KR20130011261A - Method of providing environmental monitoring service by using servers on the internet - Google Patents

Abstract

PURPOSE: An environment monitoring service method with an Internet server is provided to supply a service for using and monitoring an environment variable at a low cost through a program based on the Internet and a server of a business operator when a user installs sensors in an interesting space. CONSTITUTION: An AP(Access Point)(11) and a sensor node(12) are installed in an interesting space(10) of a user. The AP and the sensor node are connected through a wireless communication protocol such as a Zigbee protocol or a Bluetooth protocol. The sensor node includes various kinds of sensors. The AP processes data such as an environment variable transmitted from the sensor node. The AP transmits the processed data to an business operator server(30) in the Internet through an LAN(Local Area Network)(13). [Reference numerals] (AA) Internet

Description

Method of providing environmental monitoring service by using servers on the Internet}

The present invention relates to a service that allows a service provider to easily and inexpensively monitor and utilize environmental variables through a user's server and an Internet-based program if the user simply installs the sensors in the ROI.

Currently, technologies for monitoring the environment using sensors are being diversified, and the necessity is increasing day by day. An example thereof is given below.

Agriculture: In agriculture, the management of environmental variables is very important and the first step is the monitoring of environmental variables. Since agricultural facilities are often quite large, the installation of environmental monitoring systems should be simple and scalability is also important.

Multi-personal facilities : Multi-personal facilities such as large retail stores, airports, history, and public offices are difficult to cooperate due to the large size and the constant flow of many people. In particular, in order to pursue comfort while maintaining the appropriate indoor temperature in summer and winter, it is essential to accurately grasp the environmental variables in various places in real time in real time. Therefore, it is necessary to establish an environmental monitoring system that can accurately grasp environmental variables in real time and operate an air conditioning system based on them, while maintaining comfort and minimizing energy use.

Education, nursing care, hospitals, accommodations, etc .: In facilities such as schools, nursing homes, hospitals, and hotels that need to deal with young students and their parents, senior citizens, and demanding guests, identify environmental variables accurately and in real time and take appropriate action. It is important to take This is essential for the health and well-being of the users of the facility.

Home: Environmental monitoring is very useful for improving family health and saving energy. Thermometers and hygrometers can be used to help family members who are sensitive to changes in temperature and humidity, such as young children and the elderly, to stay in a comfortable environment, but they cannot always be seen. In addition, the set temperature of the heating device and air conditioner is different from the actual temperature, so it is not entirely reliable. Therefore, there is a need for an environmental monitoring system that can check environment variables in real time and automatically notify users when temperature and humidity are outside the set range.

Leisure facilities, national parks, amusement parks, etc .: For facilities where most of the action takes place outdoors, data such as real-time temperature and humidity are more accurate than approximate weather forecasts for the area. For example, environmental data (temperature, humidity, etc.), such as the Seoraksan Ticket Office, xx Golf Course Start House, and the Everland Safari Entrance, and their trends, help specific guests how to prepare their clothes before departure. . Therefore, there is a need for an environmental monitoring system that can check environment variables in real time and provide them to interested people in the form of web sites or mobile apps.

In this case, in order to collect environmental variables (data) such as temperature and humidity using sensors, and to use this data conveniently, it requires a high level of understanding of various fields of technology and preparation of hardware and software. This is accompanied by As a result, it is almost impossible for ordinary users to monitor and utilize environment variables easily and inexpensively.

On the other hand, environmental monitoring systems using sensors are often difficult to install. That is, when constructing an environmental monitoring system using a sensor, data cabling from the location where the sensor is installed to the control room or a computer located in the middle is essential. Therefore, power and data cables must be prepared in pairs wherever the sensor is located. This is not a big problem when building a new facility, but it is very cumbersome when installing sensors in an existing facility. In addition, the serial communication method used by the sensors is difficult to use by the general public, so it is necessary to obtain the help of a professional, and there is a problem of using devices other than computers.

The present invention has been proposed to solve the above problems, the operator can easily and cheaply monitor and utilize the environmental variables through the user's server and Internet-based program if the user simply install the sensors in the space of interest Its purpose is to provide a way of service.

According to an aspect of the present invention,

A user computer accessing an operator server, creating an account of the user, and registering settings of APs and sensor nodes connected to the APs in the ROI;

Displaying, by the operator server, data collected by each sensor node;

We propose an environmental monitoring service method using a server on the Internet including a.

According to the present invention, the following advantageous effects occur.

