TW201739210A - Setting control system for Internet of Things capable of conveniently establishing Internet of Things by ordinary users incapable of writing driving programs - Google Patents

Abstract

Provided is a setting control system for Internet of Things (IoT), which includes a communication setting subsystem. The communication setting subsystem is provided with a user interface that can be used to directly set the account/password for connection to a wireless communication equipment, the IP address of a server, and the identification data, and to actively write the account/password, the IP address, and the identification data into predetermined driving programs, respectively, which are then uploaded and installed into a sensing module through the monitoring equipment, so that the sensing module can be actively connected to the wireless communication equipment for reporting the sensing data to the server. With such a design, when the user intends to establish an Internet of Things, it is completely not necessary to write driving programs, so that it is convenient for the general public who cannot write programs to operate and to establish the Internet of Things by themselves, which is very convenient. Furthermore, the user can select the components of Internet of Things for the required functions by himself/herself without being restricted by the commercial standardized components.

Description

Internet of Things setting control system

The invention relates to an internet of things system, in particular to an internet of things setting control system.

IoT technology is the focus of science and technology development of the new generation. It is a key technology industry that is actively invested in the development of various countries. The components of the IoT architecture generally include smart appliances, sensors, servo hosts, mobile devices used by users, and signals. A wireless communication module that connects smart appliances, servos, sensors, and mobile devices. Although there are already products in the market that offer IoT system products, the IoT system architecture must be written and installed separately for smart appliances, sensors, servo hosts, wireless communication devices and mobile devices. When you need to write a program, you have to go to a professional manufacturer to install the architecture, and you can only use the matching design provided by the manufacturer. The general users can't choose the IoT accessories from the installation according to their own needs. Networked system.

Accordingly, it is an object of the present invention to provide an Internet of Things setting control system that facilitates the general user to set up an IoT system.

Therefore, the Internet of Things setting control system of the present invention is suitable for programmatic installation on a monitoring device. The monitoring device can be connected to a servo host signal via a wireless communication device and has an uploading platform for one sensor module to be installed. The Internet of Things setting control system comprises a communication setting subsystem capable of controlling the monitoring device to perform communication setting on the sensing module, so that the sensing module can be connected to the wireless communication device and wirelessly communicate with the servo host. The communication setting subsystem includes a communication setting module and a program uploading module. The communication setting module can display a user operation interface on the monitoring device, and the user operation interface can be configured to connect an account/password of the wireless communication device, an IP address of the server, and the transmission Identification data of the sensor module. The program uploading module has a plurality of drivers for controlling the operation of the sensor module, and a driver for controlling the sensor module to wirelessly communicate with the server via the wireless communication device. The uploading module can respectively write the account/password, the IP address and the identification data into the corresponding driver, and control the monitoring device to install the driver to the sensing module via the uploading platform.

The effect of the present invention is that when the user wants to set up the Internet of Things, there is no need to write a driver at all, and it is convenient for the general public operation without writing the program to set up the Internet of Things by itself, and only needs to perform basic operation in the user operation interface. The communication parameters are set, and it is convenient to select the sensing module and the controlled module of the required function according to the function of the Internet of Things to be established, and is no longer limited by the commercially available standard accessories.

Referring to Figures 1, 2, and 3, an embodiment of the Internet of Things setting control system 3 of the present invention is suitable for stylized installation and construction in a monitoring device 600, which can drive the monitoring device 600 to a plurality of sensing modules 700 and multiple receiving devices. The control module 702 respectively performs installation and setting of the IoT-related driver, so that the sensor module 700 and the controlled module 702 can be wirelessly linked to a wireless communication device 800, respectively, and can be accessed via the wireless communication device 800. Wirelessly communicating with a servo host 900 for data transmission, and the monitoring device 600 can be connected to the servo host 900 via the wireless communication device 800 to connect the sensing modules 700 to the control modules. Group 702 is monitored.

