CZ2014548A3 - Device and system for detecting radio signal - Google Patents

Abstract

BACKGROUND OF THE INVENTION The present invention relates to a radio signal detection system for evaluating radio signal strength for detecting an intruder in a guarded area. The radio signal detection system comprises at least two detectors (1) each of which is a separate module comprising at least one communication unit (11) providing a radio signal flow, the intensity of which is evaluated by an integrated software component (111) of intensity measurement and adapted to transform data and communicating with the data information and the at least one hardware control unit (12) provided with an integrated software component (121) for analyzing and evaluating data information. In a variant, it may comprise at least one measuring unit (14) provided with at least one position detecting sensor (141), at least one impact sensor (142), at least one temperature sensor (143) and at least one acoustic sensor (144) for sound detection.

Description

Q.o; í / _ 5 ^ 2 Radio signal detection device and system

Field of technology

The invention relates to a device and system for detecting a radio signal for measuring, evaluating and analyzing the intensity of a radio signal for the purpose of early detection of an intruder in a guarded area.

Prior art

From the current state, various types of fencing combined with electronic elements of intrusion signaling are used for the protection of areas. The fencing is mainly formed by a supporting structure, eg columns, which carry fillings, such as mesh, which also carry electronic sensors and guards, which create a protective field. In the event of a breach of the protective field, an alarm is triggered. A solution according to utility model CZ2800 is known, the essence of which is that the perimeter fencing consists of at least one row, between which the rows are arranged between the rows, where each row has a sensor cable attached to the mesh attached to the mesh. A significant disadvantage of this solution is the need to encircle the guarded area with tension rods and pipes for storing the sensor cable, as well as the high cost of professional cabling installation. A significant disadvantage is also the interruption of the detection zone at the points of entry into the guarded object. Another significant disadvantage of this solution is the fact that the detection cable does not have a long life due to the action of UV radiation from the sun on this cable and must be replaced after about 10-15 years due to its reduced sensitivity. The disadvantage of this solution is the fact that the detection cable functions as an unwanted antenna during its length. During thunderstorms and atmospheric discharges, this carries a very high risk of inducing atmospheric energy into this cable, which results in the destruction of the control units directly connected to this cable. The disadvantage of the solution is also a very difficult repair of the system in case of intentional sabotage by cutting the detection cable.

Furthermore, methods are known for guarding the area using special sensitive cables laid in the ground around the fence, which detect intruders on the principle of pressure, vibration and inductive or magnetic changes. The disadvantage of this method of guarding the area is one large cost of preparatory work and storage work

-2 cabling and very high cost of the technology itself. Another disadvantage is the difficulty of overcoming territorial obstacles, such as roads, where the protection zone must be interrupted. This solution does not have 100% detection of the intruder, if the intruder comes through the detection zone after a frozen layer of ice and frozen soil under the ice. Again, the disadvantage of this solution is a very difficult repair of the system in case of unintentional interruption of the cable during earthworks taking place on the same plot.

It is also known to guard the area using sensors for the microwave barrier, where the sensors detect interruptions of the microwave wave. The disadvantages of this solution are the requirements for both technical shielding of the wave path so as not to interrupt them, as well as the requirements that between the transmitting and receiving side are not near a flat surface reflecting microwave energy in their direction of propagation (such as very smooth concrete surfaces, water surface etc..). A significant disadvantage is also the high financial demands on the technology and its installation. This solution is completely unsuitable for guarding a perimeter that is very rugged in height and often.

Furthermore, a solution is known for the use of infrared barriers, the disadvantages of which lie in the technical shielding of infrared beams and ensuring a flat surface without obstacles between individual sensors, and again in high financial demands for the installation of technology. Another disadvantage is the high demands on the need to keep the optical system of the infrared barrier in a clean state. A significant disadvantage of this solution are false alarms caused by the very principle of the technology and the inability to correctly detect IR rays from the transmitting side of the infra-barrier in the event that high-intensity sunbeams fall directly into the receiver's optical system. This solution is completely unsuitable for guarding the perimeter, which is very often segmented in height.

