TWM569447U - Item search system using LoRa transmission technology - Google Patents

Abstract

An item search system using LoRa transmission technology includes a gravity sensing unit, a positioning transceiver unit, a positioning gateway unit, a network service server, and a display unit. The gravity sensing unit detects the gravity change and generates a gravity sensing signal; the positioning transceiver unit connects the transceiver unit to the gravity sensing unit, transmits the positioning request signal according to the gravity sensing signal, and obtains the positioning reply signal; The gateway unit transmits a positioning reply signal according to the positioning request signal; the network service server obtains the positioning reply signal through the positioning transceiver unit, and obtains the position information according to the positioning reply signal; and the display unit, according to the location information, through the geographic information system Displays the geographic coordinate value of the location where the transceiver unit is located.

Description

Item search system using LoRa transmission technology

The novel creation is related to an item search system, and in particular to an item search system using LoRa transmission technology.

Modern people attach great importance to the safety of their own property, so all kinds of anti-theft technology continue to innovate, from the original use of anti-theft lock made of metal cable. The one end of the anti-theft lock is locked to the valuable item to be protected, and the other end is mounted on the fixing frame, and such a method is that the valuable item itself has a position where the anti-theft lock can be installed, and the fixing frame is placed at an appropriate position. This way often leads to user inconvenience in the use and movement of such valuables. Nowadays, most of the network security monitoring monitors valuables through monitors. When the original items disappear, they start from the surveillance screen to check the lost time and suspicious people, but such methods are only passive protection. Active protection is not achieved, and it is impossible to know exactly where the object is.

If the network monitors, the security personnel can instantly view the scenes captured by multiple camera devices on the network camera, and judge whether there are any events in the captured scene, but if the space is too large or the number of objects is large, in order to protect Valuables must invest a lot of human resources, and no more security personnel can monitor each object in real time, which increases the risk of theft of objects. This method only strengthens passive protection and still cannot improve the aforementioned instant search objects. position.

This new creation provides an item search system using LoRa transmission technology. The purpose is to use an item search system using long-range wide area network (Long Range, LoRa) transmission technology, efficient instant anti-theft and real-time tracking through positioning. Items, effectively reduce the waste of manpower and time, and improve the chances of stolen valuables.

The present invention creates an item search system using LoRa transmission technology, comprising: a gravity sensing unit, a positioning transceiver unit, a positioning gateway unit, a network service server, and a display unit. The gravity sensing unit detects the gravity change and generates a gravity sensing signal; the positioning transceiver unit is connected to the gravity sensing unit, and transmits a positioning request signal according to the gravity sensing signal, and obtains a positioning reply signal; the positioning gateway unit transmits the positioning reply signal according to the positioning request signal; the network service server obtains the positioning reply signal through the positioning transceiver unit, and obtains a position information according to the positioning reply signal; And displaying, according to the location information, a geographic coordinate value of a location of the positioning transceiver unit through a geographic information system.

In an embodiment of the present invention, the gravity sensing unit is disposed on an item, and detects a gravity change of the item according to a normal vector change of the item, and generates the gravity sensing signal.

In an embodiment of the present invention, the above-mentioned positioning transceiver unit applies long-distance low-power data transmission (LoRa) technology.

In an embodiment of the present invention, the data transmission rate of the positioning transceiver unit is set according to a user.

In an embodiment of the present invention, the positioning gateway unit may include a beacon gateway unit, an infinite transmission (WiFi) gateway unit or a long length through a communication network for correspondingly connecting different communication networks. The positioning reply signal is obtained from a low power data transmission (LoRa) gateway unit.

In an embodiment of the present invention, the network service server further includes a storage unit for storing the original location information of the positioning transceiver unit.

In an embodiment of the present invention, the network service server further includes a processing unit, and calculating the positioning transceiver unit according to the positioning response signal and a transmission time, a signal strength, a signal to noise ratio, and other parameters. position.

In an embodiment of the novel creation, the above display unit can It is a device with a display function such as a mobile device, a notebook computer, a tablet computer or a number of person assistants.

In an embodiment of the present invention, the display unit passes through the geographic information system and displays a moving track with a map image.

The object search system utilizing the LoRa transmission technology further includes: a gravity sensing unit disposed on an item, detecting a gravity change of the item according to a normal vector change of the item, and generating the gravity sensing signal; a positioning transceiver unit, the positioning transceiver unit is connected to the gravity sensing unit, and applies a long-distance low-power data transmission technology to transmit a positioning request signal according to the gravity sensing signal, and obtain a positioning reply signal; The gateway unit obtains the positioning reply signal through the communication network corresponding to the different connection and transmits the positioning reply signal according to the positioning request signal; and the network service server obtains the positioning reply signal through the positioning transceiver unit, Calculating and obtaining a location information according to the positioning response signal and a transmission time, a signal strength, a signal to noise ratio, and other parameters; and a display unit displaying the positioning transceiver unit through a geographic information system according to the location information The geographic coordinate value of a location.

