KR20110011039A - Radio frequency reception power measurement system ubiquitous sensor network in base and measurement method - Google Patents

Abstract

PURPOSE: An RF reception power system based on USN communication for preventing the loss of data is provided to clearly digitize the reception sensitivity of an RF signal having frequency of ISM band. CONSTITUTION: An RF processing unit(210) controls the intensity of RF signal. The RF processing unit removes the noises from the RF signal. A digital processing unit(220) converts the intermediate frequency signal of the RF processing unit into the digital signal. A control unit(230) sets up the digital signal by frequency. The control unit analyzes the intensity of the signal by channel. The control unit controls the reception state of the channel according to the intensity of the signal. A display unit(260) displays the reception status of the channel and the signal strength.

Description

Radio frequency reception power measurement system Ubiquitous sensor network in base and measurement method}

The present invention relates to an RF receiving power measuring system and measuring method based on USN communication, which is portable to overcome an error of a system for determining whether to acquire existing data only and clearly shows a signal power numerically.

USN communication is an abbreviation of ubiquitous sensor network, and many sensors are connected by wired or wireless to form a network and transmit and receive data. Accordingly, USN spectrum analysis functions are being developed, and various systems are being developed to facilitate the analysis of the radio wave environment and the development environment.

In particular, in order to transmit and receive data using USN communication, a number of sensors are installed in a transmitting area, and a measuring instrument for measuring data received from each sensor has been developed. After being located at, it is determined only whether data is acquired from the sensor, and when the data is acquired, the sensor is installed in the area.

However, if the reception sensitivity of the region where the sensor is installed is weak as it determines only data acquisition through a measuring instrument, data acquisition and non-acquisition are repeated according to the size of the reception sensitivity, causing a problem of data loss.

In addition, even if the data is missing, it requires a lot of cost and manpower to move the plurality of sensors already installed again, the device clearly showing the sensitivity of the data received from the sensor at the first installation is required.

The present invention is proposed to solve the problems of the prior art based on the USN communication to improve the accuracy of data transmission by installing the sensor at the optimal transmission position by clearly indicating the reception sensitivity of the RF signal received from the Zigbee sensor An object of the present invention is to provide an RF receiving power measuring system and a measuring method.

In order to achieve the above object, in the RF receiving power measuring system and measuring method based on the USN communication of the present invention, an RF signal of an ISB band band is received through a portable terminal device, and the power strength of the received signal is quantified. The reception state for each channel can be manipulated by analyzing the reception sensitivity of each channel by setting signals transmitted at different frequencies from one or more sensors to different channels.

The present invention relates to a system for measuring the power of an RF signal based on Ubiquitous Sensor Network (USN) communication, and includes an RF processor for controlling the strength of an RF signal received through ZigBee and removing noise to convert the signal into an IF signal. And a digital processor converting the IF signal into a digital signal. And a controller configured to set the digital signal as a unique channel for each frequency, set the digital signal as a unique channel for each frequency, analyze signal strength for each channel, and control a reception state of the channel according to the signal strength. It may include a display unit for indicating the signal strength and the reception state of the channel.

The apparatus may further include an operation unit configured to set a unique ID for each channel, and include a database unit configured to store a value of the RF signal power analyzed by the controller, and further include a power supply unit supplying power to the system. have.

The apparatus may further include an interface unit capable of executing various application programs in connection with external equipment, and the program to be executed may include receiving power analysis (analysis of maximum, minimum, and average values of signal strengths) and received data of each sensor node. Protocol analysis, reception sensitivity analysis and statistics for each channel ID, and data error check of each sensor node.

RF signal power measurement system of the present invention is formed as a portable mobile terminal device to check the reception sensitivity (RF power), or is fixed to the device (server) to collect data measurement items desired by the user through an automatic measurement function By setting the measurement and time zone, the data can be acquired unattended by interworking with external equipment (server, PC, mobile terminal, etc.) through the interface unit.

In the method for measuring the power of the RF signal received using the measuring system, the method checks the strength of the RF signal received through the antenna to control the signal strength through amplification or attenuation to convert to an IF signal And converting the IF signal into a digital signal, setting a unique channel for each frequency of the digital signal, and analyzing a maximum value, a minimum value, and an average value of power for each channel. Can be. The method may further include checking a data error of the RF signal for each channel through the power of the digital signal.