The monitoring device 600 can be a desktop computer, a notebook computer, a tablet computer, a smart phone, or other electronic device that can wirelessly connect the wireless communication device 800. The monitoring device 600 has a plurality of ports (not shown), and each port can be installed and connected to an uploading platform 601. Each of the uploading platforms 601 can be electrically connected to a monitoring module 55 or a controlled module 702. The monitoring device 600 can perform the installation of the Internet of Things related drivers on the sensing modules 700 and the controlled modules 702 via the uploading platforms 601.

Each of the sensing modules 700 includes a sensor 701 that senses ambient environmental parameters to output a sensing data, and a controller 701 for controlling the operation of the sensor 701 and can be linked to the wireless communication device 800 and the server. 900 wireless communication control chip unit 704, the sensor 701 may be a carbon monoxide sensor, a light sensor, a temperature and humidity sensor, a pressure sensor, a gas sensor or an access sensor device, etc., and The above types are limited. Each of the controlled modules 702 includes a driver 703 that can be driven to generate a specific functional action, and a control chip that controls the operation of the driver 703 and can be linked to the wireless communication device 800 for wireless communication with the servo host 900. Unit 704, the driver 703 may be a lighting device, an alarm, a display, an access control lock, or a switch of an electrical device, etc., and is not limited to the above types. In this embodiment, the control chip unit 704 of the sensing module 700 and the control chip unit 704 of the controlled module 702 are components of the same functional structure, and can be installed with different drivers to generate different functions. However, the implementation is not limited to this.

The wireless communication device 800 and the sensing module 700, the controlled module 702, the wireless communication technology used between the servo host 900 and the monitoring device 600, may be WIFI, Bluetooth, ZigBee, or other Medium and short range wireless communication technology is not limited to the above types.

The IoT setting control system 3 includes a communication setting subsystem 4 that enables the monitoring device 600 to program the sensing module 700 and the controlled modules 702, and a monitoring device 600 The sensing module 700 and the monitoring subsystem 5 of the controlled modules 702 can be monitored.

The communication setting subsystem 4 includes a communication setting module 41, a program uploading module 42, and a file creating module 43. The communication setting module 41 can display a user operation interface 411 on the screen of the monitoring device 600. The user operation interface 411 has a connection setting sub-interface 412, a servo host setting sub-interface 413, and an identity setting. The interface 414, a mode setting sub-interface 415, a pin setting sub-interface 416, and a port setting sub-interface 417. The sub-interfaces may be displayed on the user operation interface 411 at the same time, or may be displayed on the user operation interface 411 one by one.

The connection setting sub-interface 412 allows the user to input the account/password required to log in to the wireless communication device 800. The server host setting sub-interface 413 is configured to input and set an IP address of the server 900. The identity setting sub-interface 414 is operable to identify the identification data of the sensing module 700 or the controlled module 702 that is currently to be set. The mode setting sub-interface 415 can be configured for the function type of the sensing module 700 and the controlled module 702. The mode setting sub-interface 415 has an input mode setting and an output mode setting. To make a communication setting for the sensing type sensing module 700, the user must select the output mode setting. When the controlled setting of the controlled type of the control module 702 is to be performed, the user must select the input mode. set up.

The pin setting sub-interface 416 can be used to set each control chip unit 704 for each of the sensors 701 or the driver 703 to be connected. The port □ setting sub-interface 417 can be used to set the connection port of the uploading platform 601 installed by the sensing module 700 or the controlled module 702 currently set by the monitoring device 600. After the setting of the sub-interface is completed, the communication setting module 41 will display the data set by the sub-interfaces for confirmation by the user.

The file creation module 43 aggregates all settings of the communication setting module 41 after being confirmed by the user, and integrates the account/password, the IP address, the identification data, the pin data and the output mode setting to establish A sensing profile and summing the account/password, the IP address, the identification data, the pin data and the input mode setting to establish a controlled profile.