Easy to install: Local Area Network (LAN) connected to the Internet (hereinafter referred to as 'LAN' for convenience of explanation) and Access Point (AP) wherever there is power. By connecting the 'AP' for convenience, users can easily prepare a sensor network. When the sensor node is placed in the ROI in the wireless communication area of the AP and the power is connected, the environmental information of the ROI starts to be transmitted to the operator server. All subsequent sensor nodes need to be installed in the same procedure. One of the characteristics of Zigbee is that the size of the network is extended by ad-hoc communication between sensor nodes, so the range of the sensor network becomes larger each time one sensor node is added. Therefore, the number of APs required for environmental monitoring in contiguous areas can be minimized.

Convenience of data management: According to the present invention, when a user locates a sensor node in a space of interest and connects power, data is simultaneously transmitted to an operator server located on the Internet. Thus, users do not have to physically connect the sensor system to a computer in the field, nor do they need to configure a database to store the collected data. The user just logs in to the operator's server and uses the data sent by the sensor nodes installed in his / her account. The user can also reconfigure the data to be easy to view using the tools of the web site provided by the operator's server. User access to the operator server can be configured in various ways such as web, mobile web, mobile apps, SMS, and if necessary, the operator server may provide data to other legacy systems.

Ease of expansion: If the user wants to extend the monitoring range or increase the density of the sensor, simply install more sensor nodes. If you want to install the sensor node in the position beyond the already installed AP, you can install the sensor node after installing the AP in a new position. In the present invention, since the operator server and the program are made with a large number of sensor nodes in mind, there is no need to modify the program for the purpose of increasing the size, but only a process of registering the sensor nodes added to the existing monitoring range is necessary. .

1 is a system configuration for the implementation of a preferred embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 shows a system configuration for the implementation of a preferred embodiment of the present invention.

According to a preferred embodiment of the present invention, hardware installed in the user's space of interest 10 is largely divided into an AP 11 and a sensor node 12. Here, the 'interest space' refers to a target space where the user wants to monitor data such as environmental variables. For example, a multi-guest facility such as an agricultural facility, a large retail store or an airport, a history, a public office, a school, Facilities such as nursing homes, hospitals, hotels, homes, other leisure facilities, national parks, amusement parks, and the like may all be applicable.

In the ROI 10, the AP 11 and the sensor node 12 are connected by a wireless communication protocol such as Zigbee or Bluetooth. The power source and the LAN 13 are connected to the AP 11. When a power source is connected to the AP 11, a wireless communication area is formed around the AP 11. When the sensor node 12 is installed in the area, communication between the AP 11 and the sensor node 12 is started. The sensor node 12 starts by connecting only a power source, and may be driven by a battery if necessary.

The sensor node 12 may be equipped with several different types of sensors. Although there is no limit to the type of sensor that can be installed, the temperature and humidity sensor, the carbon dioxide (CO2) sensor, the volatile organic compound (VOC) sensor, and the like are typical examples. ) Can be configured to receive. The sensor node 12 wirelessly transmits the collected data to the AP 11.

The AP 11 processes data such as environmental variables transmitted from the sensor node 12 as necessary and transmits the data to the operator server 30 located on the Internet through the LAN 13. In the present invention, the term "business operator" is a person who works to provide the user with the monitored environment variable (data) of the space of interest 10 through the server 30. In addition, the 'user' is a user who uses a service provided by an operator through the operator server 30.

According to a preferred embodiment of the present invention, the operator server 30 is a middleware for securing the stability of the entire sensor network, a database server for storing data sent by the AP 11 and a web server for easily utilizing the data on the Internet. It may be configured as.

On the other hand, in order to collect environmental variables (data) such as temperature and humidity using sensors, and to conveniently use the data, it is necessary to have a high level of understanding of technologies in various fields and to prepare hardware and software. This entails a considerable cost burden. As a result, it is almost impossible for ordinary users to monitor and utilize environment variables easily and inexpensively.

In addition, environmental monitoring systems using sensors are often difficult to install. That is, when constructing an environmental monitoring system using a sensor, data cabling from the location where the sensor is installed to the control room or a computer located in the middle is essential. Therefore, power and data cables must be prepared in pairs wherever the sensor is located. This is not a big problem when building a new facility, but it is very cumbersome when installing sensors in an existing facility. In addition, the serial communication method used by the sensors is difficult to use by the general public, so it is necessary to obtain the help of a professional, and there is a problem of using devices other than computers.

