TWI503033B - Wireless monitoring method and device thereof - Google Patents

Description

Wireless monitoring method and device thereof

The present invention relates to a wireless monitoring method and apparatus thereof, and more particularly to a wireless monitoring method and apparatus capable of performing composite sensing monitoring by monitoring cluster data to enable a plurality of wireless monitoring devices to be set to the same monitoring cluster.

The quality of home has always been a problem that people pay attention to. With the change of life style and the evolution of science and technology, in the past, the form of protection or service provided by manpower alone has gradually developed into a long-term preservation and management implementation with monitoring systems and monitoring software. form. According to the current monitoring system, before the monitoring system is constructed, the monitoring range is divided into several monitoring ranges, and at least one function corresponding detecting device is set according to the requirements of each monitoring range, and each detecting device is used. A wired telephone loop is connected to a system host to transmit a detected environmental signal to the system host. The system host determines the received environmental signals to confirm whether an abnormality needs to generate a warning signal. The specific embodiment is disclosed in U.S. Patent No. 8,194,695 or US Patent No. 2011310770.

However, the centralized management of the host through the system today is beneficial to the monitoring and control of the monitoring terminal. However, the normality of the wired telephone circuit is not controlled by the monitoring terminal. If the wired telephone circuit is disconnected, the monitoring system enters the service failure. status. On the other hand, the number of simultaneous connections of each system host is limited by the bandwidth of the wired telephone loop, which causes the system host to be prone to busy connection and cannot accept the environmental signal from the detection device. In addition to the bandwidth limitation of the communication line, when the system host simultaneously accepts multiple environmental signals for a certain number, it is easy to cause the system. The computing performance of the host can't be loaded, and it is impossible to issue a warning at the first time to lose the original intention of improving the quality of the home. Moreover, each of the detecting devices uses the wired telephone circuit to connect with the system host, which also complicates the wiring within the monitoring range, is difficult to repair, and the construction wiring is not easy.

The main object of the present invention is to solve the problem that the construction monitoring system is difficult to construct and cannot be changed.

To achieve the above objective, the present invention provides a wireless monitoring method, including the steps of: Step 1: providing a plurality of wireless monitoring devices, each of the wireless monitoring devices respectively detecting a surrounding state output state data; Step two: mutually publishing one by multiple The monitoring cluster data composed by the device identification code is each in the wireless monitoring device, and each of the device identification codes respectively corresponds to one of the wireless monitoring devices; and step 3: setting each of the wireless monitoring devices to have each integrated After the status data, a status monitoring condition of at least one control signal may be output; Step 4: any wireless monitoring device obtains the device identification code of the other wireless monitoring device in the range of connection, and determines whether the device identification code is recorded in the device. The monitoring cluster data, if it is set to be a monitoring cluster with the wireless monitoring device, and accepting the status data output by the wireless monitoring device, proceeds to the next step; and step 5: when any of the wireless monitoring devices detects the acquisition itself The status data, or other wireless monitoring devices in the monitoring cluster The state information to determine compliance with the state monitoring conditions, if the output of the at least one control signal to trigger at least one electronic device.

In an embodiment, the step 4 further includes the step of: using any of the wireless monitoring devices to send an establishment information connection request to one of the wireless monitoring devices; wherein the wireless monitoring device obtains the wireless monitoring in response to the connection. The device identification code of the device and a connection address code; Whether the identification code is recorded in the monitoring cluster data, and if so, is connected to the wireless monitoring device by the connection address code, and is set to be the same as the monitoring cluster.

In an embodiment, the plurality of wireless monitoring devices respectively include a state sensing unit for detecting a state change, a micro control unit connected to the state sensing unit and storing the monitoring cluster data and the state monitoring condition, and a connection. The micro control unit is a communication module that communicates with the wireless monitoring device.

In one embodiment, the state sensing unit can be a temperature sensor, a smoke sensor, a vibration sensor, a displacement sensor, a power sensor, a blood pressure sensor, a blood glucose sensor, and a heartbeat sensor. One of the sound sensors or a sound sensor.

In addition to the foregoing monitoring method, the present invention also provides a monitoring cluster of a wireless monitoring device, which includes a plurality of wireless monitoring devices, and each of the wireless monitoring devices includes a state sensing unit that detects a peripheral state outputting a status data. And a communication module wirelessly connected to the other wireless monitoring device, wherein each of the wireless monitoring devices includes a device identification code that stores a state monitoring condition and another wireless monitoring device, and is electrically coupled to the state sensing unit a micro-control unit that receives the status data, each of the wireless monitoring devices outputs the status data to other wireless monitoring devices and receives the status data of other wireless monitoring devices, and the micro control unit determines all of the status information. Whether the status data meets the status monitoring condition, and when one of the wireless monitoring devices determines that the status data and the other status data satisfy the status monitoring condition, a control signal is output.

