KR101145938B1 - A field test system & a field test method for determining transmission option of brodacast signal respective broadcasting regions - Google Patents

Abstract

PURPOSE: A field test system for setting a transmission option of a broadcasting signal per a broadcasting region and a field test method are provided to perform a test by combining complicated broadcasting parameters of a second generation digital broadcast by analyzing a broadcasting signal by a control server. CONSTITUTION: A broadcasting signal generating unit(110) generates an RF(Radio Frequency) broadcasting signal from broadcasting content. A plurality of test receivers(200) detects information data for measuring a broadcasting signal state corresponding to a parameter setting change from the RF broadcasting signal. The test receivers retransmit the detected information data and location information. A control server(300) analyzes broadcasting signals that the test receivers receive from the retransmitted information data.

Description

Field Test System & A Field Test Method For Determining Transmission Option Of Brodacast Signal Respective Broadcasting Regions

The present invention relates to the setting of the broadcast signal transmission option for each broadcast zone, and more specifically, to analyze the broadcast signal by automatically retransmitting the information data for the broadcast signal received at each position or moving object in the broadcast zone according to the broadcast parameter change, The present invention relates to a field test system and a method for setting broadcast signal transmission options for each broadcast area to enable optimal broadcast signal transmission options.

Recently, the second generation digital broadcasting service based on broadcasting standards such as ATSC-MH, DVB-T2, DVB-S2, and DVB-C2 has been serviced. In the second generation digital broadcasting standard, various multiplexing and modulation options exist. Therefore, finding a transmission option optimized for each country and region requires a lot of time and human / physical resources, so it is required to develop an effective solution.

Referring to the test method for setting broadcast parameters for each broadcast area shown in FIGS. 1 and 2, the broadcast parameters of the head end device, that is, the broadcast signal generator 10 are arbitrarily set and then broadcasted to the vehicle 20. Check the reception status of the vehicle-mounted receiver 21 while moving each point in the region, or install a fixed receiver in some areas and analyze the reception status by collecting the information collected by visiting the data stored in the receiver when the broadcasting parameters are changed. It depends on how to do it.

However, the test system for setting the conventional broadcast parameters as described above has the following problems.

In other words, the second generation digital broadcasting has a variety of broadcasting channels and types of broadcasting, and due to the complexity of the broadcasting signal configuration itself, the number of cases according to the combination of digital broadcasting parameters increases exponentially, resulting in a combination of 10 broadcasting parameters. In testing, theoretically, the number of 1,024 cases should be tested and the results of the broadcast signals received at hundreds of locations in each broadcasting area should be collected.

Therefore, according to the conventional method, since the test of the number of all cases of the broadcast parameter combination requires huge time and human / physical resources, it is practically impossible and the test is performed only on a part of the combination of broadcast parameters. As a result of the test, there is a problem that the reliability of the finally obtained broadcast parameters is degraded.

An object of the present invention is to transmit a broadcast signal for each broadcast zone to automatically set the optimal broadcast signal transmission option by analyzing the broadcast signal by automatically retransmitting the information data for the broadcast signal at each position in the broadcast zone according to the change of the broadcast parameter. Implement a field test system and method for setting options.

Field test system for setting a broadcast signal transmission option for each broadcast zone according to the present invention for achieving the above object, broadcast signal generating means for changing the parameter setting to generate an RF broadcast signal from the broadcast content data; RF transmitting means for transmitting the RF broadcasting signal generated by the broadcasting signal generating means to the test target broadcasting area; Receiving an RF signal distributed in various parts of the test target broadcast area and transmitted by an RF transmitting means, and measuring a broadcast signal quality corresponding to the parameter setting change in the process of down-converting, demodulating and decoding the received RF broadcast signal. A plurality of test receivers for detecting the information data and retransmitting the detected information data and the position information through the communication means; A control server for controlling a broadcast signal parameter setting process of the broadcast signal generating means, receiving information data retransmitted from the plurality of test receivers and performing broadcast signal analysis for each test receiver according to the parameter setting change. Characterized in that it comprises a.

In the test receiver, a communication medium used for retransmitting the information data to the control server may be any one of communication media including wired / wireless LAN, WAN, Internet, mobile communication network, PSTN and cable. It features.

