TWI485663B - Android cloud monitoring platform and system for wireless sensor networks - Google Patents

Description

Android cloud wireless sensing network monitoring platform and system thereof

The invention relates to an Android cloud wireless sensing network monitoring platform and a system thereof, which can greatly provide the degree of freedom of the monitor's activity range and improve the monitoring platform's ability to build in an open area or a wired network.

Traditionally used in wireless sensors in buildings or factories, a wireless transmission module or wired transmission module is additionally installed on the sensor for monitoring. When using sensor monitoring in a building or factory, a large control center must be constructed to monitor all information in the area.

For example, the bulletin number: M360413 "a street light control device" mainly includes a control device, a transmission device and a wireless sensor network. The control device sends a control signal to the transmission device, and the control device transmits the control signal to the wireless sensor. Network to turn the street light on or off according to the control signal via the wireless sensor network, in addition to the wireless sense The detector network can instantly detect the illumination status of the street lamp and report it to the control device, so that the control device can instantly know the abnormal state of the street lamp, thereby achieving the purpose of controlling all the street lamps, and immediately performing maintenance when the street lamp fails. In order to improve the maintenance efficiency, the storage state of the street lamp can be further recorded by the database for statistical information and analysis, thereby improving the efficiency of street lamp management and maintenance.

Another example is the bulletin number: I368190, which discloses a "wireless communication remote ecological environment monitoring system" based on a decentralized system architecture, including at least: (A) a sensing network; (B) a front-end gateway device And (C) a back-end mastering servo device, which mainly utilizes a WSN wireless sensing network to sense the ecological environment monitoring parameter data of the remote area at a remote location, and further utilizes a front-end gateway The device transmits the parameter data wirelessly through an existing wireless communication system (for example, a GSM wireless communication system) to a back-end master control device, so that the back-end master control device automatically sets the ecological environment monitoring parameter data. Editing into a set of dynamic web pages allows the user to view the ecological environment monitoring parameters of the remote area through a network system (for example, the Internet).

Although the patent mentioned above allows the monitor to perform monitoring work at the remote end, it still has to stay on the monitoring platform for monitoring work. The monitoring personnel have no individual freedom of movement. Moreover, the appearance of the mobile phone is originally satisfied. The demand for mobile calls, with the advancement of technology, various additional functions are integrated one by one, such as handwriting input, digital recording, receiving and sending newsletters, digital cameras, multimedia playback, web browsers, e-mail, GPS satellite positioning... Etc. Therefore, the application of integrating wireless sensing on mobile phones is also A development direction, under the powerful operation of Google, launched the first open, complete and free mobile device platform - Android platform, the Android platform is an embedded system, integrated with rich functional hardware, providing action Various functional software interface (API) on the device, in view of the inventor's efforts to strengthen the cross-network monitoring function of the wireless sensing network, is actively researching, and provides a three-in-one Android cloud wireless sense. The network monitoring platform and the cloud wireless sensing network monitoring system constructed by the platform.

The main purpose of the present invention is to receive multiple sensors from the remote end through three major network systems, such as a wireless sensing network (WSN), a wired Internet (Internet), and a mobile telecommunication network (Telecom). The detected information is displayed on the wireless monitoring platform. When an emergency occurs, the short message transmission, email transmission or emergency warning light, sound effect activation, etc. can be performed to notify the monitor; at the same time, the monitor can use the computer at any time. The tablet, the mobile phone is connected to the web server of the wireless monitoring platform via the Internet to obtain the latest sensing information of the sensor, and the instant monitoring is performed by the Internet, even if the monitor is outdoors, Receive urgent messages and check for the latest sensing information at any time.

In order to achieve the above object of the present invention, the inventors have developed an Android cloud wireless sensing network monitoring platform and an Android cloud wireless sensing network monitoring system constructed by the platform.

