TWM576257U - Mobile organism detection system - Google Patents

Abstract

A mobile biometric detection system includes: at least one monitoring device and at least one mobile radar device capable of sensing a harmful biological invasion in a detection space, and transmitting wirelessly The communication system transmits a hazard signal to the monitoring device; in addition, the mobile radar device can sense the moving position of the harmful organism in the detecting space, and output a scare signal to deter The hazard organism that detects the space.

Description

Mobile biometric detection system

This creation is about a technique for detecting the state of a living organism in a space, and in particular, a mobile biological detection system.

The hazards of rats have long been recorded, such as the early plague mania caused a large number of human deaths, and now the plague is controlled by the development of medical technology, but the mice also exist in our living environment, causing many hazards, such as stealing food in the warehouse. Damage to crops, catering service industry defaces food and tableware, etc., and even more, such as biting wires and computer cables in the building, short-circuiting of wires can cause fires, and short-circuiting of computer cables will affect utilization information. People who spread.

Plus the mouse is agile and small, it can be hidden in the cargo box to be transported, flowing everywhere, so it is impossible to prevent.

It can be seen from the above that how to detect the mouse has been invaded and deal with it early, especially for the storage area or the building environment, which will be the goal pursued by those skilled in the art.

In view of the above-mentioned shortcomings of the prior art, the present invention proposes a mobile biological detection system for detecting a harmful organism for detecting a space.

Another object of the present invention is to provide a mobile biometric detection system that sends a warning to notify the monitoring personnel of an immediate treatment when a harmful organism is detected.

A further object of the present invention is to provide a mobile biometric detection system that provides an electronic device that is easy to move or set to detect an intrusion of a living body or a multi-detection space that simultaneously carries out a harmful biological invasion. Measurement processing, especially storage areas or building buildings where several cargo items are stacked.

To achieve the above and other objects, the present invention provides a mobile biometric detection system including: a monitoring device; and a mobile radar device disposed in a detection space, the mobile radar The device includes: a mobile base; a signal processor disposed on the mobile base; a wireless transmission module configured to wirelessly transmit the signal processor to the monitoring device by wireless; a transmitting module, And being disposed on the mobile base and controlled by the signal processor to output an oscillation signal; a transmitting antenna is disposed on the mobile base for transmitting the oscillation signal to the detection space; and a receiving antenna Provided on the mobile base for receiving a reflected signal reflected by the oscillating signal in the detecting space; a receiving module is disposed on the mobile base and controlled and received by the signal processor The reflected signal is used to determine whether there is a living body entering the detection space, wherein the signal processor transmits through the wireless transmission module after determining that the detection space has a biological body entering An alarm signal to the monitoring device.

Preferably, in the mobile biometric detection system, the signal processor causes the transmitting module to output a physiological signal when the receiving module determines that the detecting space has a living body according to the reflected signal. Detecting a signal, and transmitting, by the transmitting antenna, the physiological signal detecting signal to the detecting space, wherein the receiving antenna receives the physiological signal detecting signal reflected by the living body, and the receiving module receives and analyzes the reflected signal The physiological signal detecting signal is used to determine the physiological signal value of the living body. When the signal processor determines that the living body belongs to a harmful organism according to the physiological signal value, the signal processor transmits the wireless signal. The transmission module transmits a hazard signal to the monitoring device.

Preferably, in the mobile biometric detection system, when the receiving module determines that the living body belongs to a hazardous organism according to the reflected physiological signal detecting signal, the signal processor enables the transmitting The module outputs a startle signal, and the terrestrial signal is transmitted by the transmitting antenna to the detection space to deter the harmful organism in the detection space. The startle signal is a high and low switching audio signal, so that the harmful organism in the detection space stops moving due to fright.

Preferably, in the mobile biometric detection system, when the receiving module determines that the living body belongs to a hazardous organism according to the reflected physiological signal detecting signal, the signal processor enables the transmitting The module outputs a displacement detecting signal, and the transmitting antenna transmits the displacement detecting signal to the detecting space, so that the receiving antenna receives the displacement detecting signal reflected by the living body, and the receiving module receives the The reflected displacement detection signal is analyzed to determine the position information of the living body in the detection space, and the signal processor transmits the position information to the monitoring device through the wireless transmission module.

