KR101067201B1 - Method of Measuring Receive Sensitivity and Device of Measuring Receive Sensitivity - Google Patents

Abstract

The present invention relates to a receiving sensitivity measuring method and a measuring device, and comparing the difference between the intensity of the current output signal of the instrument and the intensity of the previous output signal with "0.1", and the intensity and the previous output signal of the current output signal of the instrument. If the difference in intensity is not "0.1", after changing the current output signal or the previous output signal using the reset output signal and comparing the difference between the intensity of the current output signal and the previous output signal of the changed instrument with "0.1" The difference between the intensity of the current output signal of the instrument and the intensity of the previous output signal is repeated until " 0.1 ".

Receiver sensitivity, measuring instrument, receiver, output signal

Description

Method of Measuring Receive Sensitivity and Device of Measuring Receive Sensitivity

The present invention relates to a receiving sensitivity measuring method and measuring apparatus for measuring the receiving sensitivity of a receiver while reducing the output signal output from the measuring instrument to a predetermined step.

Digital multimedia broadcasting (DMB) refers to a digital multimedia broadcasting that can provide CD quality sound and data or video services, and provide excellent fixed or mobile reception quality.

Digital multimedia broadcasting is largely divided into terrestrial DMB capable of regional service and satellite DMB capable of national service, depending on the means of transmission.

Terrestrial DMB delivers various contents such as music, text, and video through portable terminals such as small TVs and PDAs with excellent mobile reception characteristics, and establishes a complementary relationship with digital terrestrial TV broadcasting to provide combined services with mobile communication terminals. It is possible to achieve breakthrough demand creation.

Satellite DMB provides multimedia broadcasting services including audio, additional data or video to fixed, mobile and portable receivers through satellite, provides various quality audio broadcasting services at low cost, and covers existing areas by using satellites. Can greatly expand the audible range of

Such a portable multimedia broadcasting receiver should have a reception sensitivity capable of receiving a signal output from a measuring instrument, and the measurement of the reception sensitivity of the portable multimedia receiver is one of important factors with respect to reception performance.

1 is a diagram illustrating a reception sensitivity measuring apparatus of a conventional portable multimedia broadcasting receiver.

As shown in FIG. 1, the reception sensitivity measuring apparatus of the conventional portable multimedia broadcasting receiver requires an artificial action in which the measurer manually sets the measuring instrument and the receiver.

The measurer manually sets the meter 10 and the receiver 20 to adjust the intensity of the output signal (RF signal) of the meter 10, checks the value of the bit error ratio (BER) of the receiver 20, and sets a reference value. The intensity of the output signal (RF signal) of the instrument 10 is adjusted until a bit error rate corresponding to (spec BER) is obtained.

Here, the bit error rate represents the number of bits in which an error occurs in the process of being transmitted with respect to the number of bits received. In general, the lower the signal-to-noise ratio (SNR), the higher the bit error rate.

That is, after the measurer initially sets the communication environment between the meter 10 and the receiver 20, the measurer adjusts the intensity of the output signal (RF signal) of the meter 10.

The bit error rate of the receiver 20 is read out according to the intensity of the adjusted output signal (RF signal) and compared with a reference value (spec BER).

At this time, the receiver 20 is connected to a PC with a control program and a USB cable or the like to transmit the receiver output and control data to the PC, the bit error rate of the receiver 20 is calculated using the control program laid on the PC, It is compared with the spec BER stored on the PC.

The above process is repeated by adjusting the output signal (RF signal) of the meter 10 until the bit error rate of the receiver 20 meets the reference value (spec BER), and outputs when the reference value (spec BER) is met. Record the strength of the signal BER.

The reception sensitivity measuring apparatus of the conventional portable multimedia broadcasting receiver has a problem in that accuracy is low and takes a lot of time since the measurer must manually adjust the intensity of the output signal (RF signal) of the measuring instrument 10.

The present invention provides a reception sensitivity measuring apparatus for determining an output signal of a measuring instrument using a previous output signal, a current output signal, a reset output signal, a bit error rate of a receiver and a reference bit error rate, a measuring method and a recording medium recording the same. to provide.