In the present invention, the frequency band received through the antenna represents a frequency of 2400 MHz to 2484.5 MHz as an ISM band, and after receiving a signal of this band and controlling signal strength to protect the instrument from over input of an RF signal, It can be down converted to an IF signal suitable for signal processing and then converted to a digital signal.

In setting up a unique channel through the digital signal in the present invention, the received digital signal imposes a unique channel for each RF signal received from up to 50 sensors to measure the RF signal power of each ZigBee module (sensor). have.

According to the present invention, the reception sensitivity of an RF signal having a frequency (2400 MHz to 2484.5 MHz) of an ISM band band based on USN communication is clearly numerically represented, thereby preventing data loss (missing).

In addition, it is possible to form both portable and fixed type, and in the case of portable, it can be easily operated in the actual site to determine the intensity level for each location when installing the sensor, and the sensor can be installed at the position having the optimal intensity. PC, PDA, etc.) by acquiring data unattended to maximize the user's convenience.

In addition, it is possible to control a signal corresponding to each channel by assigning a channel to a plurality of sensors. Accordingly, data reliability for each sensor can be determined, and the reliability of data can be improved by manipulating a reception state for each channel.

Preferred embodiments of the present invention will be described with reference to the accompanying drawings. In adding reference numerals to components of the following drawings, it is determined that the same components have the same reference numerals as much as possible even if displayed on different drawings, and it is determined that they may unnecessarily obscure the subject matter of the present invention. Detailed descriptions of well-known functions and configurations will be omitted.

1 is a view showing the overall configuration of a measurement system according to an embodiment of the present invention.

Referring to FIG. 1, the measurement system is formed of a sensor 100, a reception power measurement system 200, and a server 300. In the drawing, the reception power measurement system 200 is separated from the server 300 in a portable manner. However, the present invention is not limited thereto and may be formed in a fixed type fixed to the server 300.

The sensor 100 receives the surrounding data and transmits the data to the server 300 through ZigBee communication, in which a signal (data included) is transmitted from the sensor 100 with the receiving power measurement system 200 mounted therebetween. By measuring the received sensitivity of the RF signal, i.e., the signal power, as a numerical value, the transmitted signal power is weak to prevent the data from being dropped.

Hereinafter, the reception power measuring system 200 measuring the power of the sensor may be described in detail with reference to FIG. 2.

2 is a diagram illustrating a configuration of an RF reception power measurement system according to an embodiment of the present invention.

2, the RF processor 210, the digital processor 220, the controller 230, the database unit 240, the operation unit 250, the display unit 260, a power supply unit (not shown), and an interface unit (Not shown).

The RF processor 210 receives an RF signal received through an antenna, that is, an RF signal having a frequency of 2400 MHz to 2484.5 MHz in an ISM band band including data transmitted from a sensor, and amplifying appropriately according to the frequency and strength of the signal. Frequency conversion converts the signal into a frequency band suitable for digital signal processing.

More specifically, the RF processor 210 checks the strength of the signal received from the sensor and selects the presence or absence of ultrashort amplification, and controls the signal strength using an attenuator to protect the instrument from over input of the signal. It involves doing.

The ultra-stable process converts the frequency of the stable signal to remove noise, down converts the signal to an intermediate frequency (IF) signal suitable for digital signal processing.

The signal flow of the RF processor 210 may refer to FIG. 3A.

The digital processor 220 converts the analog signal received by the RF processor 210 into a digital signal using an analog to digital convertor (ADC) having high speed and high resolution.

At this time, the selection of the ADC can be determined according to the frequency band and frequency resolution of the IF signal to be used.

A circuit diagram of the digital processor 220 may refer to FIG. 3B.

The controller 230 sets a unique channel by dividing the digital signal received through the digital processor 220 for each frequency, analyzes the signal strength (RF reception power) for each channel, and indicates the signal in dBm, and the maximum value of the analyzed value. Values, minimum values, average values, and the like are analyzed and stored in the database unit 240.

The analysis information of the signal strength stored in the database unit 240 is transmitted to an external device through an interface unit (not shown).

The interface unit (not shown) transmits the analysis information of the signal strength stored in the database unit 240 and the information of the signal received through the antenna in cooperation with the external device and the RF reception power measurement system 200 to the external device. In this case, the external device includes any device capable of downloading data such as a notebook, a PC, or a PDA.