Furthermore, a solution according to the application of the invention No. 2010-821 is known, the essence of which is a method of protection of the monitored area by means of RFID acceleration detectors so that at defined moments the hardware control unit activates the integrated vibration exciter. This integrated vibration driver processes the response of the accelerometer, thereby checking the function of the accelerometer and actively autocalibrating the RFID accelerator detector. With this method of perimeter protection using RFID acceleration detectors, there is a gradual synchronous transmission of data in a circle with the possibility of ignoring and reporting a possible RFID acceleration detector in failure and in case of intrusion or sabotage detection with the possibility of accelerating the transmission of information places with detection of intrusion or sabotage. The disadvantage of this solution is that the intruder must get into the direct

-3contact with the fence element in such a way that the fence element must come into proper movement by this contact in order to activate the alarm system.

The essence of the invention

These disadvantages are eliminated by the device and system for detecting a radio signal according to the invention, the essence of which consists in consisting of at least two detectors, each detector being a separate module comprising at least one communication unit providing a radio signal flow, where the received radio signal intensity is evaluated by the integrated intensity measurement software component. The communication unit is also adapted for data transformation and communication with data information. Furthermore, the detector comprises at least one hardware control unit, which is provided with an integrated software component for the analysis and evaluation of data information.

It is suitable that the communication unit and the hardware control unit are arranged together in a compact unit. In a variant embodiment, the communication unit and the hardware control unit can be arranged as separate elements.

Preferably, the communication unit is provided with an external and / or internal omnidirectional antenna for receiving and transmitting the coded radio signal.

It is also expedient for the hardware control unit of the at least one detector to be connected to an external computer technology which is provided with a compatible data information receiver, the transmission of the data information being ensured by a communication unit. External computing technology may take the form of a dedicated device, personal computer, tablet, smartphone or other device capable of this purpose. In a preferred embodiment, the interconnection is wireless

Furthermore, it is expedient for the hardware control unit of the at least one detector to be connected to a monitoring technology which is provided with a compatible data information receiver, the transmission of the data information being ensured by a communication unit. The monitoring technology can advantageously be industrial cameras or other surveillance systems. In a preferred embodiment, the interconnection is wireless.

Suitably, each detector comprises at least one measuring unit provided with at least one position sensor for detecting the position and / or with at least one acceleration sensor for detecting the shock and / or with at least one thermal sensor.

- a temperature sensor and / or at least one acoustic sound sensor.

It is also suitable for the measuring unit to be further provided with at least one test element for determining the current state of the sensors for checking the sensors and for self-checking the detection module.

It is expedient for the detector to contain its own voltage source and / or to be provided with its own solar panel for obtaining energy.

A significant advantage of the device according to the present solution is that it allows the monitoring of a designated space, which is defined by the mutual distance between two detectors, which are wirelessly interconnected. In the event of an increase or decrease in radio signal intensity outside the specified range and evaluation and analysis of changes in this radio signal intensity between detectors, only passive presence of an intruder in the monitored area can be detected without contact of the intruder or any person or animal entering the monitored area with fence panel.

Advantageously, the radio signal detection device and system can be used to monitor the perimeter, where the detectors are located on individual parts of the fence. A variant solution for the location of detectors is on the roof of the monitored object or on the walls of buildings, but also placed directly on the ground.

An indisputable advantage of the device and system for detecting the radio signal, its flexible use.

An indispensable advantage is a completely accurate and targeted monitoring of the designated area with the possibility of regulating the time interval of radio signal transmission

Other advantages of the device and system for detecting a radio signal can be seen in the simplicity of the construction and in the variability of its use for a wide range of types of fencing.

Overview of pictures in the drawing

Fig. 1 schematically shows a detector.

Figure 2 shows the flow of the radio signal and the flow of data information between the individual detectors of the described device.