The Android cloud wireless sensing network monitoring platform includes: a micro control unit, an Ethernet interface, a Wi-Fi network interface, a mobile communication interface, and a human-machine interface unit; wherein: the micro control unit, For performing input and output resident control programs and web server; the system includes: a wireless sensing network unit for connecting a wireless sensor coordinator to obtain a wireless sensor sensing value and dynamic Updating the sensing value on the Android APK page of the human-machine interface unit; the cloud data processing unit is configured to modify and update each received wireless sensor sensing data, and link the packet content to the cloud network database; An e-mail processing unit for managing an e-mail address of the input recipient and an e-mail content to be transmitted; a short message processing unit for managing the mobile phone number of the input receiving sender and the content of the short message to be transmitted; the Ethernet (Ethernet) interface, electrically connected to the micro control unit to connect the monitoring platform to the Internet; the Wi-Fi network interface, electrically connected to the micro control a communication device for connecting the monitoring platform to the Internet; the mobile communication interface is electrically connected to the micro control unit for connecting the monitoring platform to the telecommunication system operator's mobile network; and the human machine operation The interface unit is electrically connected to the micro control unit, and provides an Android APK application for the user to operate the monitoring platform and display the sensing number. according to.

The Android cloud wireless sensing network monitoring platform as described above, wherein the micro control unit is connected to an alarm device.

The Android cloud wireless sensing network monitoring platform as described above, wherein the alarm device comprises at least one of a flashing light, a music playing, a buzzer, and a vibration motor.

The Android cloud wireless sensing network monitoring platform as described above, wherein the mobile communication interface includes one of 2G, 3G, 3.5G, and 4G.

The Android cloud wireless sensing network monitoring system constructed by the above platform is disposed in a monitored area, and includes: a plurality of wireless sensors, and an Android cloud wireless sensing network monitoring platform; wherein: A plurality of wireless sensors are used in the monitored area to detect the environmental status, and the sensing data transmission packet is transmitted to the wireless sensing network monitoring platform at any time. The wireless sensing network unit of the wireless sensing network monitoring platform Receiving sensing data of the plurality of wireless sensors, dynamically updating the sensing value on the Android APK page of the human-machine interface unit, and the cloud data processing unit modifying and updating the sensing data of the packet content, and transmitting the content of the packet The Ethernet interface or the Wi-Fi network interface is connected to the cloud network database; when the received sensing data exceeds the preset range, the Android wireless sensing network monitoring platform is based on the email. The e-mail address and/or mobile phone number set by the processing unit or/and the SMS processing unit, through the Ethernet E-mail or / and SMS to the default e-mail or / and SMS recipient's mobile phone via the Ethernet interface or Wi-Fi network interface or / and mobile communication interface; and the monitor can also use the Ethernet network The Ethernet interface or the Wi-Fi network interface or/and the mobile communication interface is connected to the cloud network database to query the sensing data at any time.

The Android cloud wireless sensing network monitoring system as described above, wherein the wireless sensor is at least one of a human body infrared sensor, a gas sensor, a temperature sensor, a humidity sensor or a seismic sensor. .

The advantages of the invention are:

1. The supervisor can use the Ethernet interface or the Wi-Fi network interface to walk the Internet or use the mobile phone to walk through the mobile communication interface to connect to the cloud network database and send and receive urgent mail or short. The newsletter, without the supervisor, has been staying beside the monitoring platform for monitoring work, so it can greatly provide the freedom of the monitor's range of activities.

2. As long as you have any Internet or mobile communication (2G, 3G, 3.5G, 4G) telecommunication network, you can monitor the wireless sensing network to achieve cross-network monitoring, especially mobile communication. The Internet access function can greatly enhance the ability of the monitoring platform to be built in an open area or where the wired network cannot reach.

3. The wireless sensing network unit receives the sensing signal, and the sensing signal passes through the micro After being processed by the cloud data processing unit of the control unit, it is sent to the cloud network database for storage. The monitor can connect to the cloud network database through an Ethernet interface or a Wi-Fi network interface or a mobile communication interface. , check the current monitoring status at any time.

(1)‧‧‧Micro Control Unit

(11)‧‧‧Wireless sensing network unit

(12) ‧‧‧Cloud Data Processing Unit

(13)‧‧‧Email Processing Unit

(14)‧‧‧News processing unit

(2) ‧‧‧Ethernet interface

(3) ‧‧‧Wi-Fi network interface

(4) ‧‧‧Mobile communication interface

(5) ‧‧‧Human Machine Interface Unit

(6) ‧‧‧Alarm devices

(7)‧‧‧Wireless sensor

(8) ‧‧‧Cloud Network Database

(A)‧‧‧Android Cloud Wireless Sensing Network Monitoring Platform

The first figure: schematic diagram of the Android cloud wireless sensing network monitoring platform of the present invention

Second figure: hardware architecture diagram of the Android cloud wireless sensing network monitoring platform of the present invention

The third figure: the software design architecture diagram of the Android cloud wireless sensing network monitoring platform of the present invention