In addition, when the user sets the measurement item and the measurement time zone using the operation unit 250 in advance by using the automatic measurement function as the external device and the RF reception power measurement system 200 are interworked through the interface unit, the items set in the set time zone It can be measured automatically and sent to an external device to enable unattended measurement.

In addition, by interworking with an external device through the interface unit, various functions such as analysis of reception power of each sensor, protocol analysis of received data, reception sensitivity analysis and statistics for each channel, and data error check for each sensor can be executed.

The operation unit 250 may operate an on / off operation and channel setting of the RF reception power measurement system 200.

The display unit 260 digitizes and displays the strength of the signal analyzed by the controller 230 through the LCD screen, and indicates the reception state for each sensor by indicating the unique channel and ID of the signal together with the analyzed signal.

4 is a diagram illustrating an external enclosure of a portable RF reception power measurement system incorporating the RF reception power measurement system of FIG. 2 according to an embodiment of the present invention.

Referring to FIG. 4, the external enclosure 400 of the portable RF reception power measurement system includes a display 410, a power display 420, an operation unit 430, a channel selector 440, a power driver 450, and an interface. It includes a portion (not shown).

The display 310 indicates the strength of the channel, ID, and signal power, and improves the reliability of data by allowing a user to clearly confirm the signal sensitivity of each channel with a screen such as an LCD.

The power display unit 420 may be configured of LEDs to indicate whether the external enclosure 400 of the portable RF receiving power measurement system has power, charging, and communication.

The operation unit 430 plays the same role as the operation unit 230 of FIG. 2, and can be easily manipulated by visually confirming the content to be operated in connection with the display 310.

The channel selector 440 is not limited, but is formed of a joystick to enable channel change.

The power driver 450 controls the input of the entire power source of the outer enclosure 400 of the portable RF reception power measurement system.

Although not illustrated, the interface unit (not shown) enables data transmission and reception with an external device by wire or wirelessly.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

1 is a view showing the overall configuration of a measurement system according to an embodiment of the present invention.

2 is a diagram showing the configuration of an RF reception power measurement system according to an embodiment of the present invention.

3A is a diagram illustrating a signal module of an RF processor according to an exemplary embodiment of the present invention.

3A is a diagram illustrating a signal module of a digital processing unit according to an embodiment of the present invention.

4 is a diagram illustrating an external enclosure of a portable RF reception power measurement system according to an embodiment of the present invention.

               <Code Description of Main Parts of Drawing>

100: sensor 200: receiving power measurement system

210: RF processing unit 220: digital processing unit

230: control unit 240: database unit

250, 430: operation unit 260: display unit

400: portable RF reception power measurement system 410: display

420: power display unit 440: channel selector

450: power drive unit

Claims (7)

In the system for measuring the power of the RF signal based on the USN (Ubiquitous Sensor Network) communication, An RF processor for controlling the strength of the RF signal received through ZigBee and removing noise to convert the RF signal into an IF signal; A digital processor converting the IF signal into a digital signal; A controller configured to set the digital signal as a unique channel for each frequency, analyze signal strength for each channel, and control a reception state of the channel according to the signal strength; And A display unit indicating the signal strength and a reception state of a channel; RF receiving power measurement system comprising a sign as a. The RF reception power measurement system according to claim 1, further comprising an operation unit for setting a unique ID for each channel. The RF reception power measurement system of claim 1, further comprising a database unit configured to store a value of the RF power analyzed by the control unit. The RF reception power measurement system according to claim 1, further comprising a power supply unit supplying power to the system as a whole. A method of measuring the power of an RF signal received using the measuring system of claims 1 to 4, the method comprising Checking the strength of the RF signal received through the antenna and controlling the signal strength through amplification or attenuation and converting the signal into an IF signal; Converting the IF signal into a digital signal; And Setting a specific channel for each frequency of the digital signal and analyzing a maximum value, a minimum value, and an average value of power for each channel; RF receiving power measurement method comprising a. The method of claim 5, further comprising checking a data error of the RF signal for each channel through the power of the digital signal. The method of claim 5, wherein the frequency of the received RF signal is 2400MHz ~ 2484.5MHz.

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