Preferably, in the mobile biometric detection system, the monitoring device is a smart phone, and the smart phone sends an alarm when receiving the warning signal transmitted by the signal processor through the wireless transmission module. Signal to inform the monitoring staff.

Preferably, in the mobile biometric detection system, the mobile base is a box structure, and the signal processor, the wireless transmission module, the transmitting module, the transmitting antenna, the receiving antenna, and the receiving module are disposed in a On the substrate, the substrate is housed in the box structure. In addition, in another embodiment, the substrate may also be locked on the moving base.

Preferably, in the mobile biometric detection system, the mobile base is provided with a roller to conveniently move the mobile base in the detection space. In addition, in another embodiment, the mobile base is provided with a handle to facilitate manual movement of the mobile base in the detection space.

Compared with the prior art, the mobile biometric detection system proposed by the present invention determines that the living body belongs to a harmful organism according to the reflected physiological signal detection signal, and the signal processor The transmitting module outputs a startle signal, and the terrifying signal is transmitted to the detecting space by the transmitting antenna, and the harmful organism in the detecting space stops moving due to fright, which is convenient The reflection signal of the capture and the second analysis is not distorted by the state signal of the living body in the detection space obtained by the "Self-Injection-Locked (SIL)" technique.

The following content will be described in conjunction with the drawings, and the technical contents of the present invention will be described by a specific embodiment. Those skilled in the art can easily understand other advantages and effects of the present invention by the contents disclosed in the present specification. This creation can also be implemented or applied by other different embodiments. The details of the present specification can also be modified and changed without departing from the spirit of the present invention. In particular, the proportional relationship and relative position of the various elements in the drawings are for exemplary purposes only and are not representative of actual implementation of the present invention.

Please refer to FIG. 1 , which is a schematic diagram of the system architecture of the mobile biometric detection system. As shown, the mobile biometric detection system includes at least one mobile radar device 1 and at least one monitoring device 2. The at least one mobile radar device 1 is configured to be disposed in a detection space to detect whether the detection space has a biological invasion, such as a storage area such as a room or a container house, or a high-rise building. In the independent room, the monitoring device 2 is an electronic device such as a smart phone or a computer. The monitoring device 2 can communicate with the mobile radar device 1 disposed in the detection space through the wireless communication system 6, so that the monitoring device 2 can be controlled or The signal transmitted by the mobile radar device 1 is received.

The at least one mobile radar device 1 includes a signal processor 12, a wireless transmission module 13, a transmitting module 14, a transmitting antenna 15, a receiving antenna 16, and a receiving module 17. The signal processor 12 is a control core of the at least one mobile radar device 1 for controlling the transmitting module 14 and the receiving module 17 and controlling the wireless transmission module 13 to pass through the wireless communication system 6 and the monitoring device 2 Data transfer.

Please refer to FIG. 1 together for explaining an appearance embodiment of the mobile radar device 1 of the present mobile biological detection system. The mobile radar device 1 further includes a mobile base 3 for setting the signal processor 12, the wireless transmission module 13, the transmitting module 14, the transmitting antenna 15, the receiving antenna 16, and the receiving module 17, as shown in FIG. In the illustrated embodiment, the mobile base 3 is a box structure 30 having a roller 31. The box structure 30 is composed of two openable cover 300s. One side of the box structure 30 is set. The shaft side (not shown) is convenient for opening and closing the two shell covers 300, and the opening side corresponding to the shaft joint side is provided with a pair of latches 301 so that the openings of the two shell covers 300 can be firmly closed, 2, the signal processor 12, the wireless transmission module 13, the transmitting module 14, the transmitting antenna 15, the receiving antenna 16, and the receiving module 17 can be disposed on a substrate (for example, a printed circuit board, which is not illustrated herein). And shown in the box structure 30. The user can move or move the mobile radar device 1 by the handle (32 or 33) on the box structure 30, and the roller 31 on the box structure 30 can perform movement or movement with labor saving. operating.