The effect of the novel creation is that the item search system using the LoRa transmission technology, the low power wide area network (LPWAN) of the LoRa transmission technology, and the battery-powered device are deployed in the wider area network. In the past, LoRa is a technology with long transmission distance and low power consumption, efficient instant anti-theft and real-time tracking of items through positioning, reducing waste of manpower and time, and improving the chance of stolen and valuable valuables.

110‧‧‧Gravity sensing unit

120‧‧‧ Positioning transceiver unit

130‧‧‧ Positioning gateway unit

140‧‧‧Web Service Server

150‧‧‧ display unit

210‧‧‧ Positioning transceiver unit

211‧‧‧Location request signal

220‧‧‧ Positioning gateway unit

221‧‧‧ Positioning reply signal

230‧‧‧Web Service Server

310‧‧‧Gravity sensing unit

311‧‧‧Gravity sensing signal

320‧‧‧ Positioning transceiver unit

321‧‧‧Location request signal

330‧‧‧ Positioning gateway unit 3

331‧‧‧ Positioning reply signal

340‧‧‧Web Service Server

341‧‧‧Location Information

350‧‧‧Display unit

1 is a schematic diagram of an apparatus unit of an embodiment of an item search system utilizing LoRa transmission technology according to the present invention.

2 is a block diagram of an embodiment of an item search system utilizing LoRa transmission technology according to the present invention.

3 is a schematic diagram of the operation of an embodiment of an item search system utilizing LoRa transmission technology according to the present invention.

The above described features and advantages of the present invention will become more apparent and understood.

1 is a schematic diagram of an apparatus unit of an embodiment of an item search system utilizing LoRa transmission technology according to the present invention. In FIG. 1, an item search system using LoRa transmission technology includes a gravity sensing unit 110, a positioning transceiver unit 120, a positioning gateway unit 130, a network service server 140, and a display unit 150. The gravity sensing unit 110 detects the gravity change and generates a gravity sensing signal. The positioning transceiver unit 120 is connected to the gravity sensing unit 110, and transmits a positioning request according to the gravity sensing signal. The signal is obtained by the positioning gateway unit 130, and the positioning response signal is transmitted according to the positioning request signal. The network service server 140 obtains the positioning response signal through the positioning transceiver unit 120, and responds according to the positioning. The signal is obtained by the location information, and the display unit 150 displays the geographic coordinate value of the location of the location transceiver unit 120 through a geographic information system according to the location information.

In this embodiment, the gravity sensing unit is disposed on an item, and detects a gravity change of the item according to a normal vector change of the item, and generates the gravity sensing signal.

In this embodiment, the positioning transceiver unit applies a long distance low power data transmission (LoRa) technology.

In this embodiment, the data transmission rate of the positioning transceiver unit is set according to a user.

In this embodiment, the positioning gateway unit can transmit a beacon (Beacon) gateway unit, an infinite transmission (WiFi) gateway unit, or a long-distance low-power data through a communication network corresponding to the connection. The transmission (LoRa) gateway unit obtains the positioning reply signal.

In this embodiment, the network service server further includes a storage unit for storing the original location information of the positioning transceiver unit.

In this embodiment, the network service server further includes a processing unit, configured to calculate the location of the positioning transceiver unit according to the positioning response signal and a transmission time, a signal strength, a signal to noise ratio, and other parameters.

In this embodiment, the display unit may be a mobile device, a notebook computer, a tablet computer or a number of position assistants and the like having a display function.

In this embodiment, the display unit transmits the geographic information system and displays a moving track with the map image.

2 is a schematic structural diagram of an embodiment of an item search system utilizing LoRa transmission technology according to the present invention, which is described as follows: FIG. 2: In the present creative embodiment, when the positioning transceiver unit 210 receives the gravity sensing signal, the transmission is performed. The positioning request signal 211 is sent to the positioning gateway unit 220, and the positioning reply signal unit 221 is replied to the positioning reply signal 221, and then the positioning reply signal 221 is transmitted to the network service server 230 through the positioning transceiver unit 210 to obtain the position information through calculation.

In this embodiment, the positioning transceiver unit applies a long distance low power data transmission (LoRa) technology.

In this embodiment, the data transmission rate of the positioning transceiver unit is set according to a user.

In this embodiment, the positioning gateway unit can transmit a beacon (Beacon) gateway unit, an infinite transmission (WiFi) gateway unit, or a long-distance low-power data through a communication network corresponding to the connection. The transmission (LoRa) gateway unit obtains the positioning reply signal.

In this embodiment, the network service server further includes a processing unit, configured to calculate the location of the positioning transceiver unit according to the positioning response signal and a transmission time, a signal strength, a signal to noise ratio, and other parameters.

