitoring system comprising a monitoring computer that performs a monitoring operation of a suspicious radio wave as a notification to a monitoring person or / and a user that the receiver of the transmission source has received the suspicious radio wave, the receiver is It can be connected to the Internet line via a mobile terminal with Internet connection function or an Internet connection device, and at least used for suspicious radio waves It is possible to operate in an individual measurement mode that receives only radio waves of a certain frequency, and the monitoring computer can remotely control the operation contents by setting or updating the software of the receiver via the Internet line. The receiver is specified based on the identification data based on the IP address included in the transmitted data signal, and the receiver has an Internet connection function owned by the user. By connecting to an attached mobile terminal, it is possible to connect to the Internet line via wireless and to transmit / receive to / from the monitoring computer, and also serves as a charging station for the mobile terminal with the Internet connection function. It was supposed to be a feature.

In this way, in the suspicious radio wave monitoring system in which the receiver on the user facility side and the monitoring computer on the monitoring person side are connected via the Internet line, the software of the receiver is remotely set and updated by the monitoring computer. By making it possible to operate the operation content, it is possible to change the content of the received radio wave and the measurement mode while responding immediately to changes in the situation, making it easier to realize efficient and accurate monitoring work, and the Internet Ri as the Do capable individually identify the source of the receiver by utilizing the IP address, such as a mobile terminal with connection functions as identification data, the receiver connected to the mobile terminal with internet connection function owned by the user In this way, it is possible to connect to the Internet line via wireless and to send / receive data to / from the monitoring computer. Since it is also characterized by serving as a charging station for mobile terminals with Internet connection function, it is possible to construct a system even in a facility without an Internet connection line, as well as location restrictions when installing a receiver In addition, the receiver is integrated with the charging station of the portable terminal with the Internet connection function, so that the power supply of the receiver and the connection to the Internet terminal can be secured at the same time. Become.

  In the suspicious radio wave monitoring system in which the receiver and the monitoring computer are connected via the Internet line, according to the present invention, the monitoring computer can remotely operate the operation content by setting or updating the software of the receiver. Even when an eavesdropper / voyeur equipment with a frequency different from the conventional one is used, or when sudden and short-term environmental radio waves are generated, suspicious radio waves can be monitored efficiently and accurately.

It is a system configuration figure of an embodiment in the present invention. It is a functional block diagram of the monitoring computer of FIG. It is a flowchart which shows the operation | movement procedure at the time of the monitoring computer of FIG. 2 setting a receiver. It is a flowchart which shows the operation | movement procedure at the time of the suspicious electric wave monitoring system operation | movement of the monitoring computer of FIG. It is a flowchart which shows the operation | movement procedure at the time of the monitoring computer of FIG. 2 updating the software of a receiver.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

  FIG. 1 shows a simplified configuration of a suspicious radio wave monitoring system 1A according to the present embodiment. This suspicious radio wave monitoring system 1A is arranged at each of a plurality of user facilities 3a, 3b, 3c, 3d,... And operates with predetermined software to transmit received radio wave data while receiving predetermined radio waves. Are provided with receivers 7, 7, 7, 7,... That perform radio wave measurement work, and a monitoring computer 10 A connected to the receivers 7 through the Internet line 100.

  The user facilities where the receiver 7 is arranged are not only general households and corporate buildings, public facilities such as public baths and public toilets, educational facilities such as schools, etc. All facilities are assumed. The receiver 7 is connected to the network connection device 4 to be connected to the Internet line 100 and the in-facility LAN 50 in order to perform transmission / reception with the monitoring computer 10A disposed in the system operating company facility 2 or the like via the Internet line 100. It is arranged in a state or connected to the user terminal 6 which is a portable terminal that can be connected to the Internet line 100 wirelessly.

  The receiver 7 is at least capable of operating in an individual measurement mode for receiving only a plurality of types of frequencies that are highly likely to be used for suspicious radio waves including eavesdropping radio waves and voyeur radio waves. Performs efficient and accurate monitoring of suspicious radio waves by significantly reducing the sweep time per cool compared with the full scan mode that continuously receives a predetermined range of frequencies at the smallest possible interval. It is possible. The receiver 7 can also measure in the full scan mode, and the monitoring computer 10A can perform a remote switching operation between the individual measurement mode and the full scan mode.