The fourth figure: the Android APK program architecture diagram of the present invention

The fifth picture: the architecture of the Android cloud wireless sensing network monitoring system constructed by the Android cloud wireless sensing network monitoring station

The sixth figure: the use state reference map of the Android cloud wireless sensing network monitoring platform of the present invention

In order to make the technical content, the purpose of the invention and the effects achieved by the invention have For a more complete and clear disclosure, please provide details below, and please refer to the drawings and drawings:

Please refer to the first figure and the second figure, which are schematic diagrams of the Android cloud wireless sensing network monitoring platform and the hardware architecture diagram of the present invention. The Android cloud wireless sensing network monitoring platform of the present invention includes: The micro control unit (1), an Ethernet interface (2), a Wi-Fi network interface (3), a mobile communication interface (4), and a human-machine interface unit (5).

The micro control unit (1) is configured to execute an input and output resident control program and a web server; the micro control unit (1) comprises: a wireless sensing network unit (WSN) (11), cloud data processing The unit (12), the email processing unit (13) and the short message processing unit (14). among them:

The wireless sensing network unit (11) uses a UART interface to connect a coordinator device for connecting the wireless sensor (7) to obtain all wireless sensors on the wireless sensing network (7) Sensing the value, and dynamically updating the sensing value on the Android APK page of the human-machine interface unit (5); the wireless sensing network unit (11) establishes the SPI signal group based on the GPIO, and adopts MOSI, MISO, SCK and CSN communicate with the Coordinator wireless module.

The cloud data processing unit (12) is configured to modify and update each received wireless sensing network sensing data, and link the packet content to the cloud network database (8).

The email processing unit (13) is configured to manage the email address of the input recipient and the email content to be transmitted; the email address of the recipient and the email content to be transmitted can be separately input.

The short message processing unit (14) is configured to manage the mobile phone number of the incoming newsletter and the content of the short message to be transmitted; and can separately input the mobile phone number of the short message sender and the content of the short message to be transmitted.

The Ethernet interface (2) is electrically connected to the micro control unit (1), and the DM9000A Ethernet chip is used to connect the RJ-45 network connector to connect the monitoring platform to the Internet.

The Wi-Fi network interface (3) is electrically connected to the micro control unit (1) for connecting the monitoring platform to the access device of the Internet; the present invention provides an IEEE using a Wi-Fi network of the SDIO interface. The 802.11/a/b/g/n connection connects to the Wi-Fi Access Point to connect to the Internet.

The mobile communication interface (4) is electrically connected to the micro control unit (1), and the USB Dongle 3.5G network card is connected by a USB interface to connect the monitoring platform to the telecommunication system operator's mobile network.

The human-machine interface unit (5) is electrically connected to the micro-control unit (1), and provides an Android APK application for the user to operate the monitoring platform and display the sensing data; the human-machine interface unit (5) of the present invention is Use TFTLCD touch panel as the screen output and Android APK program G UI touch operation interface.

In addition, the micro control unit (1) is electrically connected to an alarm device (6), and the alarm device (6) includes at least one of a flashing light, a music playing, a buzzer, and a vibration motor.

In the overall development implementation, please refer to the third figure, which is the software design architecture diagram of the Android cloud wireless sensing network monitoring platform of the present invention, which can be divided into Linux Kernel Space layer, Android Framework layer and Android Application layer. Wait for 3 layers. Porting the Embedded Linux system to the embedded platform core version 2.6.33 and above, and then adding the Android 2.2/2.3 version of the Framework, you can develop the Android application on the embedded platform as the user interface for controlling the wireless sensing network. It can be used as a database connected to the cloud to put the monitored data on the cloud database server in SQL mode for the system administrator to monitor through the Internet connection.

Among them, in the underlying Linux Kernel Space layer, it is necessary to drive TCP/IP, UART, PPPD, Wi-Fi and Ethernet as the basic conditions for networking; in the middle layer of the Android Framework layer, you need to download Android from the Google website. The source code is compiled for Android 2.2 and above. The Android APK program architecture of the present invention, such as As shown in the four figures, the Android APK program architecture has eight main functions: Ethernet connection, 3G connection, 3G disconnection, WSN connection, Wi-Fi connection, SMS transmission, emergency call management and cloud connection. Subsequent corresponding actions are used to call the external program part, including the netcfg, pppd and iwconfig provided by the system to connect to the network; in addition, the Linux Server C program is compiled and compiled into the system, including mailsend.c and comtest. c, sms_3g.c and HTTPclient.c. among them:

(a), Ethernet Connecting: Since Ethernet is a wired Internet connection method, RJ-45 network routing materials are often used for connection. When the network route is connected, the user selects the connection Ethernet. At this time, the Server C program receives. To the connection request, send "netcfg ethO dhcp" to the system to obtain the IP and connect.