The program uploading module 42 has a plurality of drivers for being installed in the control chip units 704. The drivers can be used to control the control chip units 704 to control the operation of the respective sensors 701 or 703, respectively. And controlling the control chip unit 704 to log in to the wireless communication device 800 for communication and data transmission with the servo host 900. The program uploading module 42 respectively writes the account/password, IP address, identification data, pin data and the output mode setting set by the communication setting module 41 into the corresponding driver, and drives the monitoring. The device 600 transmits the drivers to the uploading platform 601 to which the connection setting module 41 is electrically connected, and uploads the drivers to the control chip of the electrically connected sensing module 700. The unit 704 enables the sensing module 700 to be logged into the wireless communication device 800 and wirelessly transmits the sensing data generated by the sensing to the servo host 900 via the wireless communication device 800. The program uploading module 42 respectively writes the account/password, IP address, identification data, pin data and the input mode setting set by the communication setting module 41 into the corresponding driver, and drives the monitoring. The device 600 uploads the control chip unit 704 installed in the controlled module 702 of the electrical connection via the uploading platform 601 installed on the corresponding port, so that the controlled module 702 can log in to the wireless communication device 800, and The control signal from the servo host 900 is accepted, and can be driven by the control signal to generate specific functional actions, such as lighting, warning, turning on or off the electrical device.

The monitoring subsystem 5 includes a meter building module 51, a signal source setting module 52, a servo host setting module 53, a linkage setting module 54, and a monitoring module 55.

The meter setting module 51 can display a meter monitoring interface 510 on the monitoring device 600, and a plurality of instruments (optional not shown) that can be selectively displayed on the meter monitoring interface 510 for outputting sensing data. And an instrument information file is created for the meter selected to be displayed on the meter monitoring interface 510. The meter monitoring interface 510 has an attribute setting sub-interface (not shown), and the attribute setting sub-interface is operable to display display attributes of the meter selected by the meter monitoring interface 510, such as size ratio, color, numerical unit and numerical value. The upper and lower limits are not limited to the above types of attributes. The style of the meters may be a pointer type meter, a digital type meter or an EQ (Equalizer) type meter, etc., and is not limited to the above types.

The signal source setting module 52 can display a signal source selection interface 520 in the monitoring device 600, and is triggered when the meter establishing module 51 is operated to display a new meter in the meter monitoring interface 510. Yes, all the sensing profiles established by the file creation module 43 can be displayed on the signal source selection interface 520 for selection, and the signal source setting module 52 will match the selected sensing profile with the meter. The meter information link is linked to enable the meter to display the sensing data of the sensing module 700 corresponding to the sensing profile.

The servo host setting module 53 can display an IP setting interface 530 for operating the setting of the IP address of the server 900 in the monitoring device 600.

The linkage setting module 54 can display a linkage setting interface 540 in the monitoring device 600, and can display all the controlled profiles established by the file creating module 43 and the meter establishing module in the linkage setting interface 540. 51 all the instrument information files established. The linkage setting module 54 can select the controlled profile when a meter information file is selected, and associate the selected one of the selected profile with the meter information file, and further, the linkage The setting interface 540 is further configured to set a linkage condition for the sensing profile linked to the meter information file, such as an upper or lower limit of temperature, an upper or lower limit of brightness, and the like, and a linkage action is set on the controlled profile, for example, Turn the power on or off.

The monitoring module 55 can capture the identification data in the sensing profile linked to each meter information file, and the identification data is carried in a request command, and the IP is set according to the servo host setting module 53. The address device drives the monitoring device 600 to connect the wireless communication device 800 to send the request command to the server host 900, so that the server host 900 returns the sensing data of the sensing module 700 corresponding to the identification data, and The sensing data returned by the servo host 900 is displayed on the corresponding meter for the user to view the sensing result of the sensing module 700. In addition, the monitoring module 55 also entrains the identification data of the controlled profile associated with the set associated instruction with the associated command when the sensing data displayed by the meter meets the corresponding linkage condition. Controlling the signal, and driving the monitoring device 600 to the servo host 900 via the wireless communication device 800, causing the servo host 900 to transmit the control signal to the controlled module 702 corresponding to the identification data, so that the controlled The module 702 can be driven by the control signal to generate a corresponding linkage action.