  Then, the monitoring computer 10A determines whether or not each of the input data includes a suspicious radio wave that may be wiretapped or / and voyeurized. Assuming that the receiver 7 has received the suspicious radio wave by a predetermined method, the suspicious radio wave monitoring operation is automatically and continuously executed.

  The above-described system configuration itself is well-known in the above-described conventional suspicious radio wave monitoring system. In the suspicious radio wave monitoring system 1A according to the present invention, the monitoring computer 10A receives it via the Internet line 100. It is characterized by the fact that it is possible to remotely control the operation contents by setting or updating the software of the machine 7, and the software can be updated by changing the reception frequency in the individual measurement mode. Includes additions and deletions.

  As described above, the monitoring computer 10A, which is the core of the system operation, can set and update the software that controls the receiver 7 so that the operation content can be remotely operated. It is possible to respond efficiently and accurately without requiring time. For example, when an eavesdropping / voyeurizing device that uses a new frequency to avoid detection by the suspicious radio wave monitoring system is sold, the monitoring computer 10A uses a new reception frequency as the reception frequency in the individual measurement mode of the receiver 7. Security can be ensured by updating the software in the form of adding.

  FIG. 2 shows a functional block diagram of the monitoring computer 10A in this system. The monitoring computer 10A in the present embodiment is a general-purpose computer that also functions as a web server in hardware. However, the suspicious radio wave monitoring program for causing the storage unit to perform the functions described later is installed, so It functions as a core of management and management and has functions not found in conventional systems, and is mainly composed of a control unit 11A, a data storage unit 12A, and transmission / reception means 13.

  The control unit 11A includes a suspicious radio wave determination unit 11a for determining whether or not a suspicious radio wave is included in each radio wave data input via the Internet line 100 and the transmission / reception unit 13, and a suspicious radio wave. If the user terminal 5a, 5b, 5c, 5d, 6, the user terminal 5a, 5b, 5c, 5d, 6, can be provided with a notification means 11b for notifying this by a predetermined method and a web screen generation function. It has web screen generation means 11d for making the user who connected by ... browse a web screen. Each of these means is not limited to individual hardware, but includes those functionally configured by the above-described suspicious radio wave monitoring program.

  The data storage unit 12A stores suspicious radio wave data of a plurality of types of frequencies that are highly likely to be used for eavesdropping / voyeurism radio waves and environmental radio wave data of radio waves received by each receiver 7 in the absence of suspicious radio waves. A radio wave information file 12a for storing information, a receiver setting information file 12b for storing setting information for each receiver 7, a destination information for notifying a suspicious radio wave when it is found, a notification method, etc. A notification destination information file 12c. Needless to say, these information files need not be stored in individual storage means, and may be configured while functionally forming areas in one storage means.

  The operation of storing the environmental radio waves in the user facility where the receiver 7 is placed in the receiver setting information file 12b is performed by a person in charge of the system operating company in the target user facility and using a suspicious radio wave detection device. It is necessary to carry out after confirming that no exists. In this case, when the environmental radio waves are stored on the monitoring computer 10A side, for the radio waves of a predetermined level (for example, 30 dBμV / m) or more, the software of the measured receiver 7 is remotely updated and is not received thereafter. It is recommended to use a method that performs the operation. As a result, the sweep time per cool in the receiver 7 can be shortened, and efficient work can be easily performed.

  In this suspicious radio wave monitoring system 1A, when an output signal including received radio wave data received by each receiver 7 is input to the monitoring computer 10A, each received radio wave data and radio wave information file input by the suspicious radio wave determination means 11a. The environmental radio wave data of the transmission source receiver 7 respectively stored in 12a is compared to check whether or not a new radio wave having a predetermined intensity (for example, 30 dBμV / m) or more is included.

  In the present embodiment, only the radio waves measured over a predetermined measurement interval (time or the number of sweep cools) in the radio wave measurement work in the individual measurement mode among the new radio waves having the predetermined strength or higher confirmed. It is characterized by adopting a method of judging as radio waves. This is because, for example, radio waves that suddenly enter from outside only for a short time, such as fire fighting radio, police radio, and substitute vehicle radio, cannot be received as environmental radio waves when the receiver 7 is initially set. In order to avoid a situation in which these radio waves are determined and reported as suspicious radio waves, only radio waves measured over a predetermined measurement interval are limited to the determination target.

