KR20060039552A - System and method for measuring of multi-band radio-wave - Google Patents

Abstract

The present invention relates to a multi-band radio wave measurement system and method for collecting radio wave reception signal strength together with location data in a wireless environment and analyzing the collected data to determine a radio wave reception weak area.

The multi-band radio wave measurement system of the present invention is a radio wave measurement system mounted on a vehicle to measure radio waves, and collect measurement data to determine a radio wave receiving weak area, and receives a radio wave through an antenna to measure signal strength. A radio wave measuring device; A GPS positioning device for receiving location data from a GPS satellite; Control the radio wave measuring device and the GPS position measuring device, receive signal strength data from the radio wave measuring device, receive position data from the GPS position measuring device, and store the signal strength data together with the position data of the corresponding signal measuring place. A data collection and analysis device for generating an analysis result for determining a radio wave receiving weak area; There is a technical feature made to include.

Radio wave measuring device, GPS positioning device, data acquisition and analysis device

Description

System and Method for Measuring of Multi-Band Radio-Wave

1 is a block diagram of a multi-band radio wave measurement system according to an embodiment of the present invention,

2 is a flowchart sequentially illustrating a multi-band propagation measuring method according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: radio wave measuring device 110: power supply means

120: radio wave receiving means 120-1 to 120-n: antenna

130: switching means 140: signal size measuring means

150: signal size determination means 160: low noise amplification means

200: GPS position measuring device 300: data collection and analysis device

310: control means 320: storage means

330 analysis means

The present invention relates to a multi-band radio wave measuring system and method, and more particularly, to include a plurality of antennas to enable radio wave measurement for a wide frequency band, and to measure the strength of a received signal using a GPS position measuring device. The present invention relates to a multi-band radio wave measuring system and method for collecting data together with location data to determine a radio wave receiving weak area.

Conventionally, in order to determine a radio wave vulnerable area of a wireless communication environment, the radio wave vulnerable predicted area is selected, and the radio wave of the corresponding frequency is received by the target receiving terminal from the expected area and discriminated.

However, the above-described method has a problem in that it is not possible to determine a weak reception area other than an arbitrary point, and accurate distance correlation analysis of the measurement results is impossible, and thus it is not possible to accurately determine the weakness of the range and reception sensitivity of the area. Had a problem.

Accordingly, the present invention is to solve the above-mentioned disadvantages and problems of the prior art, and to continuously determine the radio wave reception weak areas and to measure the coverage of base stations and repeaters in wireless communication environments. It is an object of the present invention to provide a multi-band radio wave measurement system and method for analyzing the position and distance information using GPS.

The above object of the present invention is a radio wave measurement system mounted on a vehicle to measure radio waves, and collect measurement data to determine a radio wave receiving weak area, radio wave measurement for receiving a radio wave through an antenna and measuring signal strength An apparatus; A GPS positioning device for receiving location data from a GPS satellite; Control the radio wave measuring device and the GPS position measuring device, receive signal strength data from the radio wave measuring device, receive position data from the GPS position measuring device, and store the signal strength data together with the position data of the corresponding signal measuring place. A data collection and analysis device for generating an analysis result for determining a radio wave receiving weak area; It is achieved by a multi-band radio wave measurement system comprising a.

In addition, the object of the present invention is a radio wave measuring device for receiving a radio wave through an antenna to measure the signal strength, a GPS position measuring device for receiving position data from a GPS satellite, signal strength data from the radio wave measuring device and GPS positioning device And a data collection and analysis device for receiving and storing position data and collecting, storing, and analyzing measurement signal strength data of a specific point together with the position data. Switching to one of a plurality of antennas to receive a signal of a corresponding frequency band; Measuring a magnitude of a received signal received by the switched antenna; Determining whether the magnitude of the measured signal is equal to or greater than a predetermined reference value; A fourth step of amplifying the low noise signal when the value is less than the reference value and then returning the signal to the second step, and transmitting the corresponding signal size information to the data collection and analysis device when the value is higher than the reference value; A fifth step of storing, by the data collection and analysis device, location data of a corresponding point received from the GPS location measurement device together with the signal size data; It is achieved by a multi-band radio wave measuring method comprising a.

Details of the above object and technical configuration of the present invention and the resulting effects thereof will be more clearly understood from the following detailed description based on the accompanying drawings.

First, Figure 1 is a block diagram of a multi-band radio wave measurement system according to an embodiment of the present invention.

As shown, the multi-band radio wave measuring system of the present invention, a radio wave measuring apparatus 100 for measuring signal strength, GPS position measuring apparatus 100 for measuring position data using GPS, the radio wave measuring apparatus 100 And a data collection and analysis device 300 for collecting, storing and analyzing data from the GPS location measuring device 100.