(b), 3G Connecting: Because 3G is a wireless Internet connection method, use USB Dongle to connect. When the network route is connected, the user selects 3G Connecting. At this time, the Server C program receives the connection request. The pppd dialer will be called for 3G connection.

(c), 3G Disconnecting: Performing disconnection of the 3G network.

(d) Wi-Fi Connecting: Wi-Fi For a wireless Internet connection, use the Wi-Fi network interface of the SDIO interface to connect to the Wi-Fi Access Point. When the network route is connected, the user selects Wi-Fi Connecting, and the Server C program. Receive a Wi-Fi connection request and place a call to the Linux system iwconfig to obtain Wi-Fi IP for connection.

(e), e-mail_Send: used to send e-mail test, can input the recipient's Email Address and the content of the e-mail to be transmitted separately. After completing the filling, press the Send button to electronically The email is sent out and an email is automatically sent when the system detects an abnormal condition.

(f), WSN Coordinator: a coordinator for connecting to the wireless sensing network to obtain the sensing value of the wireless sensing network, and the sensing value is updated every 3 seconds, and the obtained sensing value , will be displayed on the APK page, and has the ability to dynamically update the sensed value.

(g), Send SMS: used to send a SMS test, can separately input the SMS sender's mobile phone number and the content of the SMS to be transmitted, after filling out, press the Send button to send the SMS, and When the system detects an emergency, it will automatically send out a newsletter.

(h), SQL: The cloud network database can use the Wireshark network packet analysis software to capture the network packet and use the captured packet content as the base. Basically, it is written as the sub-program main_web, and integrated into the Linux Server C program. After that, the main_web sub-program will modify and update the sensing data of the WSN sensing value received every time, and link the contents of the package. The cloud network database allows the latest sensory data to be sent to the cloud network repository for storage.

In the implementation of the application, please refer to the first picture and the fifth picture together, which is an Android cloud wireless sensing network monitoring system constructed by the above platform; the system is set in a monitored area, which includes: a plurality of a wireless sensor (7), an Android cloud wireless sensing network monitoring platform (A) and a cloud network database (8); wherein: the plurality of wireless sensors (7) are used in the monitored area Detecting the environmental status and transmitting the sensing data transmission packet to the Android cloud wireless sensing network monitoring platform (A) at any time, and the wireless sensor (7) can be a human body infrared sensor, a gas sensor, At least one of a temperature sensor, a humidity sensor, or a seismic sensor. The wireless sensing network unit (11) of the Android cloud wireless sensing network monitoring platform (A) receives the sensing data of the plurality of wireless sensors (7), and dynamically updates the sensing value in the human-machine interface unit ( 5) on the Android APK page, and the cloud data processing unit (12) modifies and updates the sensing data of the packet content, and transmits the content of the packet through an Ethernet interface (2) or a Wi-Fi network interface. (3) Link the cloud network database (8), and send the packet content to the cloud network database (8) for storage; if the system detects a serious abnormal situation (such as excessive temperature, shaking or gas leakage) Time), when the received sensing data exceeds the preset range, Androi d wireless sensing network monitoring platform (A) will trigger the alarm device (6), with its flashing lights, buzzer (or music playback), vibration, etc., to inform the near-end monitor; (13) or / and the SMS// and mobile phone number set by the SMS processing unit (14) via the Ethernet interface (2) or Wi-Fi network interface (3) or / and action The communication interface (4) sends an email or/and a text message to a preset e-mail address or/and a recipient of the SMS recipient. When the system administrator receives the emergency newsletter or e-mail notification, the Android cloud wireless sensing can be known. The network monitoring platform (A) detects the abnormal condition of the wireless sensor (7), and can immediately go to the processing to make the correct disposal; and the monitor can also use the Ethernet interface (2) Or the Wi-Fi network interface (3) or / and the mobile communication interface (4) connected to the cloud network database (8) to query the sensing data at any time, as shown in the sixth figure, so that the system administrator does not need to be near The purpose of monitoring.