When the Internet of Things setting control system 3 of the present invention is used, the user can install the sensing module 700 to be used on the uploading platform 601 of the monitoring device 600, and activate the communication setting subsystem 4 according to the user operation interface. The content displayed in 411 is input to the account/password registered in the wireless communication device 800, the IP address of the server 900, the identification data of the sensor module 700, and the position of the control chip unit 704 for the sensor 701 to be installed. And selecting the output mode setting, and then selecting the location of the connection platform where the uploading platform 601 is located. After the setting is completed, the program uploading module 42 will actively write the settings into the corresponding driver, and install through the installation. The control chip unit 704 installed in the sensing module 700 is uploaded to the uploading platform 601 of the corresponding port. At the same time, the file creation module 43 also aggregates the settings of the communication setting module 41 to establish a sensing profile corresponding to the sensing module 700.

According to the same manner as described above, the network configuration of each of the controlled modules 702 can be separately performed, and details are not described herein. After the sensor module 700 and the controlled modules 702 complete the communication settings, the sensor modules 700 can be disposed at the place to be monitored, and the controlled modules 702 are respectively They are disposed at the place where the warning is to be performed, or the drivers 703 of the controlled modules 702 are electrically connected to the electrical equipment to be controlled, respectively. The sensing module 700 will actively log in to the wireless communication device 800 and transmit the sensing data to the server 900. The server 900 stores the sensing according to the identification data of each sensing module 700. data. The controlled modules 702 are automatically connected to the wireless communication device 800 and connected to the servo host 900 to wait for being driven.

After the communication settings of the sensing module 700 and the controlled modules 702 are completed, the monitoring subsystem 5 can be activated, and the user can set the IP address of the servo host 900, and can be used for each sensing module. The group 700 is provided with a meter in an instrument monitoring interface 510, or a plurality of meters respectively for displaying the sensing data of the sensing modules 700 in a meter monitoring interface 510. In addition, the controlled module 702 to be linked may be separately set for each meter, and the linkage condition and the linkage action may be set.

The monitoring module 55 drives the monitoring device 600 to connect the servo host 900 to request the servo host 900 to transmit the sensing data of the sensing module 700 corresponding to each meter, and drive the meters to display corresponding signals. Sensing the data, and driving the servo host 900 to transmit the control signal to the linker via the wireless communication device 800 when the sensed data displayed by the meter associated with the controlled module 702 is in accordance with the respective linkage condition The controlled module 702 causes the controlled module 702 to generate a set interlocking action.

In summary, through the design of the communication setting subsystem 4 and the monitoring subsystem 5, when the user wants to set up the Internet of Things, there is no need to write a driver at all, and only the user operation interface 411 is required to perform basic operations. The communication parameter setting unit 4 actively applies the communication parameter settings to the relevant driver program, and uploads and installs the sensor module 700 to the control module 702. The sensor monitoring interface 510, the signal source selection interface 520, the IP setting interface 530, and the linkage setting interface 540 are designed to facilitate the user to operate and display the sensing module 700. The instrument for sensing data, and the operation setting each meter display the controlled module 702 to be linked. Therefore, through the above design, the Internet of Things setting control system 3 of the present invention can conveniently set up the Internet of Things by itself without using the general public operation of the program, and can conveniently select the desired function according to the function of the Internet of Things to be established. The sensing module 700 and the controlled module 702 are not necessarily limited to commercially available accessories, and are quite convenient and practical, and can indeed achieve the object of the present invention.

However, the above is only the embodiment of the present invention, and the scope of the invention is not limited thereto, and all the simple equivalent changes and modifications according to the scope of the patent application and the patent specification of the present invention are still Within the scope of the invention patent.