With the appearance structure design of FIG. 2 above, the user can easily desire the area with the detection demand, especially the storage area or the building area such as the building building where a large amount of goods are stacked. The above-described mobile radar device 1 is disposed in the detected space.

Furthermore, the external structure of the mobile radar device 1 is not limited to the above embodiment of FIG. 2. As shown in FIG. 3, the mobile base 3' in this embodiment is an L-shaped frame 34 having a roller. In the above embodiment of FIG. 2, the mobile radar device 1' formed by the signal processor 12, the wireless transmission module 13, the transmitting module 14, the transmitting antenna 15, the receiving antenna 16, and the receiving module 17 is in the form of a substrate 4. The L-shaped frame 34 is fixed to the L-shaped frame 34. The L-shaped frame 34 is also provided with a power supply battery 41 for supplying power to the mobile electrical device 1' via the power supply line 42. The user can move or move the mobile radar device 1' by the handle 32' on the L-shaped frame 34.

It can be seen from the mobile radar device shown in FIG. 2 and FIG. 3 that the movable radar device 1 or 1 ′ can be conveniently moved or disposed in a detection space by moving the base 3 ′ or 3 , and The movement base 3' or 3 is further provided with a handle 32 or 33 and a roller 31, which makes it easier to move the mobile radar device 1 or 1' for setting.

It should be noted that the mobile base of the mobile radar device 1 in the present mobile biological detection system is not limited to the above-mentioned external structure of FIG. 2 and FIG. 3, and may not have a roller or a handle, that is, a rear view. Depending on the implementation.

Referring back to FIG. 1 , the wireless transmission module 13 of the mobile radar device 1 is configured to wirelessly transmit the signal processor 12 to the monitoring device 2 via the wireless communication system 6 . The transmitting module 14 is controlled by the signal processor 12, and the signal processor 12 causes the transmitting module 14 to output an oscillating signal, and the transmitting antenna 15 transmits the oscillating signal to the detecting space; The receiving antenna 16 is configured to receive the reflected signal that is reflected by the oscillating signal in the detecting space, and the reflected signal is generally the detecting space partition or when no living body invades the detecting space. The signal reflected by the static cargo in the detection space. The receiving module 17 controlled by the signal processor 13 receives and analyzes the reflected signal received by the receiving antenna 16 to determine whether the detecting space has a living body, wherein the detecting is determined. The signal processor 12 transmits a warning signal to the monitoring device 2 through the wireless transmission module 13 to notify the monitoring personnel of the monitoring device 2 located elsewhere to immediately process the intrusion detection space. The organism.

Furthermore, the signal processor 12 of the mobile radar device 1 can perform further analysis on the organism invading the detection space, that is, further analyzing whether the organism is a harmful organism, such as a mouse, at the receiving The module 17 determines, according to the reflected signal, that the detection space has a biological object, the signal processor 12 causes the transmitting module 14 to output a physiological signal detection signal, and the physiological signal is detected by the transmitting antenna 15 The signal is transmitted to the detection space, and the receiving antenna 16 receives the physiological signal detecting signal reflected by the living body, and the receiving module 17 receives and analyzes the reflected physiological signal detecting signal to determine the living body. The physiological signal value is used by the signal processor 12 to determine that the living body belongs to a hazardous organism according to the physiological signal value, and the signal processor 12 transmits the wireless communication system 6 through the wireless communication system A hazard signal is given to the monitoring device 2. Specifically, in the embodiment, the physiological signal is, for example, a heartbeat, and the detection range of the heart rate of the small rodent is 250 to 780 times/minute. Therefore, when the signal processor 12 is according to the receiving module 17 When the received physiological signal value is judged to fall within the above-mentioned range of 250 to 780 times/minute, the organism indicating the intrusion detection space belongs to a harmful small rodent.