In an embodiment, the communication module can implement one of a cluster consisting of an IEEE 802.15.1 protocol, an IEEE 802.11 protocol, and an IEEE 802.15.4 protocol.

In one embodiment, the state sensing unit can be a temperature sensor, a smoke sensor, a vibration sensor, a displacement sensor, a power sensor, a blood pressure sensor, a blood glucose sensor, and a heartbeat sensor. One of the sound sensors or a sound sensor.

The method and structure of the invention have the following characteristics compared with the conventional ones:

1. The present invention directly interconnects a plurality of wireless monitoring devices, exchanges the status data, and determines whether the status monitoring condition is met and outputs the control signal. In this way, it is possible to avoid the problem that the conventional monitoring system needs to be relayed through the security host, and it is prone to cause the maintenance to be insured due to the abnormality of the host or the interruption of the line.

2. The invention utilizes wireless communication technology to exchange information between two wireless monitoring devices, and improves the practice that the utility needs to be implemented by a wired telephone line, but the wiring is complicated.

3. The present invention displays the monitoring cluster data in the wireless monitoring device, so that each wireless monitoring device can be reliably connected according to each monitoring cluster, and an interactive monitoring is generated, and the monitoring cluster data is set to be used by the user. Another wireless monitoring device recorded in the monitoring group based data may be added according to the implementation requirement.

1‧‧‧Wireless monitoring device

11‧‧‧State sensing unit

12‧‧‧Communication Module

13‧‧‧Micro Control Unit

2‧‧‧First wireless monitoring device

22‧‧‧Communication Module

23‧‧‧Micro Control Unit

3‧‧‧Second wireless monitoring device

S01, S02, S03, S04, S05‧‧ steps

S041, S042, S043‧‧ substeps

FIG. 1 is a block diagram showing the structure of a device used in the wireless monitoring method of the present invention.

FIG. 2 is a schematic diagram of an apparatus of an embodiment of a wireless monitoring method according to the present invention.

FIG. 3 is a schematic flow chart of an embodiment of a wireless monitoring method according to the present invention.

FIG. 4 is a schematic flowchart diagram of a sub-step of step 4 of an embodiment of the wireless monitoring method of the present invention.

The wireless monitoring method and device thereof are implemented by a combination of at least two wireless monitoring devices installed in the same monitoring range to generate a combined monitoring effect. Referring to FIG. 1, the wireless monitoring device 1 of the present invention has a state sensing unit 11, a communication module 12, and a micro control unit 13, wherein the state sensing unit 11 normally detects a peripheral state and outputs a state data. The surrounding state may refer to a state change within the monitoring range, or a physiological information of a user within the monitoring range, and the state data is a sensing result corresponding to a state change (or physiological information). Further, the state sensing unit 11 can be a temperature sensor, a smoke sensor, a vibration sensor, a displacement sensor, a power sensor, a blood pressure sensor, a blood glucose sensor, a heartbeat sensor or a sound sensor. The communication module 12 is configured to be in communication with another state sensing unit 11 so that the two state sensing units 11 form an information connection in a normal state, and the state data is exchanged, and the communication module 12 can operate a plurality of communication technologies. A group such as the IEEE 802.15.1 protocol, or the IEEE 802.11 protocol, or the IEEE 802.15.4 protocol. Moreover, the micro control unit 13 is commonly referred to as an MCU, which is respectively connected to the state sensing unit 11 and the communication module 12, and memorizes a monitoring cluster data and a state monitoring condition. The monitoring cluster data is said to have a plurality of device identification codes, each of the device identification codes indicating a wireless monitoring device 1, and the other wireless monitoring device recorded in the monitoring cluster data is set with the wireless monitoring device. 1 is a monitoring group, and the monitoring cluster data actually records only the device identification code of the other wireless monitoring device that is monitored and associated with the wireless monitoring device 1 and is set as a monitoring group, which is also indicated within the monitoring range. Each of the wireless monitoring devices 1 is not necessarily configured as a monitoring group, and the monitoring cluster adjustment setting can be performed according to the monitoring purpose. Further, the monitoring cluster data may further record the connection address data of each of the wireless monitoring devices 1, so that the communication module 12 is connected to the corresponding wireless monitoring device 1 according to the connection address data. . The status monitoring condition may be a judgment type, and based on the status data, determining whether the status data is consistent with the status monitoring condition, and if yes, outputting at least one of the control signals to cause at least one electronic device to operate.