The control server may directly control the control server locally, or remotely control the broadcast signal generating means by a communication means.

The RF broadcast signal transmitted by the RF transmission means is any one of a digital terrestrial broadcast signal, a digital satellite broadcast signal and a digital cable broadcast signal.

The information data transmitted by the test receiver to the control server includes RF channel power (RSSI), signal quality (SNR or MER), moving speed of the test receiver, measured time, error presence, and terminal serial number. Characterized in that.

The control server is characterized by providing a map (MAP) interlocking analysis for the test target broadcast zone using the information data and location information received from the test receiver.

According to an aspect of the present invention, there is provided a field test method for setting a broadcast signal transmission option for each broadcast area, the method comprising: installing a plurality of test receivers in an area to measure a broadcast signal state according to a broadcast parameter; A broadcast signal generation step of changing a broadcast parameter setting in a broadcast signal generator according to a control signal input from a control server, generating a broadcast signal for generating an RF broadcast signal from broadcast content data, and transmitting the generated broadcast signal to the air; The test receivers distributed in various parts of the test target broadcast area, either directly or through a repeater, receive the RF transmitted broadcast signal, and down-convert, demodulate and decode the received RF broadcast signal and respond to the parameter setting change. Detecting information data for detecting information data to be measured, and retransmitting the detected information data and position information of the test receiver to the control server through a communication means; And analyzing the information data and the position information retransmitted from each of the test receivers in the control server.

And a final setting step of determining, by the control server, an optimal broadcast parameter for the broadcasting area using the analysis result of the retransmitted information data and location information and providing a broadcast service. do.

In accordance with the above-described configuration, the present invention automatically retransmits information data on a broadcast signal detected from a broadcast signal received by a test receiver located in several hundred areas within a broadcast area according to a broadcast parameter change to a control server. By analyzing the broadcast signal, it is possible to set the optimal broadcast signal transmission option by testing the combination of complex broadcast parameters of the second generation digital broadcasting.

In addition, since information data about the broadcast signal is transmitted to the control server in real time, it minimizes the cost and manpower required for the broadcast signal state and quality test, and has the feature of enabling the user to quickly set the optimized broadcast signal transmission option.

1 is a schematic diagram illustrating a configuration of a field test system for setting a transmission option for a conventional broadcasting region.
2 is a flowchart illustrating each step of a field test process for setting a transmission option for a conventional broadcasting zone.
3 is a schematic diagram illustrating a configuration of a field test system for setting broadcast signal transmission options for respective broadcast zones according to an embodiment of the present invention.
4 is a schematic diagram illustrating a configuration of a control server according to an embodiment of the present invention.
5 is a flowchart illustrating each step of a field test method for setting a broadcast signal transmission option for each broadcast zone according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of a field test system and method for setting broadcast signal transmission options for respective broadcast areas according to the present invention will be described in detail with reference to the accompanying drawings.

The field test system 100 for setting a broadcast signal transmission option for each broadcast zone according to the embodiment of the present invention shown in FIG. 3 includes a broadcast signal generator 110 for changing a parameter setting and generating a broadcast signal, and the generated broadcast. RF broadcast signal transmitting means 150 for transmitting a signal to a test target broadcast zone, and a plurality of tests for receiving RF broadcast signals distributed in various parts of the test target broadcast zone and detecting and retransmitting information data for the broadcast signal. And a control server 300 for controlling the broadcast signal generating means 110 and receiving information data from a plurality of test receivers 200 to perform broadcast signal analysis.

The broadcast signal generating means 110 according to the embodiment of the present invention changes the broadcast parameter setting according to the control signal of the control server 300, and according to the broadcast parameter in service for the broadcast content data transmitted from the broadcasting station according to the changed broadcast parameter. IF signal is generated by encoding, multiplexing, and modulation, and upconverting the IF signal to generate an RF broadcast signal.

In the embodiment of the present invention, the broadcast signal generating means 110 performs RF broadcasting by performing encoding, multiplexing, and modulation by any one of second generation digital broadcasting standards such as ATSC-MH, DVB-T2, DVB-S2, and DVB-C2. Generates a signal and changes the state of the RF broadcast signal according to the change of the broadcast parameter setting.

