JPH08189943A - Method for measuring receiving level - Google Patents

Abstract

PURPOSE: To accurately find the receiving level of a receiver for radio waves from a mobile measurement vehicle without relying upon the moving speed of the vehicle at the time of measuring the average radio wave receiving level of the receiver when the vehicle moves in a fixed section by transmitting the radio waves from the vehicle while the vehicle moves and receiving the radio waves by means of the receiver fixed to a prescribed position. CONSTITUTION: A mobile measurement vehicle 1 transmits radio waves from a transmitter 101 while the vehicle 1 moves. While the transmitter 101 transmits the radio waves, a controller 104 on the vehicle 1 records the moving distance of the vehicle 1 based on the data from a clock 103 and distance sensor 102. On the receiving side, on the other hand, a receiver 201 receives the radio waves from the transmitter 101. A controller 203 on the receiving side records the receiving level of the receiver 201 at regular time intervals based on the time data from a clock 202. Then the average receiving level of the receiver 201 in a fixed section is found based on the moving distance of the vehicle 1 and receiving level recorded at the regular internals.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of measuring a reception level in mobile communication. Especially when the transmitter is mounted on a mobile measuring vehicle and transmitted while transmitting, the level of the radio wave is measured by the receiver fixedly installed in a place different from the transmitter, and the transmitter is kept constant. The present invention relates to a method of calculating a reception level value in a section moved by a distance.

[0002]

2. Description of the Related Art Conventionally, as a method for measuring the reception level of mobile communication, there has been a method using the configuration shown in FIG. In FIG. 4, reference numeral 1 denotes a mobile measurement vehicle that measures a reception level while moving within a mobile communication service area, and includes a receiver 11, a vehicle speed sensor 12, and a control device 13. Further, 2 is a transmitter fixed at a predetermined position in the service area.

In such a structure, the mobile measuring vehicle 1
Receives the radio wave transmitted from the transmitter 2 by the receiver 11 while moving within the service area. FIG. 5 exemplifies a change in the reception level of the receiver 11 due to the movement of the mobile measurement vehicle 1. The horizontal axis represents the travel distance of the mobile measurement vehicle 1, the vertical axis represents the reception level, and the curve A represents the mobile measurement. The reception level of the receiver 11 when the vehicle 11 is at each position is shown.

When the mobile measuring vehicle 1 moves, the rotation of the axle is detected by the distance sensor 12, and the mobile measuring vehicle 1
A distance pulse is output every time A moves by a predetermined distance ΔL. The control device 13 causes the receiver 1 to use the distance pulse.
The reception level of 1 is sampled, and the average value of the reception levels in the section having the fixed length L is calculated based on the sample data sequence of the reception level obtained as a result.

That is, the sampling interval ΔL is 1 m, the reception level sample data is Ei, and the measurement section L is
The number of times the reception level is sampled within N (=
L / ΔL), the control device 13 obtains the average value E of the reception levels in the measurement section L according to the formula shown below.

[Equation 1]

On the other hand, as a method different from the above, as shown in FIG. 6, a mobile measuring vehicle 1, a transmitter 14, and a distance sensor 1 are provided.
5, a clock 16 and a control device 17 are mounted, and a receiver 21, a clock 22 and a control device 23 are fixed at predetermined positions in a service area to measure the reception level. Hereinafter, this method will be described.

First, the mobile measuring vehicle 1 moves within the service area while transmitting radio waves from the transmitter 14. In addition, the control device 17 in the mobile measuring vehicle 1 constantly monitors the moving distance of the mobile measuring vehicle 1 via the distance sensor 15, and constantly monitors the elapsed time from the start of measurement of the reception level by the clock 16. Then, based on these monitoring results, FIG.
As shown in (a), the mobile measuring vehicle 1 has a constant distance L
Each time i passes, the elapsed time Ti from the start of measurement at that time is obtained and recorded.

On the other hand, on the receiving side, while the receiver 21 receives the radio wave from the transmitter 14 of the mobile measuring vehicle 1, the clock 22 measures the elapsed time from the start of the measurement. Then, as shown in FIG. 7B, the control device 23 on the reception side sets the reception level of the receiver 21 at that time as the elapsed time from the start of measurement every time the unit time ΔT elapses (for example, 1 second). We will record it together.

Then, the control device 23 on the receiving side measures ΔT measured on the receiving side while the mobile measuring vehicle 1 passes through the section Li.
Each reception level E (t) (in FIG. 7, M data E (Δ
T), E (2ΔT), E (3ΔT) ,. ． ． , E (MΔ
T) corresponds to the reception level E (t) for each ΔT. ), The reception level E in the section Li is calculated by the following equation.