-5 Example of an embodiment of the invention

An exemplary embodiment of a device and system for detecting a radio signal is realized in such a way that it comprises an assembly of two detectors 12 and 11, each of which represents a separate module. Each detector 1 ¹ and 1 ² of the system comprises at least one communication unit 11 for flow of a radio signal whose intensity is evaluated by the integrated software components 111 intensity measurements. The communication unit 11 is preferably a radio module for two-way radio frequency transmission. This communication unit 11 is also adapted for data transformation and communication with data information. The detector 1 ¹ and 1 ² of the system further comprises at least one hardware control unit 12, which is formed by a commercially available microprocessor. The hardware control unit 12 is provided with an integrated software component 121 for analyzing and evaluating data information. In a preferred embodiment, the communication unit 11 and the hardware control unit 12 are arranged in a compact unit. In a variant embodiment, the communication unit 11 and the hardware control unit 12 can be arranged as separate elements. To ensure the flow of the radio signal, the communication unit 11 comprises an external and / or internal omnidirectional (or directional) antenna 13 for receiving and transmitting the coded radio signal. The internal antenna is preferably a chip antenna or it is an antenna in the form of a motif on a printed circuit board. The external antenna is preferably represented by an antenna radiator.

In a preferred embodiment, the communication unit 11, at least one detector 1 ^1/2 or 1 system configured for communication with the receiver 21 data information computing 2nd Computer Technology 2 is preferably in the form of imaging and / or communication elements (personal computer, smart phone etc.) with connection to common means of information technology, eg security signaling technology.

In a preferred embodiment, the communication unit 11, at least one detector 1 ¹ and / or ² of the system 1 further communicates with the receiver 31 of the data information monitoring devices 3. The monitoring technique 3 is preferably a camera system and / or tracking system.

In a preferred embodiment of the device according to the above, each individual detector 11 and 11 of the system comprises at least one measuring unit 14, which is provided with at least one position sensor 141 for detecting the position and / or

- at least one acceleration sensor 142 for detecting the shock and / or at least one thermal sensor 143 for detecting the temperature and / or at least one acoustic sensor 144 for detecting the sound. Further, the measuring unit 14 of the detector 1 ¹ and 1 ² of the system comprises at least one test element 145 for detecting the current state of the sensors, sensors for the control and self-monitoring of the detection module. In a preferred embodiment, each detector 1 and 1? The system contains its own voltage source 15 and / or its own solar panel for obtaining energy.

Detectors 1 ¹ and 1 ^{2 of the} system of equipment and the system for detecting the radio signal are attached to the fence of the monitored area. Most often this fence is a fence consisting of fence elements, but also the roof or wall of the building, etc.

The communication unit 11 1 ¹ detector system at regular predetermined intervals transmits a radio signal. The communication unit 11 of the detector 1 ^{2 of the} system receives the radio signal, and the intensity of the radio signal is measured by means of the intensity measuring software component 111. This value of the radio signal strength is transformed into a data format by the communication unit 11 and transmitted to the hardware control unit 12. The communication data transmission is realized in a standard way by means of a data bus.

The hardware control unit 12 of the detector ² of the system 1 by means of software components 121 and analyzing the evaluation data information analyzing received data and evaluates the status of their size. If the current size of the data in a defined permissible range that is operably determined the hardware control unit 12 of the detector ² of the system 1, the situation is evaluated as a standard. The received value by the magnitude of the intensity of the received radio signal is stored in the memory of the hardware control unit 12 of the detector 1 ^{2 of the} system for future determination of the defined allowed range of the radio signal. If the received current intensity of the radio signal is not within the defined allowed range, this situation is evaluated as an alarm.

The hardware control unit 12 of the system detector 1 ² sends information to the communication unit 11 and it transmits an alarm message transformed into the required format to a compatible computer data information receiver 21, which indicates the alarm message in a standard manner. At the same time, the communication unit 11 transmits the alarm message transformed into the desired format to the compatible data information receiver 31 of the monitoring technology 3.

-7- · .. ·· .. ·.:. :

A compatible receiver 21 and 31 of data information is a communication interface, enabling work with data information on common information technology means.

Monitoring technique 3, most often an industrial camera, is rotated to the places from which the alarm message was sent and the acquired image is transmitted to computer technology 2, where the image is most often displayed on a personal computer, laptop or mobile phone monitor.

