TW201739193A - Wireless cluster based system for communication between sensor networks - Google Patents

Abstract

The present invention relates to a wireless cluster based system for communication between sensor networks. Accordingly, the wireless cluster based system includes: at least one cluster module (200) having a repeater (300) in communication with at least one sensor unit (400) for measuring at least one parameter relating to the condition of an article; wherein the repeater (300) is adapted for sufficiently transmitting, storing, receiving, retrieving, accumulating, pairing, sharing, and/or broadcasting data or other related information of the sensor unit (400) among at least one cluster module (200); and wherein at least one cluster module (200) is adapted to be either communicated or paired with any other cluster module(s) (200) or with a main controller (500) via the repeater (300).

Description

Wireless cluster-based system for sensor-to-network communication

The present invention relates to a cluster-based system, and the present invention is more related to a wireless cluster-based system for communication between sensors.

According to the prior art, a tire pressure monitoring system typically uses sensors attached to the tires of the vehicle, and each sensor transmits its readings to an in-car unit typically located at the head of the vehicle. Users in this unit can view the displayed readings. Each sensor on each tire must be paired with an in-vehicle unit. However, when handling trucks, trucks, or other vehicles having many tires and elongated bodies, such sensors at the rear end of the vehicle may not be able to transmit data to the interior unit due to insufficient transmission strength. When this involves a detachable trailer, the situation becomes more complicated as the distance from the sensor to the interior unit increases.

The general way to overcome the above problem is to add a signal booster or router along the length of the vehicle body. This enhancer or repeater will amplify or repeat the feeling of being far away from the interior of the vehicle. The signal of the detector is such that it can reach the in-vehicle unit located at the head of the vehicle. However, this is not a way to efficiently transmit signals/data because its power consumption is very large. In addition, when more than one booster/repeater is required, the path of this communication is unidirectional, so the booster/repeater transmits the signal/data to the next booster/repeater. If you pass here Any signal booster/repeater in the chain does not exist and this communication will be disturbed so that the signal/data cannot reach the in-vehicle unit. This problem also exists when this involves multiple trailers because such trailers will be frequently connected or removed from this vehicle. When such trailers are disassembled or their connection sequence is rearranged, the initial communication chain will no longer be able to operate according to its original design, so that the signals/data cannot be properly transmitted from the sensors to the interior units.

In the context of the above problem, this individual sensor must be paired with the in-vehicle unit. Any reduction, addition, or change in this trailer location would necessitate re-pairing all involved sensors for the in-vehicle unit. This is undoubtedly an annoying and time consuming process, and it is prone to more human error during this re-pairing process.

The use of signal boosters/repeaters also raises questions about transmission security and accuracy. The signal booster is mainly used to amplify the transmitted signal, and the repeater is used to copy the transmitted signal. This may cause the sensor-independent transmission signal (not from the associated sensor) to be accidentally amplified/copied, or the amplified/repetitive transmission signal from the sensor may be intercepted and eavesdropped.

Depending on the strength of the transmitted signal from the sensor and/or booster and whether the transmitted signal is properly amplified by the booster/router to the next booster/router, communication using this method will also result in this reception. A longer delay in signal transmission between the in-vehicle units that update the transmitted signal; this transmitted signal may not reach the in-vehicle unit at all possible times.

Therefore, a better communication system is currently required to ensure the accuracy of the sensor signals/data in order to transmit all sensor signals/data to the in-vehicle unit.

The invention relates to a wireless cluster used for communication between sensors and networks. The main system. The wireless cluster-based system includes at least one cluster module having one of a repeater and at least one sensor unit for communicating with each other, the sensor unit for measuring at least one parameter relating to an object condition. The repeater is configured to sufficiently transmit, store, receive, capture, accumulate, pair, share, and/or play data of the sensor unit or other related information between the at least one cluster module. In addition, the at least one cluster module communicates or pairs with any other cluster module, or communicates or pairs with a host controller via a repeater.

It should be understood that the wireless communication between the at least one cluster module, the repeater, and the at least one sensor unit is preferably implemented by the following technologies: Bluetooth technology, WiFi, Near Field Communication (NFC), Zigbee, ANT+, or any other wireless or radio frequency (RF) connection.

In a preferred embodiment of the invention, the article is preferably, but not limited to, a vehicle, such as a trailer, a truck, a truck, or a other moving object.

It should be understood that at least one sensor unit of the present invention is preferably disposed on each tire of the vehicle to measure at least one parameter relating to a tire condition.

