KR20130017994A - Wireless modem for monitoring in real time the water quality according to usn - Google Patents

Abstract

The present invention utilizes the advantages and disadvantages of each frequency band to transmit and receive distance and data transmission rate by using a frequency having three characteristics without restriction on the transmission and reception distance and data transmission rate for each frequency band by the management method for each frequency band in the Broadcasting and Communications Commission In the USN-based real-time water quality monitoring system, the integrated gateway is equipped with a USN-based wireless modem of TFB (Triple Frequency Band) to minimize the shadow area of the communication transmission according to the construction environment. The present invention relates to a wireless modem for providing a real-time water quality monitoring system.

Description

Wireless Modem for monitoring in real time the water quality according to USN}

The present invention relates to a wireless modem for providing a real-time water quality monitoring system based on the sun, more specifically, a real-time water quality monitoring for the sun to monitor the remote water quality in real time by combining the multi-item water quality measurement system and the ubiquitous sensor network The present invention relates to a wireless modem for providing a system.

At present, the environmental field, especially the water quality field, is periodically conducted at various points by using various types of sensors in order to provide clean drinking water to the people or to investigate the water environment for water and sewage sources.

Thus, samples collected at each point are transported to a place equipped with an experimental device such as a laboratory for analysis.

In other words, in order to collect data on environmental data, the user has to move directly to the measurement site every time with a measuring device. Also, to measure several items, various types of measuring devices used for each measurement item have to be used.

In addition, a lot of time and manpower are consumed in collecting and analyzing the measured data.

In order to improve this problem, separate measuring devices are automated or online by wire at each measuring point in some water treatment systems, and the measured data are delivered to the central system in a systematic manner.

However, since these systems use a wired system, the construction cost is excessive and the work of experts is required for the construction of a separate line construction, piping construction and measurement system. In addition, once installed, it is difficult to move it to another place or change and expand it.

The present invention is to solve the above problems, to provide a wireless modem for providing a UBS-based real-time water quality monitoring system for building a TFB-based wireless modem in the USN-based real-time water quality monitoring system. to be.

An object of the present invention described above, at least one integrated gateway for receiving and processing the water quality information data from the multi-item water quality measuring instrument to transmit to the integrated control means through the Internet network, and the water quality data information received from the integrated gateway In the USN-based real-time water quality monitoring system including an integrated control means for analyzing the water quality state using the multi-item water quality meter, and analyzing the water quality information according to the sensed depth to generate three-dimensional water quality information; The gateway is achieved by a wireless modem for providing a USS-based real-time water quality monitoring system, characterized in that the USN based wireless modem of TFB (Triple Frequency Band).

According to the present invention, the frequency band of the wireless modem is preferably any one of RF ZigBee 2.4GHz, 10mW, RF 424MHz, WCDMA 2.1GHz.

In addition, according to the present invention, the RF 424MHz has a communication distance of 1.5Km and communication is possible between two or three walls in the 1.5Km region, and it is preferable that the power supply is miniaturized to a single board.

In addition, according to the present invention, the RF ZigBee 2.4GHz is provided with 200 multi-carrier (200 Node) in the network configuration, it is desirable to have a fast communication speed of low power and easy expansion of the device by providing a router function.

In addition, according to the present invention, the WCDMA 2.1GHz has no communication shadow area in the region with the repeater, there is no limitation of the number of multi-carrier, the transmission speed is fast, it is preferable that the low power.

According to the present invention, the integrated gateway is a secondary sensor node, and the water quality data received from the water quality measuring means is processed into data for remote data transmission through a WCDMA or Internet network that is a sink node using a CDMA modem. In addition, it is preferable to check the transmission rate using the received signal strength (RSSI) and to output a warning sound when a problem occurs.

According to the wireless modem for providing the WNS-based real-time water quality monitoring system of the present invention, according to the management method for each frequency band in the Broadcasting and Communications Committee, the frequency band has three characteristics with no restriction on transmission / reception distance and data transmission rate for each frequency band. By utilizing the advantages and disadvantages of each frequency band, the transmission and reception distance and data transmission speed are improved to minimize the shadow area of communication transmission according to the construction environment.