In addition, the signal processor 12 of the mobile radar device 1 can perform further analysis on the hazardous organism, that is, further analyze the displacement information of the living body in the detection space, and the receiving module 17 according to the When the reflected physiological signal detecting signal determines that the living body belongs to a hazardous organism, the signal processor 12 causes the transmitting module 14 to output a displacement detecting signal, and the transmitting antenna 15 detects the displacement. The signal is transmitted to the detection space, and the receiving antenna 16 receives the displacement detecting signal reflected by the living body, and the receiving module 17 receives and analyzes the reflected displacement detecting signal to determine that the living body is in the The location information in the space is detected, and then the signal processor 12 transmits the location information to the monitoring device 2 through the wireless transmission module 13. If the monitoring device 2 is a smart phone, the smart phone can display The location of the hazardous organism in the detection space for the surveillance personnel to capture, especially when the detection space is a space for stacking many goods and debris, the monitoring personnel Can quickly and efficiently find the stash with the dangers of the organism, thereby immediate early to avoid the hazards of the organism occurs resulting in the loss of goods in storage or environmental hazard within the detection space.

The receiving module 17 and the signal processor 12 use the "Self-Injection-Locked (SIL)" technology to detect the reflected signal received by the receiving antenna 16 to detect the biological body in the detection. The condition of the space, such as heartbeat, breathing, body temperature or displacement information. Since the frequency of the received reflected signal is affected by the displacement of the living body and the Doppler effect is generated, the self-injection locking signal contains the Doppler component caused by the displacement of the living body. Therefore, the self is theoretically applied. The displacement signal obtained by the injection locking technique can obtain the displacement information of the living body. However, due to the self-injection locking property, when the displacement amplitude of the living body exceeds a certain operating signal wavelength, the output waveform will be distorted. The frequency information cannot be accurately determined. To solve this problem, it is necessary to avoid rapid movement of the living body. Therefore, the receiving module 17 determines that the living body belongs to a harmful organism according to the reflected physiological signal detecting signal. The signal processor 12 causes the transmitting module 14 to output a startle signal, and the terrestrial signal is transmitted by the transmitting antenna 15 to the detecting space to deter the harmful creature in the detecting space. Body, because the above-mentioned startle signal is a high and low switching audio signal, so that the harmful organism in the detection space is frightened Stop moving, to facilitate a capture, two signals to enable determination of the analysis is not distorted.

Next, please refer to FIG. 4 , which is an embodiment of the active mobile biometric detection system applied to multiple detection spaces 50 for biological invasion. As shown in the figure, the detection spaces 50 may be, for example, multiple. The mobile radar device 1 is disposed in each of the detection spaces 50, and the mobile radar device 1 senses the mobile radar device 1 through the wireless communication system 6 and the plurality of container houses or the plurality of large cabinets. The result is transmitted to the monitoring device 2 elsewhere to achieve an efficient and convenient storage or safety management of the building.

In summary, the creation of the mobile biometric detection system is simple and convenient for the user to install, especially for the detection needs in multiple different spaces, so that the condition in the space to be detected can be effectively monitored and effectively found. Harmful organisms invade and early preventive treatment.

The above embodiments are merely illustrative of the principles and effects of the present invention and are not intended to limit the present invention. Any person skilled in the art can modify and change the above embodiments without departing from the spirit and scope of the present invention. Therefore, the scope of protection of this creation should be as listed in the scope of application for this creation.

1,1'‧‧‧Mobile radar installation

12‧‧‧ Signal Processor

13‧‧‧Wireless transmission module

14‧‧‧Transmission module

15‧‧‧transmit antenna

16‧‧‧ receiving antenna

17‧‧‧ receiving module

2‧‧‧Monitor

3,3'‧‧‧Mobile base

30‧‧‧Box structure

300‧‧‧Shell cover

301‧‧‧Lock

31‧‧‧Roller

32,33‧‧‧Handles

34‧‧‧L-frame

4‧‧‧Substrate

40‧‧‧Fixed parts

41‧‧‧Power battery

42‧‧‧Power cord

50‧‧‧Detection space

6‧‧‧Wireless communication system

FIG. 1 is a schematic diagram of a system architecture of the mobile biometric detection system of the present invention.