3‧‧‧Internet of Things Setting Control System
4‧‧‧Communication setting subsystem
41‧‧‧Communication setting module
411‧‧‧User interface
412‧‧‧Connection setting sub-interface
413‧‧‧Servo host setting sub-interface
414‧‧‧ Identity setting sub-interface
415‧‧‧Mode setting sub-interface
416‧‧‧ Pin setting sub-interface
417‧‧‧Connect 埠Set subinterface
42‧‧‧Program upload module
43‧‧‧File Creation Module
5‧‧‧Monitoring subsystem
51‧‧‧Instrument Creation Module
510‧‧‧Instrument Monitoring Interface
511‧‧‧Attribute setting sub-interface
52‧‧‧Signal source setting module
520‧‧‧Source source selection interface
53‧‧‧Servo host setting module
530‧‧‧IP setting interface
54‧‧‧ linkage setting module
540‧‧‧ linkage setting interface
55‧‧‧Monitoring module
600‧‧‧Monitoring equipment
601‧‧‧ upload platform
700‧‧‧Sensor module
701‧‧‧ sensor
702‧‧‧Controlled module
703‧‧‧ drive
704‧‧‧Control wafer unit
800‧‧‧Wireless communication equipment
900‧‧‧Servo host

Other features and advantages of the present invention will be apparent from the embodiments of the present invention. FIG. 1 is a schematic structural diagram of an embodiment of the Internet of Things setting control system of the present invention; FIG. 2 is a function of the embodiment. FIG. 3 is a schematic diagram of a monitoring device installed in the embodiment for programming a sensing module and a controlled module.

3‧‧‧Internet of Things Setting Control System

4‧‧‧Communication setting subsystem

41‧‧‧Communication setting module

411‧‧‧User interface

412‧‧‧Connection setting sub-interface

413‧‧‧Servo host setting sub-interface

414‧‧‧ Identity setting sub-interface

415‧‧‧Mode setting sub-interface

5‧‧‧Monitoring subsystem

51‧‧‧Instrument Creation Module

510‧‧‧Instrument Monitoring Interface

511‧‧‧Attribute setting sub-interface

52‧‧‧Signal source setting module

520‧‧‧Source source selection interface

53‧‧‧Servo host setting module

530‧‧‧IP setting interface

416‧‧‧ Pin setting sub-interface

417‧‧‧Connect 埠Set subinterface

42‧‧‧Program upload module

43‧‧‧File Creation Module

54‧‧‧ linkage setting module

540‧‧‧ linkage setting interface

55‧‧‧Monitoring module

Claims (10)