  When the suspicious radio wave determination unit 11a determines that the suspicious radio wave is received by the receiver 7 of any user facility, the notification unit 11b automatically notifies the monitoring person in charge of the system operating company and / or the user. It is supposed to be. Even if the setting is not notified directly to the user, at least the person in charge of monitoring is informed and the person in charge of monitoring notifies the user.

  As a method of notifying the person in charge of monitoring, it is assumed that the information is displayed on the display means 14 such as a display attached to the monitoring computer 10A. In addition, it is possible to perform mail transmission, FAX transmission, and notification using a home page by manual operation using the input means 15 such as a keyboard.

  As a method for the monitoring computer 10A to notify the user automatically and directly, a method of displaying and notifying on a dedicated screen (My Page) for each user provided on the homepage of the system, a method of notifying the user by automatic mail , There is a method of notifying the user by automatic FAX, and any one of these or a combination of these is selected in advance and set in the monitoring computer 10A, and the notification in the setting including the case of notifying the monitoring person in charge The method and notification destination data are registered in the notification destination information file 12c.

  In addition, it is preferable that each user's My Page displayed on the system homepage can be viewed by each user through an authentication procedure such as password entry from the viewpoint of privacy protection. A monitoring result report screen that displays the presence or absence of radio waves is included. Furthermore, when a wiretap / voyeur radio wave is received, a function for allowing the user to view the sound and video on a My Page is provided, thereby making it easy to specify the setting location of the wiretap / voyeur device. That is, the position of the voyeur device can be identified from the positional relationship with the shooting target in the voyeur image, or the position of the bugger can be identified by operating the position and orientation of the receiver 7 while checking the wiretapping sound live. It becomes easy to do.

  FIG. 3 is a flowchart for explaining the operation procedure of the monitoring computer 10A based on the suspicious radio wave monitoring program when the receiver 7 is installed and set in the user facility in the present embodiment. The person in charge of the system operating company who visited the user facility directly confirms that there is no device that emits eavesdropping radio waves or voyeur radio waves at the user facility before installing the receiver 7, and if it exists, This is searched and removed, and if it is confirmed that it does not exist, the receiver 7 is installed in a state where it can be connected to the Internet line 100.

  When the person in charge activates the receiver 7, it first starts sweeping the environmental radio wave in the full scan mode and outputs a signal including the received radio wave data. The output signal includes the receiver 7 such as an IP address. Identification data for individual identification is included. The monitoring computer 10A receives this output signal (A1), and specifies the transmission source receiver 7 based on the identification data (A2).

  The monitoring computer 10A generates environmental radio wave data from the received output signal, registers it in the radio wave information file 12a in association with the user's data (A4), and the suspicious radio wave determination means 11a has a predetermined intensity ( For example, it is determined whether or not there is a radio wave of 30 dBμV / m) or more (A5), and if it exists, the receiver operating means 11c excludes the radio wave having the predetermined strength or more in the measurement target radio wave in the transmission source receiver 7 In such a case, it is remotely updated (A6), and if it does not exist, it is assumed that it is not updated, and the operation mode of the transmission source receiver 7 is switched to the individual measurement mode to start the measurement work (A7), and the setting work is completed. .

  FIG. 4 is a flowchart for explaining an operation procedure of the monitoring computer 10A in a situation where each receiver 7 is actually operating in this system. The monitoring computer 10A continuously receives the output signals of the plurality of receivers 7 (B1), but identifies each transmission source receiver 7 from the identification data included in each output signal (B2). ).

  The monitoring computer 10A compares the received radio wave data included in the output signal by the suspicious radio wave determination means 11a (B3), and compares this with the environmental radio wave data by the receiver registered in the radio wave information file 12a (B4). It is determined whether or not a new radio wave having a predetermined intensity (for example, 30 dBμV / m) or more is present (B5). If there is no new radio wave, the process returns to the beginning, and if present, it is repeated for a predetermined interval (for example, two sweep cools). Etc.) Determine whether or not the signal has been received continuously (B6). If it has not been received continuously, the process returns to the beginning. If it has been received continuously, it is determined as a suspicious signal. (B7), this is recorded (B8), the notification means 11b notifies the notification destination registered in the notification destination information file 12c by the registered notification method (B9) and returns to the beginning.