RF broadcast signal transmitting means 150 of the present embodiment, the RF broadcast signal generated by the broadcast signal generator 110, the RF broadcast signal to enable broadcast reception in the corresponding broadcast area by the transmission method according to the broadcasting company's business policy Will be sent.

For example, the broadcasting area may be set differently according to the type of broadcasting such as digital terrestrial TV broadcasting, terrestrial mobile broadcasting, digital satellite broadcasting, and digital cable broadcasting and the business area of the broadcasting company. It may be set.

Although the RF broadcast signal transmitting means 150 of the present embodiment may be based on one broadcast transmitter for each broadcasting area as in the case of satellite broadcasting, the RF signal transmitted from the broadcast transmitter in addition to the broadcast transmitter as in the case of digital terrestrial broadcasting It may include a plurality of repeaters for relaying, which can be changed according to the embodiment.

The test receiver 200 according to the present embodiment is installed in the broadcasting area in a large number (which may be hundreds to thousands depending on the type of broadcasting area and broadcasting area) and receives the broadcasting signal transmitted by the RF broadcasting signal transmitting means 150. And down-converting, demodulating and decoding the received broadcast signal to detect information data for measuring the state of the broadcast signal received by the test receiver 200, and the detected information data and GPS position information to the control server 300. To send.

For example, when the test target broadcast signal of the present embodiment is a terrestrial mobile broadcast and the broadcast area is 20 to 30 km in radius, hundreds of test receivers 200 may be installed, and large cities, rural areas, or geographical features may be considered. In order to measure the signal state received during the movement of a subway or a car, a test receiver may be installed in a moving object such as a subway or a bus moving in a broadcasting area to measure a broadcast signal state.

The information data retransmitted from the test receiver 200 to the control server 300 according to the present embodiment includes RF channel power (RSSI), signal quality (referred to as SNR or MER according to broadcasting standards), error presence, and movement of the test receiver. Speed, measured time information, and a serial number of the test receiver. The test receiver 200 according to the present embodiment may include a GPS device 201 and receive the broadcast signal reception position information or the moving speed of the test receiver. velocity) information is detected and retransmitted to the control server 300 along with other information data.

The test receiver 200 according to the embodiment of the present invention includes communication means to transmit information data and position information detected from the received broadcast signal to the control server 300, in which case the test receiver 200 of the present embodiment communicates. Means include interface means for wired / wireless LAN, WAN, Internet, mobile communication network, PSTN and cable, and it is possible to perform information data retransmission by any one of these or by combining two or more communication means.

For example, when receiving a terrestrial mobile broadcast, it is possible to transmit information data by accessing the Internet through a wireless LAN or a wired LAN such as WI-FI, and the test receiver 200 in an area where a LAN is not installed is provided by a mobile communication network. The information data can be retransmitted, and the information data can also be retransmitted via a WAN or a PSTN.

The control server of the embodiment of the present invention, the control means 310 for controlling and monitoring the broadcast signal generator or the test receiver, and receives the information data from the test receiver 200 and the test receiver 200 Transmitting and receiving unit 320 for transmitting the control signal, the storage means for storing the received data and test results, and the analysis means for performing analysis on the broadcast signal received by each test receiver 200 And 350.

The control server 300 of the present embodiment provides an interface for wired / wireless LAN, RS-232C, infrared communication, etc., and is installed locally to perform direct control of the broadcast signal generating means 110 or is installed remotely to broadcast signals. It is possible to perform remote control on the generating means 110. In addition, the control server 300 itself may be directly controlled by an administrator or remotely controlled remotely through the Internet.

The control means 310 of the present embodiment sends a control command to the broadcast signal generating means 110 and sets the broadcast parameter combination according to the digital broadcasting standard to generate the RF broadcast signal and the broadcast signal generating control means 311. The test receiver 200 stores information data and GPS information automatically retransmitted by the plurality of test receivers 200 that have received the RF broadcast signal according to the corresponding broadcast parameter combination, and is distributed to each point. Receiver control means 315 to perform monitoring for the device 200.

The broadcast signal generation control means 311 according to the embodiment of the present invention controls the broadcast signal generation means 110 to generate an RF broadcast signal according to the next parameter combination when the test for the broadcast signal state for the first broadcast parameter combination is completed. It sends a control command to control the broadcast signal generating means 110 to change the broadcast parameter combination to generate a broadcast signal until the test for the entire broadcast parameter combination is completed.