According to one aspect of the invention, (a) comparing the difference between the intensity of the current output signal of the instrument and the intensity of the previous output signal with "0.1", and (b) the intensity and previous output signal of the current output signal of the instrument If the difference in intensity is not "0.1", after changing the current output signal or the previous output signal using the reset output signal and comparing the difference between the intensity of the current output signal and the previous output signal of the changed instrument with "0.1" In addition, the step (b) is repeated until the difference between the intensity of the current output signal of the instrument and the intensity of the previous output signal is "0.1".

In addition, the reception sensitivity measuring method according to the present invention further comprises the step of storing the current output signal as the final output signal of the instrument when the difference between the intensity of the current output signal and the intensity of the previous output signal of the instrument is "0.1". It is desirable to.

In addition, the reset output signal of the reception sensitivity measuring method according to the present invention is preferably set to a value obtained by rounding the average of the current output signal and the previous output signal of the measuring instrument.

Also, in the step (b) of the reception sensitivity measuring method according to the present invention, when the bit error rate is greater than a reference bit error rate by calculating a bit error rate of the receiver corresponding to the reset output signal, the previous output signal is a reset output signal. When the bit error rate is smaller than the reference bit error rate, the current output signal is preferably changed to a reset output signal.

According to another feature of the invention, (a) the frequency and intensity of the output signal of the instrument is tuned within the range of the receiver so that the output signal output from the instrument can be received by the receiver, (b) the output Comparing the previous output signal and the current output signal output from the measuring instrument when the frequency and intensity of the signal are tuned, (c) generating a reset output signal using the previous output signal and the current output signal and applying the reset output signal to the reset output signal. Comparing the bit error rate and the reference bit error rate of the corresponding receiver to change the previous output signal or the current output signal to the reset output signal, and (d) comparing the changed previous output signal or the current output signal; (B) to (d) are repeated until the difference between the previous output signal and the current output signal is "0.1" The.

In addition, the reception sensitivity measuring method according to the present invention preferably further comprises the step of storing the current output signal as a final output signal that can be received when the difference between the current output signal is the current output signal "0.1".

According to another feature of the present invention, a program for performing a reception sensitivity measuring method may be recorded and recorded on a recording medium readable by the electronic device.

According to another feature of the invention, the input unit receives the previous output signal, the current output signal of the measuring instrument and the bit error rate of the receiver, the reference bit error rate, the magnitude of the magnitude by comparing the magnitude of the previous output signal and the current output signal of the instrument A comparator for determining whether the difference is "0.1", if the difference between the magnitude of the previous output signal and the current output signal of the instrument is "0.1", it is determined that the reception is possible, and if the difference is not "0.1", the reset output signal After setting the average of the previous output signal and the current output signal to a rounded value, the bit error rate corresponding to the reset output signal and the reference bit error rate are compared to change the previous output signal or the current output signal to the reset output signal, and then the comparison is performed. It includes a reset unit for passing to the negative.

In addition, the reception sensitivity measuring apparatus according to the present invention is a display unit for comparing the magnitude of the previous output signal and the current output signal of the instrument and outputs the current output signal as a final output signal that can be received when the magnitude difference is "0.1" It is preferable to further include.

In the exemplary embodiment of the present invention, since the final output signal can be detected by automatically adjusting the output signal of the measuring instrument, the measurement time can be shortened and the accuracy can be improved.

In addition, it is possible to find the limit reception sensitivity as well as determine the reception status of the receiver, and there is an effect of automatically storing data and processing / processing data.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Now, a method for measuring reception sensitivity, a measuring device, and a recording medium recording the same according to embodiments of the present invention will be described in detail with reference to the drawings. Duplicate explanations will be omitted.

2 is a diagram illustrating an apparatus for measuring reception sensitivity of a portable multimedia broadcasting receiver according to an exemplary embodiment of the present invention.

As shown in FIG. 2, the reception sensitivity measuring apparatus 300 of the portable multimedia broadcasting receiver according to the embodiment of the present invention includes an input unit, a comparison unit, a reset unit, and a display unit.

The input unit receives a previous output signal and a current output signal of the measuring instrument 100, receives a bit error rate and a reference bit error rate of the receiver 200, and the comparing unit compares the magnitude of the previous output signal of the measuring instrument 100 with the current output signal. To determine whether the size difference is "0.1".