Accordingly, an object of the present invention is to provide a service that allows a service provider to easily and inexpensively monitor and utilize environmental variables through a user's server and an Internet-based program, if the user simply installs the sensors in the ROI. In order to achieve the above object, the present invention includes the steps of: a user computer accessing an operator server, creating an account of the user, and registering settings of an AP and a sensor node connected to the AP; And displaying, by the operator server, data collected by each sensor node. Hereinafter will be described in detail step by step the process of the present invention is implemented.

Step 1:  The user's computer connects to the operator's server, creates his account, and installs it AP  And associated with the AP Of sensor node  Steps to Register Settings

This step may be implemented in the same manner as in the embodiment described below.

First, the user, that is, the user computer 20 accesses the operator server 30 to create his own account and enters the setup page of the operator server 30 using the generated account to add the hardware ID of the AP 11. do. That is, the user accesses the operator's website (server) using his computer 20, creates his own account, and enters the setup page of the operator's website using the created account. 11) to add the hardware ID. Then, the user connects the power source and the LAN 13 to the AP 11 in the space of interest 10, locates the sensor nodes 12 at a short distance, and connects the power.

Here, the user computer 20 is a means for the user to access the operator server 30, but may be a computer in the form of a desktop, but is not limited thereto. Notebook, PDA (Personal Digital Assistant), PCS (Personal Communication System) ), Smartphones, etc. may all correspond to this.

Next, when the user switches the AP 11 to the setting mode, the AP 11 transmits the IDs of the sensor nodes 12 sensed to the operator server 30 at regular intervals, and at the same time, the operator server 30. Performs polling for the AP and applies it to the AP 11 if there is a change in the settings stored in the operator server 30.

The AP 11 is divided into a setting mode and a service mode, and a change between the two modes is possible by a switch exposed to the outside of the hardware. In the setting mode, the AP 11 does not transmit the data collected by the sensor nodes 12, and transmits only the IDs of the sensor nodes 12 sensed to the operator server 30 in a short period of about 15 seconds. At the same time by performing a poll for the operator server 30, if there is a change in the settings stored in the operator server 30 is applied to the AP (11). When the service mode is entered, the AP 11 transmits data collected by the sensor node 12 to the operator server 30 at a set cycle.

That is, the AP 11 periodically updates the operator server 30 in the setting mode, and the result is reflected in the setting page of the operator server 30. In this case, since the update period of the operator server 30 is not long, the user does not have to wait a long time. The setup page of the operator server 30 displays the ID of the AP 11 and the IDs of the sensor nodes 12 located around the AP 11. The user (user computer 20) indicates that for each sensor node 12 to connect to the corresponding AP 11.

Next, the user computer 20 (user) assigns a distinguishable name to each sensor node 12, updates the sensing period of each sensor node 12 and the operator server 30 of the AP 11. Complete the setting for the cycle.

Then, the user installs each sensor node 12 in the ROI 10 located in the wireless communication area of the AP 11. Then check that all sensor nodes 12 are displayed on the setting page. If there is a sensor node 12 that is not displayed, the position is corrected. By performing the first to third steps in the same manner for the other APs 11, the sensor network setting for the entire ROI 10 can be easily completed.

2nd step:  Operator server each Sensor node  Steps to Display Collected Data

This step may be implemented in the same manner as in the embodiment described below.

That is, when the user changes the AP 11 to the service mode, the AP 11 displays the data collected by each sensor node 12 on the monitoring page of the operator server 30. By checking the data displayed on the operator server 30, the user can accurately monitor the environmental state of the ROI 10 in real time.

As described above, according to the present invention, the user can easily prepare one sensor network by connecting the AP 11 wherever there is a LAN 13 and a power source connected to the Internet. In addition, when the user locates the sensor node 12 in the space of interest 10 and connects the power, the data starts to be transmitted to the operator server 30 located on the Internet. There is no need to connect and do not need to separately configure a database for storing the collected data, just log in to the operator server 30 to view and use the data sent by the sensor nodes 12 installed in their account (Site) Just do it. Therefore, according to the present invention, various users can easily and cheaply monitor and utilize environment variables for each of various interest spaces simultaneously.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10: space of interest 11: AP
12 sensor node 13 LAN
20: User Computer 30: Operator Server

Claims (1)

A user computer accessing an operator server, creating an account of the user, and registering settings of APs and sensor nodes connected to the APs in the ROI;
Displaying, by the operator server, data collected by each sensor node;
Environmental monitoring service method using a server on the Internet comprising a.

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