An Internet of Things setting control system is suitable for programmatic installation on a monitoring device, which can be connected to a servo host signal via a wireless communication device and has an uploading platform for a sensing module to be installed. The Internet of Things setting control system comprises a communication setting subsystem capable of controlling the monitoring device to perform communication setting on the sensing module, so that the sensing module can be connected to the wireless communication device and wirelessly communicate with the servo host, the communication The setting subsystem includes: a communication setting module, wherein a user operation interface is displayed on the monitoring device, and the user operation interface is operable to set an account/password of the wireless communication device and an IP of the server The address and the identification data of the sensing module; and a program uploading module having a plurality of built-in modules for controlling the operation of the sensing module and for controlling the sensing module via the wireless a communication device and a driver for wireless communication with the server host, the program uploading module can associate the account/password, the IP address, and the Do not write data respectively corresponding to the driver, and controls the monitoring device attached to the sensor module via the internet, etc. The driver uploads. The IoT setting control system according to claim 1, wherein the sensing module has a sensor, and a control chip unit for wirelessly communicating with the wireless communication device and controlling the sensor, wherein the user operates The interface further has a pin setting sub-interface for operating the pad data for the control chip unit to be electrically connected to the sensor, and the program uploading module can use the account/password, the IP address, the identification data and the The pin data is respectively written into the corresponding driver and installed on the control chip unit via the upload platform. The IoT setting control system of claim 1, wherein the communication setting subsystem further comprises a file creation module, wherein the file creation module can collect the setting of the communication setting module for the sensing module The account/password, the IP address and the identification data are used to establish a sensing profile corresponding to the sensing module. The IoT setting control system according to claim 3, further comprising a monitoring subsystem, the monitoring subsystem comprising a meter building module, a signal source setting module, a servo host setting module, and a monitoring module The meter building module has a plurality of instruments that can be selected to output sensing data, and has a meter monitoring interface displayed on the monitoring device for displaying the selected meter, the signal source setting module Displaying all the sensing profiles established by the file creation module, and connecting a selected sensing profile to the instrument selected to be displayed on the instrument monitoring interface, the servo host setting module is available The operating terminal sets an IP address of the servo host, and the monitoring module can transmit a request instruction for the identification data with the selected sensing profile to the server corresponding to the IP address, and the servo can be The sensing data that the host should request the command back is displayed on the meter. The IoT setting control system described in claim 4, the uploading platform is also available for installation by a controlled module, wherein the program uploading module has a plurality of built-in modules for controlling the operation of the controlled module. And a driver for controlling the controlled module to wirelessly communicate with the server via the wireless communication device, the program uploading module can respectively write the account/password, the IP address and the identification data into corresponding And driving the monitoring device to install the driver to the controlled module via the uploading platform, wherein the communication setting module has an input mode setting that can be displayed on the user operation interface for selection And an output mode setting, the program uploading module can write the selected output mode setting to the corresponding driver and install the driving module, so that the sensing module can connect the wireless communication device to The servo host sends the sensing data generated by the sensing, and the program uploading module can write the selected input mode setting to the corresponding driver and install the controlled mode module to enable the controlled The module can wirelessly receive the control signal transmitted by the servo host via the wireless communication device and control and start a specific function. The IoT setting control system according to claim 5, wherein the controlled module has a driver, and a control chip unit for wirelessly communicating with the wireless communication device and controlling the driver, wherein the user operates The interface further has a pin setting sub-interface for operating the pad data for the control chip unit to be electrically connected to the driver, and the program uploading module can use the account/password, the IP address, the identification data and the The pin data is respectively written into the corresponding driver and installed on the control chip unit via the upload platform. The Internet of Things setting control system of claim 5, wherein the file creation module can further collect the account/password, the IP address and the identification data set by the communication setting module for the controlled module. To establish a controlled profile corresponding to the controlled module. The IoT setting control system according to claim 7, wherein the meter establishing module establishes a meter information file for each meter connected to one sensing profile, and the monitoring subsystem further comprises a linkage setting module. The linkage setting module can display a linkage setting interface on the monitoring device, and display all the instrument information files established by the meter establishing module in the linkage setting interface, and all controlled profiles established by the file creation module. Optionally, operable to set a linkage condition for the selected one of the meter information files, and to select at least one controlled profile to be linked for the meter information file of the set linkage condition, and for selecting the selected profile The controlled profile of the linkage is configured to perform an interlocking action, and the monitoring module can enclose the identification profile of the controlled profile of the meter when the sensed data displayed by the meter meets the respective linkage condition And a control signal for controlling a controlled module corresponding to the controlled profile to generate a corresponding linkage motion, and The monitoring device transmits to the server host via the wireless communication device the control signal. The Internet of Things setting control system of claim 4, wherein the meter monitoring interface has an attribute setting sub-interface for adjusting display attributes of the meter selected by the setting. The IoT setting control system according to claim 1 or 5, wherein the monitoring device has a plurality of ports respectively connectable to an uploading platform, wherein the user operating interface further comprises a port for displaying the ports. For the user to select the set connection interface, the program upload module will drive the monitoring device to output the drivers to the uploading platform via the selected connection.