2 is an appearance embodiment of a mobile radar device for creating a mobile biometric detection system.

FIG. 3 is another appearance embodiment of the mobile radar device of the present mobile biometric detection system.

FIG. 4 is an embodiment of the present invention for applying a mobile biometric detection system to multiple detection spaces for biological invasion.

Claims (10)

A mobile biometric detection system includes: a monitoring device; and a mobile radar device disposed in a detection space, comprising: a mobile base; a signal processor disposed on the mobile base a wireless transmission module for wirelessly transmitting the signal processor to the monitoring device via a wireless device; a transmitting module disposed on the mobile base and controlled by the signal processor to output an oscillating signal a transmitting antenna is disposed on the mobile base for transmitting the oscillation signal to the detection space; a receiving antenna is disposed on the mobile base for receiving the oscillation signal in the detection space a reflected signal; a receiving module disposed on the mobile base, controlled by the signal processor to receive and analyze the reflected signal to determine whether the detecting space has a biological body entering, wherein When it is determined that the detection space has a biological body, the signal processor transmits a warning signal to the monitoring device through the wireless transmission module. The mobile biometric detection system of claim 1, wherein the receiving module outputs the transmitting module when the receiving module determines that the detecting space has a living body according to the reflected signal. a physiological signal detecting signal, wherein the physiological signal detecting signal is transmitted by the transmitting antenna to the detecting space, so that the receiving antenna receives the physiological signal detecting signal reflected by the living body, and the receiving module receives the signal A physiological signal detection signal of the reflection is analyzed to determine a physiological signal value of the living body, and the signal processor is determined by the signal processor to determine that the biological body belongs to a hazardous organism according to the physiological signal value. A hazard signal is transmitted to the monitoring device through the wireless transmission module. The mobile biological detection system of claim 2, wherein the receiving module determines that the living body belongs to a hazardous organism according to the reflected physiological signal detecting signal; The processor causes the transmitting module to output a startle signal, and the transmitting antenna transmits the startling signal to the detecting space to deter the harmful organism in the detecting space. The mobile biometric detection system of claim 3, wherein the startling signal is a high and low switching audio signal, so that the harmful organism in the detection space stops moving due to fright. The mobile biological detection system of claim 1, wherein the receiving module determines that the living body belongs to a hazardous organism according to the reflected physiological signal detecting signal; The processor causes the transmitting module to output a displacement detecting signal, and the transmitting antenna transmits the displacement detecting signal to the detecting space, so that the receiving antenna receives the displacement detecting signal reflected by the living body, The receiving module receives and analyzes the reflected displacement detecting signal to determine the position information of the living body in the detecting space, and the signal processor transmits the position information to the monitoring device through the wireless transmission module . The mobile biometric detection system of claim 1, 2, 3, 4 or 5, wherein the monitoring device is a smart phone, and the smart phone receives the wireless signal transmitted by the smart phone. When the warning signal from the module is sent, an alarm signal will be sent to inform the monitoring personnel. The mobile biometric detection system of claim 1, wherein the signal processor, the wireless transmission module, the transmitting module, the transmitting antenna, the receiving antenna, and the receiving module are disposed on a substrate, the substrate Locked on the mobile base. The mobile biometric detection system of claim 1, wherein the mobile base is a box structure, the signal processor, the wireless transmission module, the transmitting module, the transmitting antenna, the receiving antenna, and the receiving The module is disposed on a substrate, and the substrate is received in the box structure. The mobile biometric detection system of claim 1, 2, 3, 4, 5, 7 or 8 wherein the mobile base is provided with a roller for conveniently moving in the detection space. Move the base. The mobile biometric detection system of claim 1, 2, 3, 4, 5, 7 or 8 wherein the mobile base is provided with a handle for facilitating manual movement in the detection space. Move the base.