3 is a schematic diagram of the operation of an embodiment of an item search system utilizing LoRa transmission technology according to the present invention. The description is as follows: FIG. 3: In the present creative embodiment, when the gravity sensing unit 310 disposed on the article detects the gravity change due to the movement of the article, gravity sensing is generated. The signal 311 transmits the positioning request signal 321 to the positioning gateway unit 330 according to the gravity sensing signal 311. The positioning gateway unit 330 immediately returns the positioning reply signal 331 and transmits the positioning reply signal 331 through the positioning transceiver unit 320. After being transmitted to the network service server 340, the location information 341 is calculated according to the positioning reply signal 331, and then transmitted to the display unit 350 to display the geographic coordinate value of the location of the location transceiver unit 320.

In this embodiment, the gravity sensing unit is disposed on an item, and detects a gravity change of the item according to a normal vector change of the item, and generates the gravity sensing signal.

In this embodiment, the display unit may be a mobile device, a notebook computer, a tablet computer or a number of position assistants and the like having a display function.

In this embodiment, the display unit transmits the geographic information system and displays a moving track with the map image.

In summary, the new author can use the item search system of LoRa transmission technology, the low power wide area network (LPWAN) of LoRa transmission technology, the battery-powered device, and the network deployed in a wider area. In the road, through the technology of LoRa transmission distance and low power consumption, efficient real-time anti-theft and real-time tracking of items through positioning, reducing waste of manpower and time, and improving the chance of stolen goods.

Although the present invention has been described above in the foregoing embodiments, it is not intended to limit the present invention, and any equivalents of the modification and retouching of the present invention are still novel. Within the scope of the patent protection of the creation.

Claims (10)

An item search system using LoRa transmission technology, comprising: a gravity sensing unit for detecting gravity change and generating a gravity sensing signal; and a positioning transceiver unit, the positioning transceiver unit is connected to the gravity sensing unit, Transmitting a positioning request signal according to the gravity sensing signal, and obtaining a positioning reply signal; a positioning gateway unit electrically connecting the positioning transceiver unit, transmitting the positioning reply signal according to the positioning request signal; and a network service servo The device is electrically connected to the positioning transceiver unit, obtains the positioning response signal through the positioning transceiver unit, and obtains a location information according to the positioning response signal; and a display unit electrically connected to the network service server, according to the location Information, through a geographic information system, displays the geographic coordinates of a location of the location transceiver unit. An item search system using the LoRa transmission technology according to claim 1, wherein the gravity sensing unit is disposed on an item, and detects a gravity change of the item according to a normal vector change of the item, and generates the gravity Sensing signal. An item search system using LoRa transmission technology according to claim 1, wherein the positioning transceiver unit applies long-distance low-power data transmission (LoRa) technology. An item search system using the LoRa transmission technology according to claim 1, wherein the data transmission rate of the positioning transceiver unit is set according to a user. An item search system using the LoRa transmission technology according to claim 1, wherein the positioning gateway unit can include a beacon gateway unit and an infinite transmission through a communication network for correspondingly connecting different connections. The (WiFi) gateway unit or a long-distance low-power data transmission (LoRa) gateway unit obtains the positioning reply signal. Item search system using LoRa transmission technology as described in claim 1 The network service server further includes a storage unit for storing the original location information of the positioning transceiver unit. An item search system using LoRa transmission technology according to claim 1, wherein the network service server further comprises a processing unit, according to the positioning reply signal and a transmission time, a signal strength, a signal to noise ratio, and Other parameters are used to calculate the position of the positioning transceiver unit. The item search system using the LoRa transmission technology according to claim 1, wherein the display unit may be a mobile device, a notebook computer, a tablet computer or a number of position assistants and the like. An item search system using LoRa transmission technology according to claim 1, wherein the display unit transmits the geographic information system and displays a movement trajectory of the map image. An item search system using LoRa transmission technology, comprising: a gravity sensing unit disposed on an item, detecting a gravity change of the item according to a normal vector change of the item, and generating a gravity sensing signal; a transceiver unit, the positioning transceiver unit is connected to the gravity sensing unit, and applies a long-distance low-power data transmission technology to transmit a positioning request signal according to the gravity sensing signal, and obtain a positioning reply signal; a positioning gateway The unit is electrically connected to the positioning transceiver unit, and according to the positioning request signal, obtains the positioning reply signal through a communication network corresponding to the different connection, and transmits the positioning reply signal; a network service server electrically connects the positioning The transceiver unit obtains the positioning response signal through the positioning transceiver unit, calculates and obtains a location information according to the positioning response signal, a transmission time, a signal strength, a signal to noise ratio, and other parameters; and a display unit, the electrical component Connect to the web service server, based on the location information, through a geographic information system A geographic coordinate value of a location of the positioning transceiver unit is shown.