By way of example and not limitation, the parameters measured by the sensor unit relating to a tire condition include: pressure, temperature, wheel speed, acceleration, and/or vehicle distance information.

It should be understood that the cluster module of the present invention is used to communicate or pair with other cluster modules via a repeater, so that the data and/or related information collected by the sensor unit can be any or all of Other cluster modules capture, transfer, share, or accumulate; these cluster modules communicate or pair with each other.

Therefore, the cluster module can communicate or be paired with the main controller so that the data and/or related information collected by the sensor unit can be used, or by other cluster modules. The received and accumulated data and/or related information is transmitted to or shared with the main controller.

By way of example and not limitation, the main controller is preferably an in-vehicle unit of a vehicle.

Therefore, the main controller of the present invention is used for communicating or pairing with a mobile device, so that the data and/or related information received or collected by the main controller from the cluster module can be transmitted to a mobile device, or Mobile devices are shared.

It should be understood that the mobile device is used to communicate with the cloud or the network server, so that the data and/or related information collected by the sensor unit can be transmitted to, stored in the cloud or network server, and Captured by the cloud or web server.

The present invention includes several novel features and combinations of components, which are fully described in the following description and drawings. It will be appreciated that various changes may be made in the details without departing from the scope of the invention or the advantages of the invention.

The invention will be fully understood from the following detailed description and the appended claims.

100‧‧‧Systems based on wireless clusters

200‧‧‧Cluster Module

300‧‧‧Repeat

400‧‧‧Sensor unit

500‧‧‧Master controller

600‧‧‧ mobile device

700‧‧‧Web server

1 is a schematic diagram showing a wireless cluster-based system for use between cluster modules and between cluster modules and a host controller in accordance with a preferred embodiment of the present invention. Parallel communication; FIG. 2 is a schematic diagram showing a cluster module according to a preferred embodiment of the present invention, which communicates with other cluster modules in a series via a repeater Or pairing; 3 is a schematic diagram showing a cluster module in accordance with a preferred embodiment of the present invention communicating or pairing with a host controller in a side-by-side manner via a repeater.

The present invention relates to a wireless cluster-based system for use in inter-sensor communication between networks, and the present invention will now be described in the preferred embodiments. However, it is to be understood that the invention is not limited by the scope of the appended claims. .

Reference is now made to the individual figures of Figures 1 through 3, or any combination thereof, to illustrate a wireless cluster-based system for use in performing inter-sensor communication between the sensors of the present invention in accordance with a preferred embodiment.

Referring first to Figure 1, a wireless cluster-based system 100 in accordance with a preferred embodiment of the present invention typically includes at least one cluster module 200 having one of the repeaters 300 and at least one sensor in communication with one another. Unit 400, the sensor unit 400 is configured to measure at least one parameter relating to an object condition. By way of example and not limitation, the object may be a trailer, a truck, a truck, or a moving object.

In a preferred embodiment of the present invention, the repeater 300 is configured to adequately transmit, store, receive/capture, accumulate, pair, share, and/or play sensing between at least one cluster module 200. Information about the unit or other relevant information. It should be noted that the at least one cluster module 200 can communicate or pair with any other cluster module 200 or with a host controller 500 via a repeater 300.

By way of example and not limitation, the main controller 500 can be an in-vehicle unit of a vehicle, which can be a trailer, a truck, a truck, or a other moving object. It should be understood that the wireless communication between the at least one cluster module 200, the repeater 300, and the at least one sensor unit 400 is preferably implemented by the following techniques but not limited to the following technologies: Bluetooth technology , WiFi, Near Field Communication (NFC), Zigbee, ANT+, or any other wireless or radio frequency (RF) connection.

In a preferred embodiment, the at least one sensor unit 400 is preferably disposed on each tire of the vehicle for measuring at least one parameter relating to the condition of the tire. The parameters measured by the sensor unit 400 relating to the condition of the tire may include, but are not limited to, pressure, temperature, wheel speed, acceleration, and/or vehicle distance information. It should be appreciated that this sensor unit 400 can be disposed on the inside of the tire or the valve stem of the tire. Alternatively, sensor unit 400 can communicate with repeater 300 in a wired or wireless manner, depending on the nature of the application and/or the need for use.