  FIG. 5 shows a case where a model using a new frequency is added to a commercially available eavesdropping / voyeurism device and cannot be covered by the reception frequency of the individual identification mode of the receiver 7 in order to cope with this situation change. The flowchart for demonstrating the case where the monitoring computer 10A updates 7 software of each receiver remotely is shown.

  When the system operating company determines that it is necessary to update the individual measurement mode of each receiver 7 by obtaining information on sales of eavesdropping / voyeurizing equipment using a new frequency, the person in charge of monitoring has input means 15 Is used to input new radio wave data to the radio wave information file 12a of the monitoring computer 10A (D1), and settings for automatically updating the software of each receiver 7 are performed.

  Then, in the monitoring computer 10A, the receiver operating means 11c creates update data (C1), specifies the receiver 7 to be updated based on the data of the radio wave information file 12a and the receiver setting information file 12b (C2 ), The update data is transmitted (C3), and the update condition is overwritten by overwriting the reception condition of the individual measurement mode of the software in the target receiver 7 (C4), thereby completing the update operation.

  As described above, in the suspicious radio wave monitoring system 1A according to the present embodiment, the monitoring computer 10A remotely operates the operation of the receiver 7 while setting / updating the software of each receiver 7 so that the receiver 7 Various changes in the situation can be dealt with automatically and accurately at all stages from the time of setting to the time when the monitoring work is being executed, and excellent security can be realized without requiring the trouble of the person in charge of monitoring.

  Further, in the suspicious radio wave monitoring system 1A of the present embodiment, even if the Internet connection environment is not installed in the user facility, it is a mobile terminal with an Internet connection function (for example, a mobile phone, a tablet terminal, etc.) and wirelessly. The system can also be used by connecting the receiver 7 to the user terminal 6 that can be connected to the Internet line 100. In this case, for example, by integrating the charging station of the portable terminal and the receiver, the power supply of the receiver and the connection to the portable terminal are secured at the same time.

  As described above, even when an eavesdropper or voyeur equipment with a frequency different from the conventional one is used, or when external radio waves are suddenly mixed in environmental radio waves, the present invention enables accurate monitoring of suspicious radio waves. It became possible to do it efficiently.

  1A suspicious radio wave monitoring system, 2 system operating company facilities, 3a, 3b, 3c, 3d user facilities, 4 network connection equipment, 5a, 5b, 5c, 5d, 6 user terminal, 7 receiver, 10A monitoring computer, 11A control unit 11a Suspicious radio wave determination means, 11b Notification means, 11c Receiver operation means, 11d Web screen generation means, 12A Data storage section, 12a Radio wave information file, 12b Receiver setting information file, 12c Notification destination information file, 100 Internet line

Claims (1)

A receiver that operates by software stored and installed in each of a plurality of user facilities, transmits received radio wave data while receiving a predetermined radio wave, and performs radio wave measurement work, and the receiver via an Internet line The data received and received by the suspicious radio wave determination means is determined whether or not the data includes a suspicious radio wave that may be eavesdropped or / and voyeurized. In a suspicious radio wave monitoring system comprising a monitoring computer that performs a monitoring operation of a suspicious radio wave as a notification to a user that the receiver of the transmission source has received a suspicious radio wave,
The receiver is connected to an Internet line via a mobile terminal with Internet connection function or an Internet connection device, and at least according to an individual measurement mode for receiving only a radio wave of a predetermined frequency that may be used for the suspicious radio wave The monitoring computer can set or update the software of the receiver via the Internet line, thereby enabling remote operation of the operation contents, and the transmitted data signal. The receiver is specified based on the identification data based on the IP address included in the receiver, and the receiver is connected wirelessly by connecting to the mobile terminal with the Internet connection function owned by the user. Connection to the Internet line and transmission / reception with the monitoring computer are possible. Together, suspicious radio monitoring system, characterized in that also serves as a charging station of the mobile terminal with internet connectivity.

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