The reset unit may determine that the difference between the previous output signal and the current output signal of the measuring device 100 is "0.1", and if the difference is not equal to "0.1", the reset unit outputs the reset output signal of the previous output signal and the current output signal. Set the mean to rounded values.

In addition, the bit error rate corresponding to the reset output signal and the reference bit error rate are compared to change the previous output signal or the current output signal to the reset output signal, and then transfer the result.

The display unit compares the magnitude of the previous output signal and the current output signal of the measuring instrument 100 and outputs the current output signal as a final output signal that can be received when the magnitude difference is "0.1".

The reception sensitivity measuring apparatus 300 of the portable multimedia broadcasting receiver according to an exemplary embodiment of the present invention may be formed as a module including the above-described input unit, comparator and reset unit, and includes an input unit, a comparator, a reset unit, and a display unit. It may be formed into a module including a.

The input unit may use a user interface (eg, a keyboard), and a USB, an RS-232 serial port, a GPIB port of a PCI card, etc., to which stored data of the meter 100 or the receiver 200 is transmitted, may be used.

3 is a flowchart illustrating a method for measuring reception sensitivity of a portable multimedia broadcasting receiver according to an embodiment of the present invention.

As shown in FIG. 3, a method for measuring reception sensitivity of a portable multimedia broadcasting receiver according to an embodiment of the present invention includes steps (a) to (d).

Where PREV is the previous output signal, CURR is the current output signal, RF is the output signal of the instrument, STEP is the output signal change step, BER is the bit error rate, SPEC is the reference bit error rate, and R ((PREV + CURR) / 2, 1 ) Corresponds to the reset output signal, and RF Limit corresponds to the threshold output signal.

Step (a) is a step in which the frequency and intensity of the output signal of the measuring instrument are tuned within a range in which the receiver can receive the output signal RF outputted from the measuring instrument (S301 to S311).

In general, in order for the output signal of the instrument to be received by the receiver, the frequency and strength of the receiver's receivable signal must be limited to a range that can be matched or recognized by the output signal of the instrument.

Therefore, in order to measure the reception sensitivity of the receiver, the output signal of the instrument must be recognized by the receiver.

First, the frequency of the output signal of the measuring instrument and the receivable signal of the receiver is tuned (S304), and the intensity of the output signal is adjusted so that the output signal of the measuring instrument is included in the intensity range of the receivable signal of the receiver (S305 to S311).

At this time, the intensity of the output signal that can be received by the receiver is measured by increasing the intensity of the output signal by an output signal change step from the initially set output signal.

In step (b), when the frequency and intensity of the output signal are tuned, the previous output signal PREV and the current output signal CURR output from the measuring instrument are compared (S312 and S313).

If the previous output signal PREV output from the instrument is greater than the current output signal CURR, an error message is displayed and the reception sensitivity measurement of the receiver is terminated (S320), and the previous output signal PREV output from the instrument is the current output signal. If less than (CURR), the difference between the previous output signal (PREV) and the current output signal (CURR) is equal to "0.1".

If the difference between the previous output signal PREV and the current output signal CURR is equal to "0.1", the current output signal is stored as the final output signal (S314), and the previous output signal PREV and the current output signal CURR If the difference is different from "0.1", the reset output signal is used to change the current output signal or the previous output signal.

Step (c) generates a reset output signal using the previous output signal PREV and the current output signal CURR, and compares the bit error rate and the reference bit error rate of the receiver corresponding to the reset output signal to the previous output signal or the current output. The step of changing the signal to the reset output signal (S315 ~ S319).

Step (d) is a step of comparing the changed previous output signal or the current output signal (S312), and steps (b) to (d) are repeated until the difference between the previous output signal and the current output signal becomes "0.1". .

The method may further include storing the current output signal as a final output signal receivable when the difference between the current output signal and the current output signal is “0.1” (S314).

Here, the reset output signal is set to a value obtained by rounding the average of the current output signal and the previous output signal of the instrument (S315, S316), and calculates a bit error rate of the receiver corresponding to the reset output signal so that the bit error rate is higher than the reference bit error rate. If large, the previous output signal is changed to the reset output signal (S319). If the bit error rate is smaller than the reference bit error rate, the current output signal is changed to the reset output signal (S318).