Before explaining the monitoring method of the present case, in order to avoid the misunderstanding of the implementation of the plurality of wireless monitoring devices 1, the wireless monitoring device 1 is first divided into a first wireless monitoring device 2 and a second. Wireless monitoring device 3 (shown in Figure 2). Referring to FIG. 3, the wireless monitoring method of the present invention includes the following steps: Step 1 (S01), providing the first wireless monitoring device 2 and at least one second wireless monitoring device 3, the first wireless monitoring device 2 and Each of the second wireless monitoring devices 3 respectively detects a surrounding state outputting a first state data and a second state data; and step 2 (S02), loading the monitoring cluster data composed of the plurality of device identification codes in the first In the wireless monitoring device 2, each of the device identification codes is respectively Corresponding to one of the second wireless monitoring devices 3; Step 3 (S03), setting the first wireless monitoring device 2 to have a state monitoring condition for obtaining the first state data and the second state data outputting a control signal; (S04): obtaining, by the first wireless monitoring device 2, the device identification code of each of the second wireless monitoring devices 3 in the connection range, determining whether the device identification code is recorded in the monitoring cluster data, and if so, setting and The second wireless monitoring device 3 is a monitoring group, and receives the second state data output by the second wireless monitoring device 3, and proceeds to the next step; Step 5 (S05), when the first wireless monitoring device 2 The first status data is detected and the second status data is obtained from any of the second wireless monitoring devices 3 in the monitoring group, and it is determined whether the control signal is output according to the status monitoring condition to trigger an electronic device.

Specifically, in the foregoing steps, when the method of the present invention is implemented, the first wireless monitoring device 2 and the at least one second wireless monitoring device 3 are first disposed in the monitoring range (such as a home environment, etc.). In this embodiment, The monitoring range is exemplified by a kitchen. The first wireless monitoring device 2 is a temperature sensor, and the second wireless monitoring device 3 is a smoke sensor. Thereafter, the monitoring cluster data is posted in the first wireless monitoring device 2, and the monitoring cluster data is as described above, and each of the second monitoring devices 2 is set to be the same as the second monitoring group. The device identification code of the wireless monitoring device 3, and the device identification code recorded by the monitoring cluster data is not only the device identification code of the second wireless monitoring device 3, but the monitoring cluster data can be further recorded. In addition to the current implementation, it is still possible to add the device identification code of the second wireless monitoring device 3 of the same monitoring cluster. Further, the monitoring cluster data may actually record two or more device identification codes. In this embodiment, the monitoring range only occupies one second wireless monitoring device 3, and the other second wireless monitoring device The device 3 can be set in the monitoring range according to the requirement and set as the same monitoring cluster. After the second step (S02) is completed, the process proceeds to step 3 (S03), and the first wireless monitoring device 2 is set to have the state monitoring condition. The state monitoring condition is a condition for determining the fire of the monitoring range (kitchen) in this embodiment. Such as the concentration of smoke and the temperature of the kitchen. When the fourth step (S04) is implemented, the first wireless monitoring device 2 obtains the first A wireless monitoring device 2 can perform a device identification code of each of the second wireless monitoring devices 3 in the range of connection, and determine, from the received device identification code, whether to record green in the monitoring cluster data, if any That is, the first wireless monitoring device 2 and the second wireless monitoring device 3 are set to be the same monitoring group. At this time, the first wireless monitoring device 2 normally accepts the second output by the second wireless monitoring device 3. Status data. In step 4 (S04), if the device identification code acquired by the first wireless monitoring device 2 is not recorded in the monitoring cluster data, the first wireless monitoring device 2 does not interact with the second wireless monitoring device 3. Set to the same monitoring cluster and stop accepting the data transmitted by the second wireless monitoring device 3. Finally, when the fifth step (S05) is implemented, the method of the present invention enters a monitoring phase, and the first wireless monitoring device 2 normally detects the monitoring range to generate the first state data, and The second wireless monitoring device 3 obtains the second status data to determine whether the status monitoring condition is met. If yes, the first wireless monitoring device 2 outputs at least one control signal to trigger at least one electronic device to alert the user. An accident occurs or an immediate accidental treatment is performed, and the electronic device can be a device that performs corresponding processing when an accident occurs.

