RU200166U1 - Explosive device initialization prevention device - Google Patents

Abstract

The utility model relates to devices for isolating explosive or suspicious objects, namely by preventing the initialization of an explosive device located in them, the detonator of which is wirelessly controlled. The objective of the claimed utility model is to more accurately determine whether a digital device (for example, a GSM cellular communication) is in a suspicious object or not. The technical result is to improve safety for the population. The problem is solved by the fact that the device for preventing the initialization of an explosive device, made in the form of a protective dome containing a layer of tissue and made with the possibility of covering a suspicious object with the dome, while the dome is made in the form of a frame, and the fabric used as a fabric, shielding from electromagnetic interference, according to the claimed technical result, a virtual base station of the GSM standard with the possibility of two-way data exchange is installed inside the dome and fixed to the dome. 3 C.p. f-ly.

Description

The utility model relates to devices for isolating explosive or suspicious objects, namely by preventing the initialization of an explosive device in them, the detonator of which is wirelessly controlled.

There are various devices for preventing the operation of radio-controlled VU.

For example, to block possible control commands of the RVU, you can use all kinds of radio communication blockers, which are currently produced by Russian and foreign industry in a large number.

For example, "Pelena-8U" (http://kobra.su/catalog/nosimyj/item/174-pelena-8u/) with blocking frequencies from 20 to 3500 GHz

Also, given that many experts in the field of RVD research, argue that it has recently been based on the use of cell phones (https://applied-research.ru/ru/article/view?id=10247 Shogenov T.G. MODERN MOBILE MEANS SUPPRESSING EXPLOSION CONTROL RADIO LINES: STATE AND NEW REALITY, scientific journal "International Journal of Applied and Basic Research"), including for countermeasures, use blockers of "pure" cell phones (GSM 900/1800). These blockers are becoming popular in public places.

The prototype is a device for preventing the initialization of an explosive device (https://yandex.ru/patents/doc/RU195713U1_20200204), made in the form of a protective dome containing a layer of fabric and made with the possibility of covering a suspicious object with the dome, characterized in that the dome is made in the form frame, moreover, a fabric is used as a fabric, shielding from electromagnetic interference, and inside the dome, a false base station is installed and fixed to the dome, capable of simulating digital standards for wireless data transmission from the group: GSM, GPRS, EDGE, DECT, BLUETOOTH, WLAN.

However, this device only simulates certain communication standards, including cell phones. Such imitation (as indicated in the description, they create an imitation of digital standards for wireless data transmission from the group: GSM, GPRS, EDGE, DECT, BLUETOOTH, WLAN, so that the timer for the initialization of the explosive device does not accidentally turn on if it does not see the signals of the desired communication standard.) As a simulator ( as indicated in the description) the base station ST121 [http://www.alt-1c.ru/pages.html?id=5&cat=145&item=1545] can be used. This is the type of base stations that simply emit communication packets, similar to some communication systems (GSM, GPRS, EDGE, DECT, BLUETOOTH, WLAN).

The disadvantage is that this solution does not allow you to say for sure whether a digital device (for example, a GSM cellular communication) is in a suspicious object or not (since it is not intended to create a two-way information exchange with devices, including GSM).

The objective of the claimed utility model is to more accurately determine whether a digital device (for example, a GSM cellular communication) is in a suspicious object or not.

The technical result is to improve safety for the population.

The problem is solved by the fact that the device for preventing the initialization of an explosive device, made in the form of a protective dome containing a layer of tissue and made with the possibility of covering a suspicious object with the dome, while the dome is made in the form of a frame, and the fabric used as a fabric, shielding from electromagnetic interference, according to the claimed technical result, a virtual base station of the GSM standard with the possibility of two-way data exchange is installed inside the dome and fixed to the dome.

The principle of such devices has been known for a long time, for example, it is described in this article (https://habr.com/ru/company/securitycode/blog/280886/). For example, like this - https://www.mascom.ru/equipment/poiskovoe-oborudovanie/kompleksy-vyyavleniya-besprovodnykh-sredstv-dostupa/ibs-2g.php (as written in the description of this virtual base station - VBS, it is forced automatically transfers the GSM cellular devices in the room under its control

As a result of using this device inside a dome made of radio-opaque material, we can obtain the following advantages:

1) Accurately obtain data that the suspicious object contains cellular communication devices of the GSM 900/1800 standard

2) Also, taking them under control using the above-described virtual base station, we will not allow with 100% probability of initialization of the RVU

3) Also, based on the description (https://www.mascom.ru/equipment/poiskovoe-oborudovanie/kompleksy-vyyavleniya-besprovodnykh-sredstv-dostupa/ibs-2g.php) additional data about GSM devices can be obtained - for example, IMEI / IMSI

Application tactics - a suspicious object (bag, etc.) is covered from above with a dome made of radio-opaque fabric, and the above-described virtual base station is placed inside.

The canopy can be made of a double layer of fabric shielding against electromagnetic interference, the canopy frame can be made foldable or inflatable. Inside the dome, a portable GSM signal jammer can be installed between layers of tissue, and a dummy base station can be placed in front of the inner layer of tissue.

Due to the operation algorithm of this virtual base station, in case of finding suspicious objects inside, the operator is given information about their quantities and their identifiers. This information can be transmitted and received remotely using wired and wireless technologies. Additional information on used GSM device identifiers (IMEI / IMSI) can also be obtained.

It should be noted that there is an advantage over the use of such a VBS without a dome made of a radio opaque material (just one VBS).

In this case, it cannot be guaranteed that the device is "guaranteed" to land on our VBS, since there are a large number of legal base stations in the city. In our case, due to "screening" with a radio-opaque cloth, GSM devices inside such a dome will not "hear" any base stations, except for our VBS.

In addition, given the short distances, our VBS, which is inside the dome made of radio-opaque fabric, can be less powerful, and therefore be made smaller in size and weight.

Also, when using a VBS inside a radio opaque tissue, in contrast to using an VBS without it, there will be another advantage: only those GSM cellular devices that are inside will "sit" on the VBS under the dome, and if such an VBS is used without a dome, then they will probably sit down devices in close proximity (for example, citizens, law enforcement officers, etc.), which will lead to a large number of "false positives".

Claims (4)

1. A device for preventing the initialization of an explosive device, made in the form of a protective dome containing a layer of tissue and made with the possibility of covering a suspicious object with the dome, while the dome is made in the form of a frame, and as the tissue used is a fabric shielding from electromagnetic interference, which differs in that, that a virtual base station of GSM standard is installed inside the dome with the possibility of two-way data exchange. 2. The device according to claim. 1, characterized in that the dome is made of a double layer of fabric shielding from electromagnetic interference, inside the dome a portable GSM signal suppressor is installed between the layers of tissue, and a false base station is placed in front of the inner layer of fabric. 3. The device according to claim 1, characterized in that the frame of the dome is foldable. 4. The device according to claim 1, characterized in that the frame of the dome is inflatable.