Computer technology 2 evaluates the alarm message in accordance with the specified procedure.

In a variant embodiment, the reverse flow of the radio signal can be set, where after receiving the radio signal by the communication unit 11 of the detector 12, this communication unit 11 of the detector ¹² transmits a radio signal to the communication unit 11 of the detector 12, which receives this signal. measured radio signal strength. The intensity value of the radio signal, the communication unit 11 of the detector 1 ¹ is transformed into a data format and transmitted to the hardware control unit 12 of the detector t. The hardware control unit 12 of the detector uses a software component 121 for analyzing and evaluating data information, analyzes the received data and evaluates its size. This reverse flow of the radio signal is a basic reception control.

An exemplary embodiment of the detection device and system is a system comprising a number of detectors 1 to 1. The communication unit 11 of the system detector transmits a radio signal at regular predetermined intervals. This radio signal is received by the communication unit 11 of the detector ² of the system 1 is also received by the communication unit 11 of the detector 12-1 ^N system. The communication units H of the detectors 12 of the ¹ to 1 ^N system receive the radio signal, and the intensity of the radio signal is measured by means of the software component 111 measuring the intensity of the individual communication units 11 of the detectors 12 to 12 of the system. The intensity value of the radio signal, the communication unit 11 of the detectors 12 to 12 the system is transformed into a data format and forwarded to the relevant hardware control unit 12 of the individual detectors 1 ^{2-1 N} system. The hardware control unit 12 of the detectors 12 to 12 of the system uses the software component 121 analysis and evaluation of data information analyzes the received data and evaluates their current value and according to this size the situation is evaluated as standard or alarm by comparison according to defined parameters, another process is identical mentioned.

The communication unit 11 of the detector 11 transmits a radio signal to the communication unit 11 of the detector ¹³ to the system at regular predetermined intervals and at the same time in a preferred embodiment transmits a return radio signal to the communication unit 11 of the detector acknowledgment. Subsequently, the communication unit 11 of the detector system 12 at regular predetermined intervals transmits a radio signal to the communication unit 11 of the detector 1 ^4-1-system and also preferably a reverse radio signal being transmitted to a communication detectors 11 1 ^{2-1 1} system to confirm receipt.

The communication unit 11 of each detector 11 of the ¹ to 1 ^N system changes the intensity of the radio signal both in the basic direction and, in a preferred embodiment, also in the reverse direction of the radio flow by means of the software component 111 measuring the intensity. The value of the radio signal intensity is transformed into a data format by the communication unit 11 of the individual detectors 1 ¹ to 1 ^{N of the} system and transmitted to the hardware control unit 12 of the detectors 1 ¹ to 1 ^{N of the} system. The hardware control unit 12 of the detectors 1 ¹ to 1 ^{N of the} system analyzes the received data and evaluates its current size by means of the software component 131 of analysis and evaluation of data information. If this size is within the defined allowable range, which is operatively determined by the hardware control unit 12 of the detectors 1 ¹ to 1 ^{N of the} system, this situation is evaluated as standard. The received state amount of the received radio signal intensity is stored in the memory of the hardware control unit 12 of the detectors 1 ¹ to 1 ^{N of the} system for future determination of the defined allowed range of the radio signal. If the received state value of the radio signal intensity is not within the defined allowed range, this situation is evaluated as an alarm next, the process is identical to the above.

This principle of transmitting and receiving a radio signal in the basic direction always to all and / or only some predetermined, subsequent communication units 11 of the individual detectors 1 ¹ to 1 ^{N of the} system in a row and also in a preferred embodiment feedback to all individual and / or only some to the designated, previous communication units 11 detectors 1 ^N to 1 ^{1 of the} system ensures on the one hand the maximum securing of the radio signal flow and also eliminates failures or malfunctions of a certain system detector in a row without securing the radio signal flow and thus securing the monitored space.

