KR20120114805A - System for providing environment information - Google Patents

Abstract

PURPOSE: An environment information providing system with a sensor node is provided to deliver environment information to a user by using a Wi-Fi communication mode based on a wireless LAN without an existing Bluetooth mode or a Zigbee mode. CONSTITUTION: A plurality of sensor nodes(100) obtain environment information. The sensor nodes transmit the environment information. An AP(Access Point)(200) forms a wireless sensor network with the sensor nodes. The AP relays the environment information. A portable device(300) receives the environment information from the AP. The portable device provides the environment information to a user. [Reference numerals] (110) Sensor module; (120) Control module; (130) Communication module; (140) Clock module; (150) Power supply module; (160) Display module; (200) Access point

Description

System for providing environment information using sensor node {System for providing environment information}

The present invention relates to a system for providing environmental information using a sensor node, and more particularly, to provide environmental information for transmitting environmental information such as dust concentration, temperature, or humidity in a room to a user in real time using a Wi-Fi communication method. It's about the system.

Recently, as the importance of indoor and outdoor environments increases, the demand for monitoring indoor environmental variables such as temperature or humidity in museums, government offices, office buildings, or schools is increasing. In line with this, technology development for surveillance systems using wireless sensor networks is being actively carried out, and the products used are also on the market.

Meanwhile, representative wireless sensor networks include Wi-Fi using Zigbee, Bluetooth or WLAN. The existing wireless sensor network using Zigbee or Bluetooth requires a dedicated communication network, which is expensive to install, and requires professional installation and regular maintenance.

 Therefore, in the technical field to which the present invention belongs, it was required to develop a wireless LAN-based environmental information providing system having economical and practicality that can be easily installed and operated in a museum, a public office, an office building, or a school.

Accordingly, an object of the present invention is to provide a system for transmitting indoor or outdoor environmental information to a user using a Wi-Fi communication method, which is created to solve the problems as described above.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

An object of the present invention described above, the plurality of sensor nodes 100 to obtain the environmental information of the surroundings and to transmit the environmental information; An access point configured to configure a plurality of sensor nodes 100 and a wireless sensor network, and relay environment information; And a portable device 300 receiving environmental information from the access point 200 and providing environmental information to the user. The environmental information providing system using the sensor node may be achieved.

The environment information may be at least one of temperature information, humidity information, dust information, illuminance information, vibration information, and gas information.

In addition, the wireless sensor network is characterized in that using the Wi-Fi method.

In addition, the sensor node 100, the sensor module 110 for detecting the environmental information to generate a sensor value corresponding to the environmental information; A control module 120 for receiving a sensor value, calculating an average value, and maintaining the sensor node 100 in a low power state; And a communication module 130 for transmitting the average value to the access point 200 using the wireless sensor network.

In addition, the clock module 140 for providing a clock to the control module 120; And a power supply module 150 for supplying power to the sensor node 100.

The display module 160 may further display an alarm according to a preset value set based on the average value.

According to the present invention as described above, there is an effect that the environment information can be delivered to the user in real time by using the Wi-Fi communication method based on the wireless LAN without using the conventional Bluetooth or Zigbee method.

In addition, according to the present invention, it is easy to install, low installation cost, and easy to operate the wireless sensor network compared to the conventional Bluetooth or ZigBee method has an excellent economic efficiency and practicality.

The following drawings, which are attached to this specification, illustrate one preferred embodiment of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a block diagram showing the configuration of a system for providing environmental information using a sensor node according to the present invention.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. In addition, the embodiment described below does not unduly limit the content of the present invention described in the claims, and the entire structure described in this embodiment is not necessarily essential as the solution means of the present invention.

< Sensor node  Configuration of Environmental Information Providing System>

1 is a block diagram showing the configuration of a system for providing environmental information using a sensor node according to the present invention. As shown in FIG. 1, the system for providing environmental information using the sensor node according to the present invention may be constituted by a sensor node 100, an access pointer 200, and a portable device 300. Hereinafter, a configuration of an environment information providing system using a sensor node according to the present invention will be described in detail with reference to FIG. 1.

As shown in FIG. 1, the sensor node 100 according to the present invention detects indoor environment information in a building in which a wireless network such as a museum, a public office, an office building, or a school is constructed, and transmits the detected indoor environment information to the access pointer 200.

Here, the sensor node 100 is composed of approximately the sensor module 110, the control module 120, and the communication module 130, the clock module 140, the power module 150, or the display module 160. It is preferable to further provide as needed.

The sensor module 110 detects temperature information, humidity information, dust information, illuminance information, vibration information, or gas information, which is indoor environment information, and generates sensor values corresponding to the environment information. In this case, when the generated sensor value is directly input to the control module 120, it means a value that can be recognized by the control module 120. When the sensor value is analog, the control module 120 through an analog-digital converter. Is entered.

