KR101048028B1 - System for transmitting radio wave - Google Patents

Abstract

PURPOSE: A system for transmitting a radio wave for measurement is provided to measure easily a radio wave of the desired strength by wirelessly transmitting the corresponding radio wave. CONSTITUTION: A control unit(230) sets the strength of a radio wave according to a request a radio wave measurement unit(100) through a transmission and reception unit(220) considering a peripheral topography decision unit(264). A memory(232) stores the strength and frequency information of the radio wave set through the control unit according to a control of the control unit. A transmitting radio wave generation unit(240) generates a transmitting radio wave according to a setting state of the control unit. A radio wave transmission unit(250) wirelessly transmits the radio wave for transmission according to the setting state of the control unit.

Description

Radio wave transmission system for measurement {SYSTEM FOR TRANSMITTING RADIO WAVE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio wave transmission system for measurement. In particular, the radio wave measurement unit measures the intensity of radio waves for radio transmission requested by the radio wave measurement unit so as to measure the intensity of radio waves received wirelessly. The present invention relates to a measurement radio wave transmission system for wireless transmission of radio waves with a set intensity in consideration of the above.

In general, in order to select a base station used in mobile communication, the radio wave transmitted from the base station is received and each element of the received radio wave is measured. At this time, before measuring each element of the received radio wave, the transmission output from the base station is received by the spectrum analyzer near the base station to check whether the corresponding frequency signal is stable. When the stability of the signal is confirmed, test the electric field strength of the received radio wave within a certain distance around the base station, and then perform the actual measurement.

In this regard, the base station available for mobile communication sets the intensity of the radio wave for the radio transmission requested by the radio wave measurement unit in consideration of the peripheral topography, and transmits the radio wave at the set intensity to receive the radio wave wirelessly from the radio wave measurement unit. It is necessary to measure the intensity of the signal, and store the frequency and the intensity of the transmitted radio wave in a memory provided separately so that the user can refer to the selection of the base station.

The present invention has been made to solve the above-described problem, and in order to allow the radio wave measurement unit to measure the intensity of radio waves received wirelessly, the intensity of radio waves for radio transmission requested by the radio wave measurement unit is set in consideration of the peripheral topography. It is therefore an object of the present invention to provide a measurement radio wave transmission system for wireless transmission of radio waves at a set intensity.

In addition, the peripheral topography provides a measurement radio wave transmission system for determining based on the location information provided from the GPS receiver, the peripheral topography information provided from the terrain DB, and the adjacent topographic information provided from the peripheral terrain scanner. There is a purpose.

In order to achieve this object,

According to one embodiment of the present invention,

As a radio wave transmitting apparatus 200 for wirelessly transmitting a radio wave of the intensity requested by the radio wave measurement unit 100 in order for the radio wave measurement unit 100 to measure the intensity of radio waves received wirelessly,

Transmitting and receiving unit 220 for wireless transmission and reception with the radio wave measuring unit 100;

Peripheral terrain determining means (264) for determining the periphery;

A control unit 230 for setting the intensity of radio waves in response to a request from the radio wave measuring unit 100 through the transceiver unit 220 in consideration of peripheral terrain information provided from the peripheral terrain determination unit 264;

A memory 232 for storing the intensity and frequency information of the radio wave set by the controller 230 under the control of the controller 230;

A transmission wave generator 240 for generating a transmission wave according to the setting of the controller 230; And

A radio wave transmitter 250 for wirelessly transmitting the radio wave generated from the transmission wave generator 240 so that the radio wave measurement unit 100 receives and measures the intensity of the radio wave;

Characterized in that it comprises a.

The transceiver 220 is characterized by transmitting and receiving in a code division multiple access (CDMA) method.

The peripheral terrain determination means 264,

A GPS receiver 280 which receives a GPS signal through a global positioning system (GPS) antenna 270 to derive current position information;

A terrain DB 290 that stores information about the surrounding terrain;

A periphery scanner 292 that scans nearby terrain in proximity; And

The final peripheral topography is determined based on the location information provided from the GPS receiver 280, the peripheral topography information provided from the terrain DB 290, and the adjacent topographic information provided from the scanner 292. Peripheral terrain determination unit 294 for providing the periphery terrain information to the controller 230;

Characterized in that it comprises a.

In the present invention, in order for the radio wave measuring unit 100 to measure the intensity of radio waves received wirelessly, the radio wave intensity for the radio transmission requested by the radio wave measuring unit 100 is set in consideration of the peripheral topography, and then the corresponding radio wave. Since the wireless transmission at a set intensity, the radio wave measuring unit 100 has an effect that can easily measure the radio wave of the desired intensity.

In addition, since the periphery is determined based on the location information provided from the GPS receiver 280, the periphery information provided from the terrain DB 290, and the neighboring topographical information of the periphery provided from the periphery scanner 292. For example, the strength of radio waves to be transmitted can be reliably determined.

1 is a block diagram showing an embodiment of a measurement radio wave transmission system according to the present invention.
FIG. 2 is a flowchart illustrating step by step an embodiment of the control unit illustrated in FIG. 1.

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

1 is a block diagram illustrating an embodiment of a measurement radio wave transmission system according to the present invention, and includes a radio wave measurement unit 100, a radio wave transmission device 200, a power generation unit 300, and a battery 400. The radio wave transmitting apparatus 200 includes antennas 210 and 260, a transceiver 220, a controller 230, a memory 232, a radio wave generator 240, a radio wave transmitter 250. , And peripheral topography determination means 264. The peripheral terrain determination means 264 includes a GPS antenna 270, a GPS receiver 280, a terrain DB 290, a peripheral terrain scanner 292, and a peripheral terrain determination unit 94.

The present invention configured as described above will be described with reference to FIG. 2.