The invention transmits the information of the obtained sensing node to the micro control unit through the wireless sensor network unit. If the sensing value is abnormal, the system will automatically notify the monitoring personnel by means of e-mail or SMS transmission. Even a warning sound is issued to inform the monitoring personnel to go to the abnormal location for emergency treatment. Since the present invention can monitor continuously for 24 hours, and realizes the inter-network monitoring function connected to the sensing network through the Internet and the telecommunication network, the monitor can be placed in the wireless sensing network, As long as there is an Internet (Internet) and a telecommunications network (Telecom), you can know the current situation of the sensing network, the following appropriate operating instructions, that is, using the system administrator's mobile phone, tablet, table Or a laptop, all It can be used as a device for supervising the wireless sensing network. As long as it can connect to the Internet, it can receive the information sent from the remote end and the status of the location, making the monitoring method more efficient. In particular, the platform can be connected to a 3.5G telecommunications network, and the monitoring platform can be built in a place where the wired network (ADSL or Cable Modem) cannot reach, which enables the monitoring platform to have stronger location mobility and changeability. The advantage.

The invention can be further applied to the fields of agriculture, fishery, horticulture, factory automation and home security. For example, in agriculture and horticulture, continuous weather sensors can be continuously detected through a wide-ranging meteorological sensor, so that the meteorological information analysis system can predict the climate type, so that the agrometeorological information system can help farmers produce more. effectiveness. In the greenhouse environmental control system, the state of the greenhouse can be fully grasped through a detailed knowledge system to optimize agricultural and horticultural production without being affected by weather.

The above is only a part of the embodiments of the present invention, and is not intended to limit the present invention. It is intended to be included in the scope of the present invention.

In summary, the embodiments of the present invention can achieve the expected use efficiency, and the specific technical means disclosed therein have not been seen in similar products, nor have they been disclosed before the application, and have completely complied with the patent law. The regulations and requirements, the application for invention patents in accordance with the law, and the application for review, and the grant of patents, are truly sensible.

(1)‧‧‧Micro Control Unit

(11)‧‧‧Wireless sensing network unit

(12) ‧‧‧Cloud Data Processing Unit

(13)‧‧‧Email Processing Unit

(14)‧‧‧News processing unit

(2) ‧‧‧ Ethernet interface

(3) ‧‧‧Wi-Fi network interface

(4) ‧‧‧Mobile communication interface

(5) ‧‧‧Human Machine Interface Unit

(6) ‧‧‧Alarm devices

(7)‧‧‧Wireless sensor

(8) ‧‧‧Cloud Network Database

(A)‧‧‧Android Cloud Wireless Sensing Network Monitoring Platform

Claims (6)