Meanwhile, a temperature sensor or a humidity sensor is required to detect temperature information or humidity information, which is environmental information, and a CdS sensor may be used to detect illumination information. However, the above-described indoor environmental information is not limited thereto, and various environmental information may be obtained as necessary, and it is obvious to have a sensor corresponding to the environmental information to be acquired.

The control module 120 receives the sensor value generated by the sensor module 110, calculates an average value, and outputs the calculated average value to the communication module 130, which will be described later. The average value calculated at this time is calculated using the section average or the moving average as necessary. The section average is input by a predetermined number (for example, 30) of sensor values for each environmental information, and the moving average is a moving average of a predetermined number with time. As an example of the moving average, when 30 sensor values are input, the 1st to 30th sensor values are averaged, and then the 2nd to 31st sensor values are averaged.

In addition, the control module 120 performs a function of turning on / off the power so that the sensor node 100 maintains a low power state for most of the time.

The control module 120 may transfer the environmental information to the user every 15 seconds by maintaining the clock by embedding the clock module 140 to be described later in the sensor node 100. In addition, by minimizing the data packet to be transmitted after the CRC-16 (Check Sum) error check, it is possible to transmit the environmental information to the user in a very short time. The control module 120 may be implemented using a digital circuit or an analog circuit, and sometimes it is preferable to use a CPU, MCU, DSP, or ASIC.

The communication module 130 transmits the average value for each environmental information output from the control module 120 to the access pointer 200 using a Wi-Fi communication method (eg, 802.11b / g), which is a wireless LAN.

The clock module 140 generates its own clock in the sensor node 100 and outputs the generated clock to the control module 120. The clock module 140 may be implemented using an oscillator or a crystal oscillator.

The power module 150 supplies power required for the sensor node 100 described above. However, the power module 150 for supplying power to the sensor node 100 may mainly increase portability using a battery. However, if necessary, the power supply module 150 may receive power from a power company or use a power source of a power company. You can also charge.

The display module 160 displays an alarm according to a preset value set based on the average value calculated by the control module 120. As an example, if the room temperature is too high, or if the dust concentration is higher than the predetermined value, an alarm is alerted to the user. In this case, the alarm may be notified by using a sound or may be notified to a user by using an LED or an LCD.

The above-described sensor node 100 may be provided in plurality, and the plurality of sensor nodes 100 transmit the environmental information obtained by being connected to the wireless sensor network to the access pointer 200 which will be described later.

The wireless sensor network is composed of low power sensor nodes having one or more sensors, a processor, a memory, a power supply, a communication device, or an actuator.

The access pointer 200 according to the present invention constitutes a plurality of sensor nodes 100 and a wireless sensor network, relays environmental information output from the sensor node 100 to a user, and preferably stores such environmental information. have. The access point 200 transmits all the sensor values for each environmental information output from the plurality of sensor nodes 100 to the portable device 300 or relays only the environmental information requested from the user among the input sensor values. Function

The portable device 300 according to the present invention provides the user with environmental information output from the access point 200. In addition, the portable device 300 may request the access pointer 200 for necessary environmental information. At this time, the portable device 300 is an electronic device capable of a Wi-Fi communication method such as a laptop computer, a mobile phone, an iPad, a Galaxy Tab, or a smartphone.

On the other hand, in order for the portable device 300 to provide environmental information to the user, a monitoring program should be provided. Therefore, in the case of a smartphone, an application may be used, and in the case of a notebook computer, a control program corresponding to the application may be used.

As mentioned above, although demonstrated with reference to one Embodiment of this invention, this invention is not limited to this, A various deformation | transformation and an application are possible. In other words, those skilled in the art can easily understand that many variations are possible without departing from the gist of the present invention.

100: sensor node
110: sensor module
120: control module
130: communication module
140: clock module
150: power supply module
160: display module
200: access point
300: portable device

Claims (6)

A plurality of sensor nodes 100 for obtaining environmental information of the surroundings and transmitting the environmental information;
An access point for constructing a wireless sensor network with the plurality of sensor nodes 100 and relaying the environmental information; And
And a portable device (300) for receiving the environmental information from the access point (200) and providing the environmental information to a user.
The method of claim 1,
The environmental information,
Environmental information providing system using a sensor node, characterized in that at least any one of temperature information, humidity information, dust information, illumination information, vibration information, and gas information.
The method of claim 1,
The wireless sensor network uses a Wi-Fi method, the environmental information providing system using a sensor node.
The method of claim 1,
The sensor node 100,
A sensor module 110 for detecting the environmental information and generating a sensor value corresponding to the environmental information;
A control module 120 for receiving the sensor value to calculate an average value and maintaining the sensor node 100 in a low power state; And
And a communication module (130) for transmitting the average value to the access point (200) using the wireless sensor network.
The method of claim 4, wherein
A clock module 140 for providing a clock to the control module 120; And
The power supply module 150 for supplying power to the sensor node 100; Environmental information providing system using a sensor node further comprising.
The method of claim 5, wherein
And a display module (160) for displaying an alarm in accordance with a preset value set based on the average value.

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