It should be noted that the cluster module 200 of the present invention can communicate or pair with other cluster modules 200 via the repeater 300 in a serial manner (refer to FIG. 2). Thus, the cluster module 200 can communicate or pair with other cluster modules 200 via the repeater 300 such that the data and/or related information collected by the sensor unit 400 can be from any or all of the other clusters. The modules 200 capture, transmit, share, or accumulate; the cluster modules 200 communicate or pair with each other. These cluster modules 200 then communicate or pair with the main controller 500 via the repeater 300 such that the data and/or related information collected by the sensor unit 400 can be used, or by any or all of the other clusters. The data and/or related information received and accumulated by the module 200 is transmitted to or shared with the main controller 500.

In another preferred embodiment, at least one of the cluster modules 200 of the present invention can communicate or pair with the main controller 500 (refer to FIG. 3). Therefore, the cluster module 200 can communicate with or be paired with the main controller 500 via the repeater 300, so that the data and/or related information collected by the sensor unit 400 can be transmitted to the main controller 500 or to the main The controller 500 is shared.

It will be appreciated that the wireless cluster-based system 100 can be designed to allow any faulty or missing sensor unit 400 to be replaced such that any unpaired replacement sensor unit 400 does not have to be paired with the primary controller 500. And only need to pair with the repeater 300 in its own cluster module 200. The main controller 500 can then receive the updated signals/data from the associated repeater 300. Moreover, if there is any change in the number or location of tires of the cluster module 200, the wireless cluster-based system 100 can still allow this communication to the primary controller 500 to be uninterrupted. The reason for this is that all cluster modules 200 can share and accumulate data/information between each other, and then the entire group of accumulated data/information can be paired by any related cluster module 200. The controller 500 transmits/shares regardless of the location or distance of the cluster module 200 in the communication chain. Therefore, as long as any of the cluster modules 200 are close enough to the main controller 500, this possibility can be greatly enhanced to ensure that the entire set of accumulated data/information is transmitted/shared to the main controller 500 consistently. In addition, interrupt suspension during any update of the sensor network between the cluster modules 200, including data of the sensor unit 400 or other related information, can be shortened because the system does not have to wait for individual sensors to pass through the single Transfer data to the communication chain.

It should also be appreciated that the wireless cluster-based system 100 can integrate or merge encryption between at least one cluster module 200, repeater 300, at least one sensor unit 400, and host controller 500 to the wireless In communication, to ensure that all units are related to it to avoid any Illegal or theft. Thus, the security of the system can be enhanced because each repeater 300 has its specific identification (ID) data (eg, encrypted material) and is interlocked with each pairing sensor.

In addition, efficiency and accuracy can be enhanced to transfer, store, receive/capture, accumulate, pair, share and/or play data or other related information between sensor networks, as this system does not enhance other Source of confusion or irrelevant signals. In addition, it may be easier to redistribute the identification (ID) data because the system does not have to be re-paired with the main controller 500 by placing the sensors on the tire.

In a preferred embodiment of the present invention, the main controller 500 can communicate or pair with a mobile device 600 such that the main controller 500 can transmit the data and/or related information collected by the sensor unit 400 to A mobile device 600 or shared with the mobile device 600. If desired by the user, the main controller 500 can selectively set a display to display all read, share, or related information, or parameters related to the condition of the tire. It should be understood that if the pressure of any tire drops below a preset median value, the system will send a trigger signal to the relevant unit to remind the user; otherwise, the system will enter sleep mode to save power consumption. By way of example and not limitation, the mobile device 600 can be: a cell phone, a cellular phone or a mobile phone, an IOS, Android, a smart tablet, a computer, a laptop, a personal digital assistant, or any smart device. It should be appreciated that this pairing process can be initiated at any time if the user wants to replace, change, or switch to another different mobile communication unit or device.

If necessary, the mobile device 600 can communicate wirelessly with a cloud or network server 700, such that the data and/or related information collected by the sensor unit 400 can be transmitted to the cloud or network server 700, Or stored in it. So you can do this in the system All data and/or related information/identification data are stored in the cloud or network server 700 via the mobile device 600. It should be appreciated that this cloud or network server 700 can be used to store all of the parameters associated with the tire condition measured by the sensor unit 400. By way of example and not limitation, wireless communication between the mobile device 600 and the cloud or network server 700 can be implemented by the following technologies: WiFi, Near Field Communication (NFC), cellular network, or any other wireless or radio frequency. (RF) connection. It should be appreciated that the mobile device 600 and the main controller 500 can be used to relay from the repeater 300 of the cluster module 200 via Bluetooth or Near Field Communication (NFC) even when the vehicle has been turned off or is stationary indefinitely. To receive data/information.