An Android cloud wireless sensing network monitoring platform includes: a micro control unit for performing input and output resident control programs and a web server, comprising: a wireless sensing network unit, connected by a UART interface a coordinator device for connecting a coordinator of the wireless sensing network to obtain a sensing value of the wireless sensing network, and dynamically updating the sensing value on the Android APK page of the human-machine interface unit; the wireless sensing The network unit is based on GPIO, establishes the SPI signal group, and uses MOSI, MISO, SCK and CSN to communicate with the coordinator wireless module; the cloud data processing unit acts as the wireless sensing network that will be received every time. The sensing data is modified and updated, and the content of the packet is linked to the cloud network database; the email processing unit is configured to manage the email address of the input recipient and the content of the email to be transmitted; the short message processing unit is used to manage the input. Receiving the sender's mobile phone number and the content of the message to be transmitted; an Ethernet interface, electrically connected to the micro control unit to connect the monitoring platform to the network a Wi-Fi network interface, electrically connected to the micro control unit for connecting the monitoring platform to the access device of the Internet; a mobile communication interface electrically connected to the micro control unit for Connecting the monitoring platform to the telecommunications system operator; A human-machine interface unit is electrically connected to the micro-control unit, and provides an Android APK application for the user to operate the monitoring platform and display the sensing data; the software design architecture of the wireless sensing network unit monitoring platform can be divided into Linux 3 layers such as Kernel Space layer, Android Framework layer and Android Application layer; transplant Embedded Linux system to embedded platform core version 2.6.33 or above, and then join Android 2.2/2.3 or higher version of Framework, you can develop on embedded platform The Android application, as a user interface for controlling the wireless sensing network, can be used as a database connected to the cloud to put the monitored data on the cloud database server in SQL for the system administrator. In the underlying Linux Kernel Space layer, you need to drive TCP/IP, UART, PPPD, Wi-Fi and Ethernet as the basic conditions for networking; in the middle layer of the Android Framework layer, You need to download the Android source code from the Google website to compile the Android 2.2 and 2.3 versions. The Android APK program has Ethernet connection, 3G connection, 3G disconnection, WSN connection, Wi-Fi connection, SMS transmission, emergency call management and cloud connection The main function of the line; in the subsequent corresponding actions, there are calls to the external program part, including the netcfg, pppd and iwconfig provided by the system to connect to the network; and including self-developed mailsend.c, comtest.c, sms_3g.c and HTTPclient .c program; among them: (a), Ethernet: Because Ethernet is a wired Internet connection method, RJ-45 network route material is often used for connection. When the network route is connected, the user selects the connection Ethernet. At this time, the Server C program receives the connection request, sends the "netcfg ethO dhcp" to the system to obtain the IP, and connects; (b), connects the 3G: Because 3G is a wireless Internet connection, use USB Dongle makes a link. When the network route is connected, the user selects 3G Connecting. At this time, the Server C program receives the connection request, and then calls the pppd dialing program to perform 3G connection; (c), disconnection 3G: 3G Network disconnection execution; (d) Wi-Fi connection: Wi-Fi is a wireless Internet connection method that uses Wi-Fi network interface of SDIO interface to connect Wi-Fi access point When the network route is linked, it is selected by the user. Take Wi-Fi connection, at this time Server C program Receive a Wi-Fi connection request, send a call to the Linux system iwconfig to obtain Wi-Fi IP to connect; (e), e-mail_Send: used to send e-mail test, can input the receipt separately The email address of the person and the content of the email to be transmitted can be sent out after the completion of the filling and pressing the Send button, and the email will be automatically sent when the system detects an abnormal condition; ), the connection WSN: a coordinator for connecting to the wireless sensing network to obtain the sensing value of the wireless sensing network, and the sensing value is updated every 3 seconds, and the obtained sensing value, Will be displayed on the APK page, and has the function of dynamically updating the sensing value; (g), SMS sending (Send SMS): used to send the SMS test, can be separately input to the SMS sender's mobile phone number and want to transmit The content of the newsletter, after completing the filling, and pressing the Send button, the newsletter can be sent out, and the system will automatically send out a newsletter when the system detects an emergency; (h), cloud connection (SQL): cloud network The database can be analyzed by Wireshark network packet analysis software. Take the network packet, use the content of the captured packet as the basis, write the subroutine main_web, and integrate it into the Linux Server C program. After that, the main_web subroutine will send the WSN sensing value to each packet. Inside The sensing data of the content is modified and updated, and the content of the packet is linked to the cloud network database, so that the latest sensing data can be sent to the cloud network database for storage. The Android cloud wireless sensing network monitoring platform according to claim 1, wherein the micro control unit is connected to an alarm device. The Android cloud wireless sensing network monitoring platform according to claim 2, wherein the alarm device comprises at least one of a flashing light, a music playing, a buzzer, and a vibration motor. The Android cloud wireless sensing network monitoring platform according to claim 1, wherein the mobile communication interface comprises one of 2G, 3G, and 4G. An Android cloud wireless sensing network monitoring system constructed by using the platform described in any one of claims 1 to 4, the system is disposed in a monitored area, and includes: a plurality of wireless senses a wireless sensing network monitoring platform, wherein: the plurality of wireless sensors are used to detect an environmental state in the monitored area, and transmit the sensing data transmission packet to the wireless sensing network monitoring platform at any time. The wireless sensing network monitoring platform receives the sensing data of the plurality of wireless sensors, dynamically updates the sensing value on the Android APK page of the human-machine interface unit, and modifies and updates the sensing data of the packet content, and The content of the packet is linked to the cloud network database through the network interface, and the sensing data received by each of the plurality of wireless sensors exceeds a preset value. In the range, the wireless sensing network monitoring platform sends the short message to the default SMS receiver's mobile phone through the mobile communication interface, and/or the wireless sensing network monitoring platform sends the email to the default receiving through the network interface. The person's email address. The Android cloud wireless sensing network monitoring system according to claim 5, wherein the wireless sensor is a human body infrared sensor, a gas sensor, a temperature sensor, a humidity sensor or a seismic sense. At least one of the detectors.