Referring to FIG. 4, the embodiment of the method of the present invention may further perform the sub-steps (S041~S042) disclosed in FIG. 4 during the implementation of step 4 (S04), further illustrating that the monitoring area is completed. After the first wireless monitoring device 2 and the second wireless monitoring device 3, the first wireless monitoring device 2 sends a request for establishing a connection to each of the second wireless monitoring devices 3 in the monitoring area. After the second wireless monitoring device 3 responds to the connection, the first wireless monitoring device 2 acquires the device identification code of the second wireless monitoring device 3 and the connection address data, and further whether the device identification code is Recorded in the monitoring cluster data, if any, the connection address data is further recorded in the micro control unit 23, so that the communication unit 22 can connect to the second wireless monitoring device 3 according to the connection address information. line.

In summary, a wireless monitoring method and device thereof are implemented by at least two wireless monitoring devices, each of which has a state sensing unit, a micro control unit, and a communication module. In implementation, a monitoring cluster data is first posted in each of the wireless monitoring devices. When the wireless monitoring device obtains the device identification code of another wireless monitoring device within a connection range, it is determined whether the device identification code is recorded in the monitoring cluster data, and if so, the setting is performed with another wireless monitoring device. Monitoring the cluster, and the wireless monitoring device normally outputs a status data, and another status data is obtained from another wireless monitoring device in the monitoring cluster, and after determining that the status control condition is met, a control signal is output to trigger a Electronic device.

The present invention has been described in detail above, but the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Variations and modifications are still within the scope of the patents of the present invention.

S01, S02, S03, S04, S05‧‧ steps

Claims (7)

A wireless monitoring method includes the following steps: Step 1: providing a plurality of wireless monitoring devices, each of the wireless monitoring devices respectively detecting a surrounding state output state data; and step 2: mutually registering a monitoring cluster composed of a plurality of device identification codes In each of the wireless monitoring devices, each of the device identification codes respectively corresponds to one of the wireless monitoring devices; and step 3: setting each of the wireless monitoring devices to have at least one control after synthesizing each of the status data Condition monitoring condition of the signal; Step 4: Any wireless monitoring device obtains the device identification code of the other wireless monitoring device in the range of connection, and determines whether the device identification code is recorded in the monitoring cluster data, and if so, sets And the wireless monitoring device is a monitoring cluster and accepts the status data output by the wireless monitoring device; Step 5: when any of the wireless monitoring devices detects the status data obtained by itself, or other wireless in the monitoring cluster Monitoring the status data obtained by the device to determine whether the status monitoring bar is met If yes, at least one of the control signal output to trigger at least one electronic device. The wireless monitoring method of claim 1, wherein the step 4 further includes the following sub-step: using any one of the wireless monitoring devices to send an establishment information connection request to one of the wireless monitoring devices; one of the wireless monitoring When the device responds to the connection, acquiring the device identification code of the wireless monitoring device and a connection address code; whether the device identification code is recorded in the monitoring cluster data, and if so, using the connection address code The wireless monitoring device is wired and set to be the same as the monitoring cluster. The wireless monitoring method of claim 1, wherein the plurality of wireless monitoring devices respectively include a state sensing unit that detects a state change, and the state sensing unit is connected to and stores the monitoring cluster data and the state monitoring. a conditional micro control unit and a communication module that connects the micro control unit and communicates with the wireless monitoring device. The wireless monitoring method of claim 3, wherein the state sensing unit is a temperature sensor, or a smoke sensor, or a vibration sensor, or a displacement sensor, or a power sensor, Or a blood pressure sensor, or a blood glucose sensor, or a heartbeat sensor or a sound sensor. A monitoring cluster of a wireless monitoring device includes a plurality of wireless monitoring devices, and each of the wireless monitoring devices includes a state sensing unit that outputs a state data for detecting a peripheral state, and a communication module wirelessly connected to other wireless monitoring devices. The group is characterized in that each of the wireless monitoring devices includes a micro control unit that stores a state monitoring condition and another device identification code of the wireless monitoring device and is electrically connected to the state sensing unit to receive the state data. Each of the wireless monitoring devices outputs the status data to the other wireless monitoring device and receives the status data of the other wireless monitoring device, and the micro control unit determines whether all of the status data meet the status monitoring condition, and one of the status The wireless monitoring device outputs a control signal when determining that the status data and another status data satisfy the status monitoring condition. The monitoring cluster of the wireless monitoring device of claim 5, wherein the communication module can implement a cluster consisting of an IEEE 802.15.1 communication protocol, or an IEEE 802.11 communication protocol, or an IEEE 802.15.4 communication protocol. The monitoring cluster of the wireless monitoring device according to Item 6, wherein the state sensing unit can be a temperature sensor, or a smoke sensor, or a vibration sensor, or a displacement sensor, or a power source. A sensor, or a blood pressure sensor, or a blood glucose sensor, or a heartbeat sensor or a sound sensor.