RU169423U1 - IDENTIFICATION LABEL - Google Patents

Abstract

The utility model relates to means for controlling the location of material objects for the purpose of tracking their movement, including in the case of unauthorized movement. The identification mark is made in the form of a flat base with a power source, a SIM chip, a transceiver and a transceiver antenna mounted on it and interconnected. EFFECT: increased reliability of detection and positioning of a device and, as a result, an object marked with such a device.

Description

The utility model relates to means for controlling the location of material objects for the purpose of tracking their movement, including in the case of unauthorized movement.

Various technical means are known from the prior art for monitoring the position (location) and / or movement of material objects, designed to track the route of such movement and in case of violation of the route, loss, theft and the like. emergency situations to facilitate the search and finding appropriately marked object. As a rule, such means are a device fixed at the facility, consisting of a housing, inside of which there are means for providing remote communication with a certain dispatch center that exercises general control over the status and position of the device (and therefore the marked object) as part of a single control network ( see, for example, http://www.euromobile.ru/produkciya/glonassgpsm-trekery/zanoza-zakladka/).

The disadvantage of such devices is their size, which makes it easier for an attacker to detect a device on a marked object with subsequent unauthorized removal, as well as the technical aspects of the means of communication that require constant stable information contact in the "device - dispatch center" circuit, energy costs arising in this connection, requiring without fail the presence of a power source in the device, which, in turn, negatively affects the size of the device. The vicious circle described, which directly determines the functionality of the device for its intended purpose from its dimensions, significantly reduces the possibility of using such devices, since the costs associated with their manufacture, installation and operation as part of a common control network (including costs associated with by direct creation and functioning of the network itself) can essentially be leveled by simply removing the device from the marked object or by shielding such an object from the systems communication control network.

Thus, the problem solved when creating the claimed device is to reduce its overall characteristics in order to make it difficult to detect and unauthorized removal from the marked object, while maintaining a stable information connection between the device and the dispatch center. The technical result achieved in solving the problem is to increase the reliability of detection and positioning of the device and, as a result, the object marked with such a device.

To achieve the set result, an identification tag (hereinafter referred to as the tag) is proposed, made in the form of a flat base with a power source, a SIM chip, a transceiver and a transceiver antenna installed on it and connected to each other. If necessary, one of the surfaces of the base is made of adhesive and / or magnetic.

If necessary, the tag can be retrofitted with a means of charging the power source in the form of an inductor fed by the induced current from any power supply wire. Power can also be carried out by connecting to an external power supply network and / or internal power supply network of a marked object. The inductor can also be combined with the antenna and / or power wire. The antenna can also be made of several elements with electronic switching, and the label can be connected to an external sensor that detects movement. The transceiver, if necessary, can also be configured to connect to an additional external antenna.

The technical aspects of the implementation of the claimed purpose are due to the fact that the antenna and transceiver are designed to collect information about the frequency environment, i.e., in fact, to identify sources of artificial electromagnetic radiation surrounding the mark (and, therefore, the marked object) - signals from cellular networks, wireless internet, satellite, etc. In this case, in order to improve the accuracy of determining the coordinates of electromagnetic radiation sources, the antenna, if necessary, can be made of several elements with electronic switching, which allows you to organize a controlled radiation pattern. It is also technically possible that the antenna can be organized using elements external to the label. In turn, the sim chip is used for authorization in any available wireless network (cellular, WiFi, etc.) to transmit the collected information about the presence of the mentioned sources. Transmission is via a transceiver and antenna. The transmitted information about the detected sources of artificial electromagnetic radiation, their power and azimuth are used by the control center of the monitoring system to determine the coordinates of the mark (and, therefore, the marked object) based on the location of such sources.

Essentially, in the framework of the claimed solution, to determine the position of the label, the electromagnetic fingerprint method is used, supplemented by triangulation using several dissimilar sources of electromagnetic radiation. In this case, the label (through the antenna and transceiver) passively determines the presence and power, for example, of the base stations (BS) of cellular networks (regardless of the operator) and / or other radiating networks, for example WiFi, LoRa, etc., after which transmits the coordinates, names and signal strength of direction finding stations via a SIM chip, transceiver and antenna through any network in which it can log in. Based on the functionality of the SIM chip, the transmitted data includes its authorization data, a unique identifier for the IMEI tag, names of direction-finding signal sources, their azimuths relative to the tag and the power of the registered signals from them. The radio environment signals are recorded according to a predetermined schedule or by command from motion sensors (i.e., in the case of moving an object marked with a tag). Data transmission is carried out according to a schedule or in the case of a change in the position of the label (radio environment - electromagnetic fingerprint), with the transceiver pre-turned on and turned off immediately after the transfer is completed, in order to save electricity.

The difference between the proposed solution and the known ones is that when determining the coordinates, not only the network in which the signal is transmitted is used, but also other networks of the same or another standard. In addition, the device itself does not calculate coordinates, but only determines the initial data necessary for this. The calculation of the position of the label is carried out by means of the dispatch center based on the data received from the label.

Among the additional advantages of the claimed solution should be attributed the ability to determine the position in a passive way (i.e., only upon admission), and rarely according to the schedule or upon the fact of a significant event - movement. Information about the position of the mark is transmitted even less frequently - either according to the schedule or upon the fact of moving. Moreover, since no calculations are performed in the label itself, but only a raw data array is detected and transmitted, the label has an extremely low power consumption. The duration of the autonomous operation of the label is also increased by means of a non-contact and non-destructive means of energy removal through an induction coil covering the wire of the internal electrical network of the marked object, or by direct connection to this network.

Claims (6)

1. An identification mark made in the form of a flat base with a power source, a SIM chip, a transceiver and a transceiver antenna mounted on it and connected to one another, while the transceiver is configured to determine the power of artificial electromagnetic radiation (EMR) sources and subsequent transmission information generated by a SIM chip configured to transmit authorization data, an IMEI tag identifier, names of direction-finding sources of EMR, their azimuths relative to the tag and my the registered signals from them. 2. The label according to claim 1, in which one of the surfaces of the base is made of adhesive and / or magnetic. 3. The label according to claim 1 or 2, further comprising means for recharging the power source in the form of an inductor. 4. The label according to claim 1 or 2, in which the antenna is made of several elements with electronic switching. 5. The label according to claim 1 or 2, made with the possibility of connecting to an external sensor that detects movement. 6. The label according to claim 1 or 2, in which the transceiver is configured to connect to an additional external antenna.