The radio wave measuring apparatus 100 receives a radio wave through an antenna to measure signal strength, and includes a power supply unit 110, a radio wave receiving unit 120, a switching unit 130, a signal size measuring unit 140, and a signal. It comprises a size determining means 150, a low noise amplification means 160.

The power supply unit 110 supplies power to the plurality of antennas 120-1 to 120-n of the radio wave receiving unit 120.

The radio wave receiving means 120 is composed of a plurality of antennas (120-1 ~ 120-n) for receiving a radio wave in the space and converts the electrical signal, each of the plurality of antennas (120-1 ~ 120-n) 1 Receive signals in different frequency bands, such as -2 GHz, 1.8-4 GHz, 4-8 GHz, and 8-12 GHz. At this time, the frequency band and the number of antennas are not limited.

The switching means 130 is connected to each antenna 120-1 to 120-n of the radio wave receiving means 120, and the plurality of antennas 120-under the control of the data collection and analysis apparatus 300. 1 ~ 120-n) is responsible for switching to any one antenna.

Signal size measuring means 140 is connected to the switching means 130, by measuring the signal size received by any of the antennas connected by the switching means 130, the information on the signal size to determine the signal size To the means 150.

The signal size determining unit 150 determines whether or not the magnitude of the signal transmitted from the signal size measuring unit 140 is greater than or equal to a predetermined reference value. It transmits to the low noise amplification means 160.

The low noise amplification means 160 receives a signal having a signal size less than the reference value from the signal size determining means 150, amplifies the signal with low noise characteristics, and transfers the amplified signal back to the signal size measuring means 140. By re-measuring the signal size, the amplified signal may be transmitted to the data collection and analysis device 300.

On the other hand, the signal size determining means 150 transmits the information on the size of the signal to the data collection and analysis device 300 when the signal size received from the signal size measuring means 140 is greater than or equal to the reference value. .

Next, the GPS position measuring apparatus 100 may store the position information from the GPS satellite so that the information on the magnitude of the radio wave reception signal measured by the radio wave measuring apparatus 100 may be stored together with the position information of the corresponding measuring place. The data is received and transmitted to the data collection and analysis apparatus 300.

The data collection and analysis apparatus 300 receives control signal 310 for controlling the radio wave measuring apparatus 100 and the GPS position measuring apparatus 100, and receives signal strength data from the radio wave measuring apparatus 100, and receives the GPS. Storage means 320 for receiving the position data from the position measuring device 100 and storing the signal strength data together with the position data of the corresponding signal measuring place; and analyzing means 330 for analyzing the collected data. It is possible to determine the weak spots of radio waves by the operator.

At this time, the analysis means 330 calculates the distance between the position of the predetermined reference point input by the operator and the measurement point measured by the GPS position measuring apparatus 100, when the data is collected more than a certain number of times, The statistical value of signal strength for each distance is calculated.

In addition, when the calculation of the statistical value is completed, the analysis means 330 generates a map, graph, table, etc. which can be visually confirmed by the operator using the radio wave quality analysis result according to the distance for the radio wave receiving weak area determination. .

Next, FIG. 2 is a flowchart sequentially illustrating a multi-band propagation measuring method according to an embodiment of the present invention.

As shown, the radio wave measuring device 100 is controlled by the data collection and analysis device 300, a plurality of radio wave reception means 120 through the switching means 130 to receive radio waves of a specific frequency band Switching to any one of the antenna (120-1 ~ 120-n), and receives a signal of the frequency band (S101).

Next, the signal size measuring unit 140 measures the size of the received signal received by the switched antenna (S102), and the signal size determining unit 150 determines whether the size of the measured signal is greater than or equal to a predetermined reference value. Determine (S103).

As a result of the determination, when the reference value is greater than or equal to the reference value, the signal size determining unit 150 transmits the corresponding signal size information to the data collection and analysis device 300, and the data collection and analysis device 300 receives from the GPS location measuring device 100. The position data at the time of receiving the corresponding signal is stored together with the signal size information (S104).

As a result of the determination, if it is less than the reference value, the signal size determining means 150 transmits the signal to the low noise amplifying means 160, and the low noise amplifying means 160 amplifies the signal at low noise (S105). Pass to 140 to re-measure the signal size.

On the other hand, when the radio wave quality (signal size) data is continuously collected (N times) together with the position data to the data collection and analysis device 300 on a random path through the radio wave measuring apparatus 100 according to the above process ( S106), the data collection and analysis apparatus 300 calculates the distance between the position of a certain reference point input by the operator and the measurement point measured by the GPS position measuring apparatus 100, and the statistical value of the signal strength for each distance To calculate (S107).