The receiver control means 315 of the present embodiment monitors the test receiver 200 and re-transmits the information data, that is, the broadcast signal state information, transmitted by the test receiver 200 that receives the RF broadcast signal generated by the broadcast parameter setting each time. The receiver receives the test information, the GPS position and the speed information, and stores the same in the storage means 340. The control operation is repeatedly performed until the test for the entire broadcast parameter combination is completed.

When the analysis means 350 of the present exemplary embodiment completes the test on all the parameter combinations, the analysis means 350 transmits the data to each point or the moving object in the broadcast area based on the information data about the broadcast signal stored in the storage means 340 and the GPS position and speed information. Analyzes the state of the broadcast signal and finds a combination of broadcast parameters that can generate an optimal broadcast signal for the corresponding broadcast zone based on the analysis result, and the broadcast signal generation control means 311 As a result, the broadcast signal generator 110 performs a control operation to generate the broadcast signal.

On the other hand, the analysis means 350 of the embodiment of the present invention is provided with a map interlocking analysis means 351 to interlock with the map (MAP) analysis of the broadcast signal state by using the GPS location information of each test receiver 200 It can be performed, and the result can be stored in the storage means 340. Through this process, the analysis of the shadowed areas in the broadcasting area can be performed and the broadcasting parameter combinations that can be optimally watched in these areas can be found.

On the other hand, the control server 300 of the present embodiment can monitor the status of the test receivers 200 as programmed. For example, at a predetermined time interval, a specific test receiver 200 may be commanded to transmit data on a receiver state, and if there is an abnormality by detecting whether the test receiver 200 operates normally, the test of the corresponding position is performed. The administrator may respond quickly such as resetting or replacing the receiver 200 to prevent the test result from being distorted.

The following describes each step of the field test method performed by the field test system for setting the broadcast signal transmission option for each broadcast zone having the above configuration.

The manager installs the test receiver 200 at each point to measure the broadcast signal state according to the broadcast parameter change in the broadcast area of a specific broadcast, and when installing the test receiver, the geographical features of the urban and marginal shadow areas, the train It is preferable to set the installation interval or the location in consideration of the moving speed and the route of the transportation means such as bus or bus (step 50).

When the installation of the test receiver 200 is completed, the control server 300 sends a control signal to the broadcast signal generator 110 to set or change the broadcast parameter combination according to a predetermined sequence (step 51).

The broadcast signal generator 110 generates a broadcast signal according to a set or changed broadcast parameter. That is, the broadcast signal generator 110 encodes, multiplexes and modulates broadcast content data of a broadcast station according to a given broadcast parameter combination to generate an RF broadcast signal and transmits the RF broadcast signal to the RF broadcast signal transmitter 150 (operation 52).

The RF broadcast signal transmitting means 150 transmits the RF broadcast signal to the air or a cable so that the RF broadcast signal can be received in the whole broadcast area. For example, in the digital terrestrial broadcasting, the RF signal transmitted by the broadcast transmitter is transmitted to the entire broadcasting area by a plurality of repeaters, and in the case of satellite broadcasting, it is directly transmitted to the test receiver 200 by the satellite covering the broadcasting area. Will be. In addition, in the case of cable broadcasting, the RF broadcast signal transmitting means 150 allows the RF signal to be transmitted to the test receiver 200 through the local cable network (step 53).

The test receiver 200 distributed in each part of the test target broadcast area directly or through a repeater receives the RF transmitted broadcast signal, and down-converts, demodulates and decodes the received RF broadcast signal and changes the parameter setting. Information data corresponding to the measurement target is detected, and the detected information data and the location information of the test receiver 200 are retransmitted to the control server 300 through a communication means (step 54).

In an exemplary embodiment of the present invention, the test receiver 200 temporarily stores information data, which is a test result, in its own memory for a predetermined time, and automatically transmits the information data to the control server 300 at regular time intervals or transmits the control server 300 to the control server 300. It is possible to automatically transmit the stored information data at the command of. Meanwhile, in another embodiment of the present invention, each time the test for one parameter combination ends, the test result may be transmitted to the control server 300 in real time and stored in the storage means 340 of the control server 300. There can be.