The advantages and functions of the wireless cluster-based system 100 are as follows: a. The system does not need to pair the individual sensor units 400 disposed in the respective tires with the main controller 500; b. Or any change in the location of the cluster module 200 still allows the communication to the main controller 500 to be uninterrupted; c. the interruption of the sensor unit 400 data or other related information update between the cluster modules 200 can be shortened. Pause because the system does not have to wait for each sensor unit 400 to transfer data to the main controller 500; d. The security of the system can be enhanced because each repeater 300 and sensor unit 400 have its specific identification (ID) data. (eg, encrypting data) and interlocking with each paired sensor; e. can enhance efficiency and accuracy for transmission between sensor networks, Store, receive, capture, accumulate, pair, share and/or play data or other relevant information as this system does not enhance confusing or irrelevant signals from other sources; and f. can make identification easier (ID The data is redistributed because the system does not have to pair the main controller 500 with the respective sensor units 400 provided for each tire.

It should be noted that the configuration or configuration of the various elements, components, and/or components used to implement the above-described embodiments are for illustrative purposes only and are not intended to limit the invention. Those skilled in the art will appreciate that such configurations or configurations, components and/or components can be modified to achieve different effects or desired operational characteristics. Therefore, the above description is not intended to be in any way limiting, but rather the best mode contemplated by the inventors to carry out the invention.

The present invention has been described above, and it is obvious that the content of the present invention can be changed in many ways, and such changes are not to be regarded as departing from the spirit and scope of the invention, and all such modifications are obvious to those skilled in the art It is included in the scope of the following patent application.

100‧‧‧Systems based on wireless clusters

200‧‧‧Cluster Module

300‧‧‧Repeat

400‧‧‧Sensor unit

500‧‧‧Master controller

600‧‧‧ mobile device

700‧‧‧Web server

Claims (10)

A wireless cluster-based system for inter-sensor communication, comprising: at least one cluster module having one repeater and at least one sensor in communication with each other a unit for measuring at least one parameter relating to an object condition, wherein the repeater is configured to transmit, store, receive, capture, accumulate, pair, and between the at least one cluster module Sharing and/or playing information of the sensor unit or other related information, wherein at least one of the cluster modules communicates or pairs with any other cluster module or communicates with a host controller via the repeater Or pairing. A wireless cluster-based system for use in inter-sensor communication between the sensors of claim 1 wherein at least one of the cluster module, the repeater, at least one of the sensor units, and The wireless communication between the main controllers is implemented by the following technologies: Bluetooth technology, WiFi, Near Field Communication (NFC), Zigbee, ANT+, or any other wireless or radio frequency (RF) connection. A system based on a wireless cluster, such as a vehicle, which is, for example, a trailer, a truck, a truck, or a moving object, for use in inter-sensor communication between the sensors of claim 1 . A wireless cluster-based system for use in sensor inter-network communication according to claim 3, wherein at least one of the sensor units is preferably disposed on each tire of the vehicle for measuring the tire. At least one of the parameters of the situation. The wireless cluster-based system used in the inter-sensor communication of the sensor range 4, wherein the parameter measured by the sensor unit regarding the tire condition includes: tire pressure, temperature, wheel Speed, acceleration, and/or vehicle distance information. A wireless cluster-based system for inter-sensor communication between the sensors of claim 1, wherein the cluster module is used to communicate or pair with other cluster modules via the repeater. So that the data and/or related information collected by the sensor unit can be captured, transmitted, shared, or accumulated for any or all of the other cluster modules, and the cluster modules communicate or pair with each other. . A wireless cluster-based system for use in sensor inter-network communication as claimed in claim 6 wherein the cluster module communicates or is paired with the host controller such that the sensor unit can be The collected data and/or related information, or data and/or related information received and accumulated by any or all of the other cluster modules, are transmitted to or shared with the primary controller. A wireless cluster-based system for inter-sensor communication between sensors in the first application of the patent scope, wherein the primary controller is an in-vehicle unit of the vehicle. A wireless cluster-based system for inter-sensor communication between the sensors of claim 1, wherein the main controller is used to communicate or pair with a mobile device such that it can be The data and/or related information collected by the sensor unit is transmitted to or shared with a mobile device. The wireless cluster-based system used in the inter-sensor communication of the sensor of the ninth aspect of the patent application, wherein the mobile device is used for communicating with a cloud or a network server, so that the sensing can be performed by the sensing The data and/or related information collected by the unit is transmitted to the cloud or the network server, or stored in the cloud or the network server.