When the calculation of the statistical value is completed, a map, a graph, a table, etc., which can be visually confirmed by the operator are generated using the radio wave quality analysis result according to the distance for the radio wave receiving weak area determination (S108).

As those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features, the embodiments described above should be understood as illustrative and not restrictive in all aspects. Should be. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

Therefore, according to the multi-band radio wave measuring system and method of the present invention, by measuring the radio wave reception sensitivity according to the distance based on the position of the radio wave transmitter, the effect of the radio wave from the transmitter and the intensity of the radio wave can be confirmed according to the distance. In addition, statistical calculation according to the distance based on the radio wave receiving weak area and the extent and degree of vulnerability of the radio wave receiving area can be grasped, and thus, the radio wave receiving measurement range can be expanded and the accuracy and efficiency of the measurement can be expected.

Claims (8)

A radio wave measurement system mounted on a vehicle to measure radio waves, and collect measurement data to determine a weak area for radio wave reception, A radio wave measuring device for receiving a radio wave through an antenna and measuring signal strength; A GPS positioning device for receiving location data from a GPS satellite; Control the radio wave measuring device and the GPS position measuring device, receive signal strength data from the radio wave measuring device, receive position data from the GPS position measuring device, and store the signal strength data together with the position data of the corresponding signal measuring place. A data collection and analysis device for generating an analysis result for determining a radio wave receiving weak area; Multi-band radio wave measurement system comprising a. The method of claim 1, The radio wave measuring device, Power supply means for supplying power to the antenna; Radio wave receiving means comprising a plurality of antennas for receiving signals of different frequency bands; Switching means connected to said radio wave receiving means and switching to one of said plurality of antennas under the control of said data collection and analysis device; Signal size measuring means connected to the switching means for measuring the received signal size of the corresponding antenna connected by the switching means and outputting signal size information; According to the output information of the signal size measuring means, it is determined whether the corresponding signal size is greater than or equal to a predetermined reference value, and if the reference value is greater than or equal to, transmit the corresponding signal size information to the data collection and analysis device, and output the corresponding signal if it is less than the reference value. Signal size determining means; Low noise amplifying means for receiving a signal having a signal size less than a reference value from the signal size determining means, amplifying the signal with low noise characteristics, and transmitting the amplified signal to the signal size measuring means; Multi-band radio wave measurement system comprising a. The method of claim 1, The data collection and analysis device, Control means for controlling the radio wave measuring device and the GPS position measuring device; Storage means for matching and storing the signal strength data received from the radio wave measuring apparatus and the position data received from the GPS position measuring apparatus; When the position of a predetermined reference point is input, the distance between the measured point measured by the GPS position measuring device and the reference point is calculated, and the signal strength statistical value for each distance is calculated, according to the distance for discriminating the radio wave receiving weak area. Analysis means for visually generating a radio wave quality analysis result; Multi-band radio wave measurement system comprising a. The method of claim 3, The analysis result visually generated by the analysis means, the multi-band radio wave measurement system, characterized in that it comprises at least one or more of the map, graph, table. A radio wave measuring device for receiving a radio wave through an antenna to measure signal strength, a GPS position measuring device for receiving position data from a GPS satellite, and receiving signal strength data and position data from the radio wave measuring device and a GPS position measuring device at a specific point. A radio wave measurement method in a multi-band radio wave measurement system comprising a data acquisition and analysis device for collecting, storing and analyzing measurement signal strength data of a together with position data, A first step of the radio wave measuring device switching to any one of the plurality of antennas to receive a signal of a corresponding frequency band; Measuring a magnitude of a received signal received by the switched antenna; Determining whether the magnitude of the measured signal is equal to or greater than a predetermined reference value; A fourth step of amplifying the low noise signal when the value is less than the reference value and then returning the signal to the second step, and transmitting the corresponding signal size information to the data collection and analysis device when the value is higher than the reference value; A fifth step of storing, by the data collection and analysis device, location data of a corresponding point received from the GPS location measurement device together with the signal size data; Multi-band propagation measurement method characterized in that it comprises a. The method of claim 5, The location data stored together with the signal size data in the fifth step, Multi-band propagation measurement method characterized in that the data measured at the time of receiving the signal of the first step. The method of claim 5, After the fifth step, A sixth step of calculating a distance between the measurement point measured by the GPS position measuring device and the reference point when the position of a predetermined reference point is input, and calculating a signal strength statistical value for each distance; A seventh step of visually generating a radio wave quality analysis result according to a distance for determining a weak radio wave reception area using the calculated statistical value; Multi-band propagation measurement method characterized in that it further comprises. The method of claim 7, wherein The visually generated analysis result comprises at least one or more of a map, a graph, a table.

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