The control server 300 of the present embodiment monitors the test receiver 200 and broadcast signal state of each point that is automatically retransmitted according to an automatic retransmission from the test receiver 200 or a transmission command of the control server 300. Information data and GPS position and speed information on the storage means 340 (step 55), and when the test for the entire broadcast parameter combination is finished, the analysis means 350 for the broadcast signal of each point The analysis is performed and the map (MAP) linkage analysis is performed using the analysis result (step 56, step 57, step 58).

The control server 300 finds an optimal broadcast parameter for the broadcast area by using the analysis result and the map interlocking analysis result, resets the broadcast parameter, and provides a broadcast service based on the optimal broadcast parameter combination. Step 59).

It is obvious that the scope of the present invention is not limited to the above embodiments but is determined by the matters described in the claims, and includes various modifications and adaptations made by those skilled in the art in the ranges equivalent to those described in the claims.

100 ....... Field test system 110 ....... Broadcast signal generating means
150 ....... RF broadcasting signal transmitting means 200 ....... Test receiver
201 .... GPS Devices 300 ....... Control Server
310 ....... Control means 311 ....... Broadcast signal generation control means
315 ....... receiver control means 320 .......
Storage means 350 ....... Analytical means

Claims (8)

Broadcast signal generating means for changing a parameter setting and generating an RF broadcast signal from broadcast content data;
RF broadcast signal transmitting means for transmitting the RF broadcast signal generated by the broadcast signal generating means to a test target broadcasting area;
A broadcast signal state corresponding to the parameter setting change during downconverting, demodulating, and decoding of the received RF broadcast signal distributed in various parts of the test target broadcast area and received by the RF broadcast signal transmitting means. A plurality of test receivers for detecting information data for measurement and retransmitting the detected information data and position information through a communication means;
It controls the broadcast signal parameter setting process of the broadcast signal generating means, receives information data retransmitted from the plurality of test receivers and analyzes the broadcast signals received by the plurality of test receivers according to the change of broadcast parameter setting. Field test system for setting the broadcast signal transmission option for each broadcast zone, characterized in that it comprises a control server to perform.
The method according to claim 1, wherein in the test receiver,
The communication medium used to retransmit the information data and the location information to the control server may be at least one of communication media including wired / wireless LAN, WAN, Internet, mobile communication network, PSTN and cable. A field test system for setting broadcast signal transmission options for each broadcast area.
The method according to claim 1, wherein the control server,
A field test system for directly controlling a control server locally or remotely controlling the broadcast signal generation means by a communication means.
The RF broadcast signal transmitted by the RF broadcast signal transmitting means is one of a digital terrestrial broadcast signal, a digital satellite broadcast signal and a digital cable broadcast signal. Field testing system.
The method according to claim 1, wherein the information data transmitted by the test receiver to the control server, RF channel power (RSSI), signal quality (SNR or MER), measured time information, the moving speed of the test receiver, error Field test system for setting the broadcast signal transmission option for each broadcast zone, characterized in that it comprises a terminal serial number.
The method according to claim 1, wherein the control server,
And a map (MAP) interworking analysis for a test target broadcast zone using the information data and location information received from the test receiver, and providing the broadcast signal transmission option for each broadcast zone.
Distributing a plurality of test receivers in a broadcast signal state test target broadcast zone according to a broadcast parameter;
A broadcast signal transmission step of changing a broadcast parameter setting in a broadcast signal generator according to a control signal of a control server, generating an RF broadcast signal from broadcast content data, and transmitting the generated RF broadcast signal to the air or a cable;
The RF receiver transmits the broadcast signal to a test receiver distributed at each point in the test target broadcast area, downconverts, demodulates, and decodes the received RF broadcast signal to broadcast corresponding to the broadcast parameter setting change. A retransmission step of detecting the information data of the signal and retransmitting the signal to the control server together with the location information;
And storing the retransmitted information data and position information in the test receiver in a storage means, and analyzing the state of a broadcast signal for a broadcast area using the information data and position information. Field test method for setting broadcast signal transmission option by broadcasting area.
The method of claim 7, further comprising: a final setting step of determining, by the control server, an optimal broadcast parameter for the broadcast zone by using analysis results of the retransmitted information data and location information and providing a broadcast service accordingly. Field test method for setting a broadcast signal transmission option for each broadcast zone, characterized in that configured.

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