1 is a view showing a USN-based real-time water quality monitoring system according to an embodiment of the present invention,
2 is a conceptual design diagram of a wireless modem for providing a WNS-based real-time water quality monitoring system of the present invention,
3 is an external configuration diagram of a wireless modem.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a USN-based real-time water quality monitoring system according to an embodiment of the present invention, Figure 2 is a conceptual design of a wireless modem for providing a WOS-based real-time water quality monitoring system of the present invention, Figure 3 is a wireless modem External configuration diagram.

As shown in FIG. 1, the USN-based real-time water quality monitoring system according to the present invention is installed in a certain range to collect various information of water quality using at least one sensor, and integrates the sensed water quality information data into an integrated gateway ( At least one water quality measuring means 100 for transmitting to the 200, water quality information data received from the water quality measuring means 100 for processing and transmitting to the integrated control means 400 through the Internet network 300 The water quality is analyzed using at least one integrated gateway 200 and the water quality data information received from the integrated gateway 200, and the water quality information according to the depth sensed by the water quality measuring means 100 is analyzed. It consists of integrated control means 400 for generating three-dimensional water quality information by analyzing, and outputs a warning sound when the water quality data allowance is exceeded On-site emergency dispatch means (500) to notify the SMS to check the pollution source on the site is included, and the web service is provided so that the general user 600 can check the water quality status on the web page through the Internet network 300 It includes a web server (not shown) for.

The water quality measuring means 100 is installed in a plurality of ranges for measuring the water quality to form a primary sensor node.

The network method of the water quality measuring means 100 is preferably a local area network in the form of RF ZigBee (RF ZigBee) to be configured as Non-IP-USN, all the local area communication that can transmit and receive data with Non-IP The method can be applied.

The water quality measuring means 100 transmits the water quality data through the sensor node capable of data transmission to be delivered to the integrated gateway 200.

Water quality monitoring system of the present invention can be divided into Non-IP-USN and IP-USN, the water quality measuring means 100 that is the primary sensor node 100 and the integrated gateway 200 that is the secondary sensor node is Non-IP- It consists of a USN, the Internet network 300 and the integrated control means 400 is composed of IP-USN.

Since the first and second sensor nodes form a non-IP-USN using a local area network, the cost of IP allocation is reduced, so that a plurality of water quality measuring means 100 can be installed even with a small budget.

The integrated gateway 200 is a secondary sensor node, receives the water quality data from the water quality measuring means 100 and uses the CDMA modem to connect the integrated control means 400 through the Internet network 300 including WCDMA. Transmit water quality data

The integrated control means 400 is a control room for the integrated management of water quality, may be composed of a data collection server (not shown) and a database server (not shown), received from the integrated gateway 200 A computer may be included to analyze the water quality data to determine the exact location of the source.

The USN-based water quality monitoring system includes the sensor node level 2, which is the water quality measuring means 100, and the integrated gateway 200, the sensor node level 1, which is the first stage layer, and the WCDMA or Internet. A sink node, which is the network 300, a wired / wireless network network, which is a fourth layer, and an integrated control means 400, which is a fifth layer, are formed in a hierarchical USN structure.

The integrated gateway 200 is composed of a wired and wireless network unit 210 and a communication control unit 250, RF ZigBee 2.4GHz, 10mW, RF 424MHz, WCDMA 2.1GHz, water quality data from the water quality measurement means 100 Receives and converts the data into a data for transmission of remote data to the Internet using a wireless modem and transmits it to the integrated control means 400, confirms the transmission rate using RSSI, and outputs a warning sound when a problem occurs.

The integrated gateway 200 may be applied to any RF scheme.

As shown in FIG. 2, the wireless modem uses RF ZigBee 2.4GHz, 10mW, RF 424MHz, and WCDMA 2.1GHz based on TFB (Triple Frequency Band).

In addition, as shown in FIG. 3, the frequency band can be selected and used by button selection.