Therefore, the method of measuring the reception sensitivity of the receiver according to the embodiment of the present invention can detect the limit reception sensitivity.

The receiver sensitivity measurement method of the receiver can be prepared by a computer program, and codes and code segments constituting the program can be easily inferred by a computer programmer in the art.

In addition, the program related to the reception sensitivity measurement method may be stored in a computer readable medium, and may be implemented to measure the reception sensitivity of the receiver by being read and executed by the computer.

The information storage medium includes a magnetic recording medium and a carrier wave medium.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a diagram illustrating a reception sensitivity measuring apparatus of a conventional portable multimedia broadcasting receiver.

2 is a diagram illustrating an apparatus for measuring reception sensitivity of a portable multimedia broadcasting receiver according to an exemplary embodiment of the present invention.

3 is a flowchart illustrating a method for measuring reception sensitivity of a portable multimedia broadcasting receiver according to an embodiment of the present invention.

<Brief Description of Drawings>

100: instrument 200: receiver

300: reception sensitivity measuring device

Claims (9)

(a) comparing the difference between the intensity of the current output signal of the instrument and the intensity of the previous output signal with "0.1"; And (b) If the difference between the intensity of the current output signal of the instrument and the intensity of the previous output signal is not "0.1", the current output signal and the current output signal of the changed instrument after changing the current output signal or the previous output signal using the reset output signal; Comparing the intensity difference of the previous output signal with "0.1"; includes, Step (b) is repeated receiving sensitivity measurement method until the difference between the intensity of the current output signal and the intensity of the previous output signal of the measuring instrument is "0.1". The method of claim 1, And storing the current output signal as a final output signal of the instrument when the difference between the intensity of the current output signal of the meter and the intensity of the previous output signal is "0.1". The method of claim 1, And the reset output signal is set to a value obtained by rounding the average of the current output signal and the previous output signal of the instrument. The method of claim 1, In step (b), The bit error rate of the receiver corresponding to the reset output signal is calculated and the previous output signal is changed to a reset output signal when the bit error rate is greater than the reference bit error rate, and the current output signal is changed when the bit error rate is less than the reference bit error rate. Receiving sensitivity measurement method that is changed to reset output signal. (a) tuning the frequency and intensity of the output signal of the meter within a receivable range of the receiver so that the output signal output from the meter can be received by the receiver; (b) comparing a current output signal with a previous output signal output from the measuring instrument when the frequency and intensity of the output signal are tuned; (c) generating a reset output signal using the previous output signal and the current output signal, and comparing the bit error rate and the reference bit error rate of the receiver corresponding to the reset output signal to convert the previous output signal or the current output signal to the reset output signal. Changing to a signal; And (d) comparing the changed previous output signal or the current output signal; The receiving sensitivity measuring method of step (b) to (d) is repeated until the difference between the previous output signal and the current output signal is "0.1". The method of claim 5, And storing the current output signal as a final receivable output signal when the difference between the current output signal and the previous output signal is "0.1". A recording medium on which a program for performing the reception sensitivity measuring method according to any one of claims 1 to 6 is recorded and readable by an electronic device. An input unit configured to receive a previous output signal and a current output signal of the instrument and receive a bit error rate and a reference bit error rate of the receiver; A comparison unit comparing the magnitude of the previous output signal and the current output signal of the measuring instrument to determine whether the magnitude difference is "0.1"; If the magnitude difference between the previous output signal and the current output signal of the measuring instrument is "0.1", it is determined that the reception is possible. If the magnitude difference is not "0.1", it is determined that the reset output signal is the average of the previous output signal and the current output signal. A reset unit configured to set a rounded value, compare a bit error rate corresponding to the reset output signal with a reference bit error rate, change the previous output signal or the current output signal to the reset output signal, and then transfer the reset output signal to the comparison unit; Measuring device. The method of claim 8, And a display unit for comparing the magnitude of the previous output signal and the current output signal of the measuring instrument and outputting the current output signal as a final output signal receivable when the magnitude difference is "0.1".

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