FIG. 2 is a flowchart illustrating step by step an embodiment of the controller 230 shown in FIG. 1.

1 and 2, first, the transceiver 220 in the radio wave transmitting apparatus 200 transmits and receives in a code division multiple access method through the radio wave measuring unit 100 and the antenna 210.

Peripheral terrain determination means 264 determines the periphery and provides the periphery information to the controller 230. When the periphery terrain determination means 264 is described in detail, first, the GPS receiver unit in the periphery terrain determination means 264 280 receives the GPS signal through the GPS antenna 270 to derive the current position information and provide it to the peripheral terrain determination unit 294.

The terrain DB 290 stores information about the surrounding topography, and the surrounding topographic information is updated by the administrator.

Peripheral scanner 292 scans the nearby terrain using a laser scanner or the like.

Peripheral terrain determination unit 294 is based on the location information provided from the GPS receiver 280, the peripheral terrain information provided from the terrain DB 290, and the surrounding topographical information provided from the scanner 292, the final The peripheral topography is determined and provided to the controller 230 as the peripheral topographic information.

The controller 230 sets the strength of the radio wave according to the request from the radio wave measuring unit 100 through the transceiver 220 in consideration of the peripheral topography information provided from the peripheral topography determining means 264, and the memory 232. Stores the strength and frequency information of the radio wave set in FIG. In this case, the user may refer to the base station selection of the strength and frequency information of the radio waves stored in the memory 232.

The operation of the controller 230 will be described in more detail with reference to FIG. 2 as follows.

First, the controller 230 determines whether there is a radio wave transmission request from the radio wave measurement unit 100 (step S10).

As a result of the determination of step S10, the controller 230 checks the strength of the requested radio wave when there is a radio wave transmission request from the radio wave measurement unit 100 (step S12).

The controller 230 checks the peripheral topography by accessing the peripheral topography determination unit 294 (step S14).

The controller 230 determines the intensity of the radio wave to be transmitted in consideration of the peripheral topography (step S16).

The controller 230 sets a frequency of the determined intensity (step S18).

The control unit 230 instructs the transmission wave generation unit 240 to generate a frequency of the set intensity (step S20).

The transmission wave generator 240 generates a radio wave of a corresponding frequency at an intensity according to the setting of the controller 230.

The radio wave transmitter 250 transmits the radio wave of the corresponding frequency generated from the transmission wave generator 240 wirelessly through the antenna 260 to receive the radio wave measurement unit 100 to measure the intensity of the radio wave. In this case, the radio wave transmitter 250 and the antenna 260 are connected to, for example, a 0.5-inch-thick feed line. At this time, the thickness of the feeder can be changed according to the design of the device.

On the other hand, the power generation unit 300 provides the AC power for the operation of the control unit 230 and the transmission wave generation unit 240 to the control unit 230 and the transmission wave generation unit 240, respectively, as a rechargeable battery 400 Provides a direct current, the battery 400 provides a direct current power source for the operation of the radio wave transmitter 250 to the radio wave transmitter 250. At this time, the battery 400 is composed of a plurality, it is connected in parallel.

In the present invention as described above, in order for the radio wave measurement unit 100 to measure the intensity of radio waves received wirelessly, the radio wave intensity for radio transmission requested by the radio wave measurement unit 100 is set in consideration of the peripheral topography. Since the radio waves are transmitted wirelessly at the set intensity, the radio wave measuring unit 100 has an advantage of easily measuring the radio waves having a desired intensity.

In addition, since the periphery is determined based on the location information provided from the GPS receiver 280, the periphery information provided from the terrain DB 290, and the neighboring topographical information of the periphery provided from the periphery scanner 292. For example, the strength of radio waves to be transmitted can be reliably determined.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

100: radio wave measuring unit
200: radio wave transmission device
210, 260: antenna
220: transceiver
230: control unit
240: transmission wave generator
250: radio wave transmitter
264: means of determining the topography
270: GPS antenna
280: GPS receiver
290: Terrain DB
292: Peripheral Scanner
294: Peripheral Terrain Determination Unit
300: power generation unit
400: battery

Claims (3)

As a radio wave transmitting apparatus 200 for wirelessly transmitting a radio wave of the intensity requested by the radio wave measurement unit 100 in order for the radio wave measurement unit 100 to measure the intensity of radio waves received wirelessly,
Transmitting and receiving unit 220 for wireless transmission and reception with the radio wave measuring unit 100;
Peripheral terrain determining means (264) for determining the periphery;
A control unit 230 for setting the intensity of radio waves in response to a request from the radio wave measuring unit 100 through the transceiver unit 220 in consideration of peripheral terrain information provided from the peripheral terrain determination unit 264;
A memory 232 for storing the intensity and frequency information of the radio wave set by the controller 230 under the control of the controller 230;
A transmission wave generator 240 for generating a transmission wave according to the setting of the controller 230; And
A radio wave transmitter 250 for wirelessly transmitting the radio wave generated from the transmission wave generator 240 so that the radio wave measurement unit 100 receives and measures the intensity of the radio wave;
Measurement radio wave transmission system comprising a.
The method according to claim 1,
The transmitter and receiver 220 transmits and receives a signal division multiple access method.
The method according to claim 1 or 2,
The peripheral terrain determination means 264,
A GPS receiver 280 for receiving a GPS signal through the GPS antenna 270 to derive current location information;
A terrain DB 290 that stores information about the surrounding terrain;
A periphery scanner 292 that scans nearby terrain in proximity; And
The final peripheral topography is determined based on the location information provided from the GPS receiver 280, the peripheral topography information provided from the terrain DB 290, and the adjacent topographic information provided from the scanner 292. Peripheral terrain determination unit 294 for providing the periphery terrain information to the controller 230;
Measurement radio wave transmission system comprising a.

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