In the event of contact of the intruder with the fence panel, shocks, vibrations or other mechanical influences occur, which are sensed by means of a measuring unit 14 provided with a position sensor 141 for position detection and / or an acceleration sensor 142 for shock and / or a thermal sensor 143. for detecting the temperature and / or the acoustic sensor 144 for detecting the sound. The measuring unit 14 of each detector 11 of the ¹ to 1 ^N system comprises at least one test element 145 for determining the current state of the sensors, for checking the sensors and for self-checking the detection module. In a preferred embodiment, the detector 11 of the ¹ to 1 ^N system comprises its own power supply 15 and / or a solar panel.

Industrial applicability

The device and system for detecting the radio signal enables the guarding of a designated area, most often fenced with the help of a system of detectors, which in the case of fencing are placed on the mesh. Installation of equipment and system for radio signal detection is very easy and fast, maintenance requirements are minimal. The device and system for detecting the radio signal is suitable for all types of fences and gates, it is possible to set them on roofs, the building itself, on the land, etc. wherever it is necessary to protect the defined space.

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LIST OF REFERENCE SIGNS

- detector

- communication unit

111- intensity measurement software component

- hardware control unit

121 - software component of data information analysis and evaluation

13- omnidirectional antenna

14- measuring unit

141 - position sensor

142 - acceleration sensor

143- heat sensor

144- acoustic sensor

145 - test element

- power supply / solar panel

- computing

- compatible data receiver

- monitoring technology

- compatible data receiver

Claims (13)

PATENT CLAIMS Device and system for detecting a radio signal, characterized in that it comprises at least two detectors (1), each of which represents a separate module comprising at least one communication unit (11) providing a radio signal flow, the intensity of which is evaluated by an integrated software component (111). ) intensity measurement and is also adapted for data transformation and communication with data information and at least one hardware control unit (12), which is provided with an integrated software component (121) for analyzing and evaluating data information. Device and system for detecting a radio signal according to claim 1, characterized in that the communication unit (11) and the hardware control unit (12) are arranged in a compact unit. Device and system for detecting a radio signal according to claim 1, characterized in that the communication unit (11) and the hardware control unit (12) are arranged as separate separate elements. Device and system for detecting a radio signal according to claims 1 to 3, characterized in that the communication unit (11) comprises an external and / or internal omnidirectional antenna (13) for receiving and transmitting the coded radio signal Device and system for detecting a radio signal according to claims 1 to 4, characterized in that the communication unit (11) of the at least one detector (1) communicates via a compatible data information receiver (21) with computer technology (2), Device and system for detecting a radio signal according to claims 1 to 5, characterized in that the communication unit (11) of the at least one detector (1) communicates via a compatible data information receiver (31) with the monitoring technology (3), pl ·· · :: * / Λ Z · · · · · · Device and system for detecting a radio signal according to claims 1 to 6, characterized in that each detector (1) comprises at least one measuring unit (14) provided with at least one position sensor (141) for detecting the position. Device and system for detecting a radio signal according to claims 1 to 7, characterized in that each detector (1) comprises at least one measuring unit (14) provided with at least one acceleration sensor (142) for detecting the shock. Device and system for detecting a radio signal according to claims 1 to 8, characterized in that each detector (1) comprises at least one measuring unit (14) provided with at least one thermal sensor (143) for detecting the temperature. Device and system for detecting a radio signal according to claims 1 to 9, characterized in that each detector (1) comprises at least one measuring unit (14) provided and at least one acoustic sensor (144) for detecting sound. Device and system for detecting a radio signal according to one of Claims 1 to 10, characterized in that each detector (1) comprises at least one measuring unit (14) provided with at least one position sensor (141) for detecting the position, with at least one acceleration sensor. an impact sensor (142), at least one thermal temperature sensor (143) and at least one acoustic sound sensor (144). Device and system for detecting a radio signal according to claims 1 to 11, characterized in that the measuring unit (14) is provided with at least one test element (145) for detecting the current state of the sensors, for checking the sensors and for self-checking the detector. Device and system for detecting a radio signal according to claims 1 to 12, characterized in that each detector (1) comprises its own voltage source (15) and / or its own solar panel for obtaining energy.