An advantage of the RF 424MHz is that the communication distance is 1.5Km and communication is possible between two or three walls in a 1.5Km (10mW) dense area (wall blocking).

Also. Low Voltage It can be driven at 3.3V and is miniaturized as a single board.

On the other hand, when multiple communication networks are used, the partitioning method increases the data retransmission period when network devices increase, and the communication speed is slower than GHz frequency (up to 115200 bps).

The RF ZigBee 2.4GHz provides 200 multi-carriers (200 Nodes) in network configuration, and it is easy to expand a device by providing a router function (Multi-Carrier 200 Nodes).

It also has fast communication speed and low power 3.3V.

On the other hand, the communication distance is short (200 ~ 300m), and the communication speed is fast due to the frequency characteristics, but the communication distance is short and only the same ZigBee vendor can connect the network if the ZigBee stack is not developed.

In addition, interference may occur due to the same frequency as the wireless Internet (AP) frequency.

The WCDMA 2.1 GHz has no communication shadow area in the area where the repeater is located, and there is no limit on the number of multicarriers (additional repeaters and exchanges).

In addition, the transmission speed is fast, low-power 3.3V.

On the other hand, when using telecommunications, a subscription fee is incurred and the repeater is owned by a telecommunication company, so a separate subscription and registration procedure is required.

The specification of the TFB (Triple Frequency Band) USN-based wireless modem is a minimum ARM7 to ARM9 ~ 11 CPU, CPU CLOCK SPEED 36Mhz 200Mhz.

RAM is at least 16Kbyte and at most 64Mbyte, and ROM is at least 128Kbyte and at most 16Mbyte.

The UART is at least 3 and at most 2, the interface is WCDMA, RF 424Mhz, RF ZigBee, GPS, and the F / W is OuCOS-II or Linux.

Input power is DC5 ~ 12VDC5 ~ 12V and external storage device is SD FLASH MEMORY (8G) or SD FLASH MEMORY (8G).

100: multi-item water meter 200: integrated gateway
300: Internet network 400: integrated control means
500: emergency dispatch means 600: general users

Claims (6)

Water quality information is analyzed using at least one integrated gateway for receiving and processing water quality information data from a multi-item water quality measuring instrument and transmitting it to the integrated control means through the Internet network, and the water quality data information received from the integrated gateway. In the USN-based real-time water quality monitoring system comprising an integrated control means for generating three-dimensional water quality information by analyzing the water quality information according to the depth sensed by the multi-item water quality meter,
The integrated gateway is a wireless modem for providing a USS-based real-time water quality monitoring system, characterized in that the USN based wireless modem of TFB (Triple Frequency Band).
The method of claim 1,
The frequency band of the wireless modem,
RF ZigBee 2.4GHz, 10mW, RF 424MHz, WCDMA 2.1GHz wireless modem for providing a real-time water quality monitoring system, characterized in that any one of 2.1GHz.
The method of claim 2,
The RF 424MHz has a communication distance of 1.5Km and communication is possible between two or three walls in a 1.5Km area, and is a low-power driving system to provide a sun-based real-time water quality monitoring system, which is miniaturized as a single board. Wireless modem.
The method of claim 2,
The RF ZigBee 2.4GHz provides 200 multi-carriers (200 Nodes) when configuring a network, and provides a router function to provide a WLAN-based real-time water quality monitoring system, which is easy to expand the device and has a low power, high communication speed. For wireless modem.
The method of claim 2,
The WCDMA 2.1GHz wireless modem for providing a real-time water quality monitoring system based on the WAN characterized in that there is no communication shaded area in the repeater region, there is no limitation of the number of multi-carrier, the transmission speed is fast, low power.
The method of claim 1,
The integrated gateway is a secondary sensor node, which processes the water quality data received from the water quality measuring means into data for remote data transmission through a WCDMA or an internet network, which is a sink node, using a CDMA modem. USN-based real-time water quality monitoring system characterized by checking the transmission rate using RSSI), and outputs a beep when a problem occurs.

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