[Equation 2]

[0010]

By the way, the above-mentioned 2
In the latter method of the kinds of methods, if the moving speed of the mobile measuring vehicle 1 is a constant speed (constant at v (t) = v), the reception level is sampled at a distance interval (ΔL) to perform an arithmetic process. The result is equal to the result obtained by sampling the reception level and calculating the time interval at ΔT = ΔL / v.

However, when the moving speed (v (t)) of the mobile measuring vehicle 1 dynamically changes, the receiving side cannot obtain the timing for sampling the receiving level at constant distance intervals (ΔL). Therefore, the result measured at the distance interval and the result measured at the time interval are obviously different from each other. Unlike the case where the moving speed is measured at a constant speed, the reception level is sampled at every constant distance interval (ΔL) and the arithmetic processing is performed. Then, there is a drawback that the reception level in a certain section cannot be obtained.

According to the present invention, when a transmitter is mounted on a mobile measuring vehicle or the like and transmitted while transmitting, the level of the radio wave is measured by a receiver fixedly installed in a place different from the transmitter. An object of the present invention is to provide a measuring method capable of calculating a reception level value without depending on the moving speed of the transmitter when calculating the reception level value in a section in which the transmitter moves a certain distance.

[0013]

SUMMARY OF THE INVENTION According to the present invention, when a transmitter is mounted on a mobile measurement vehicle and transmitted while transmitting, the radio wave of the radio wave is received by a receiver fixedly installed at a place different from the transmitter. When calculating the reception level value in the section where the transmitter moves a certain distance by measuring the level, the transmitter measures the moving speed information for each unit time, and the receiving level information measured by the receiver The main feature is to calculate a reception level value in a section in which the transmitter has moved by a certain distance by performing arithmetic processing on and the moving speed information obtained for each unit time.

[0014]

According to the present invention, by using the moving speed information of the transmitter, it is possible to calculate the reception level value in the section moved by a certain distance without depending on the moving speed of the transmitter.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows an example of the configuration for carrying out the present invention. In this embodiment, the mobile measuring vehicle 1 on the transmitting side includes a transmitter 101, a distance sensor 102 for measuring a moving distance, and a timepiece 1 for measuring an elapsed time from the start of measurement.
03, and a control device 104 that records the moving distance and the elapsed time together.

On the other hand, the reception side comprises a receiver 201 for measuring the reception level, a clock 202 for measuring the elapsed time from the start of measurement, and a control device 203 for recording the reception level and the elapsed time together. , They are fixed in place. However, the clock that measures the elapsed time is
Both the transmitting side and the receiving side may be built in the control device.

The measurement algorithm of this embodiment is shown in FIG. First, on the transmitting side, while transmitting radio waves, the time interval Δ
For each T, the movement distance ΔL within that time (ΔL ₁ , Δ in FIG. 2)
L ₂ , ...). On the other hand, on the receiving side, for each time interval ΔT, the reception level ΔE within that time (ΔE ₁ , Δ in FIG. 2).
E ₂ , ...).

Now, let us say that the distance traveled by the mobile measuring vehicle 1 at the i-th time interval from the start of measurement is ΔLi, and the reception level measured via the receiver 201 during this time is ΔEi. However, it is assumed that the transmitting side and the receiving side are time-synchronized within a certain time difference. Here, the measurement section L
(For example, in FIG. 2, the time taken to move the section L ₁ ) is mΔT (where m is the time interval ΔT).
Then, the reception level E in the measurement section L is
The reception level ΔEi obtained for each T is weighted by the movement distance ΔLi moved during that period, and can be obtained as in the following equation.

(Equation 3) However, in the above formula,

[Equation 4] Is.

In this embodiment, the control device 2 on the receiving side
The reception level ΔEi for each time interval ΔT in the above equation is recorded by 03, and the moving distance ΔLi for each time interval ΔT is recorded by the control device 104 of the mobile measurement vehicle 1 that is the transmitting side. Then, using the thus recorded ΔEi and ΔLi, the arithmetic processing according to the above equation is performed.
Therefore, the measurement interval L does not depend on the moving speed of the transmitter.
The reception level value at can be calculated.

In the following, the calculated reception level E will be considered a little. First, in the case of constant velocity, ΔLi is constant, so the reception level E in the measurement section L is given by the following equation.

(Equation 5) The above equation is obviously equal to the result of sampling the reception level at a distance interval of ΔL and performing arithmetic processing.

Next, among the m pieces of data, the first k pieces are stopped at a moving speed of 0, and the remaining m−k pieces are made constant. In this case, the reception level E in the measurement section L is given by the following equation.

(Equation 6) Since the k reception levels stopped at the moving speed of 0 are not reflected in the calculation, they are equal to the results obtained by sampling the reception levels at a distance interval of ΔL and performing arithmetic processing.

In the above embodiment, the moving distance is measured by the mobile measuring vehicle on the transmitting side. However, even if the moving speed is measured instead of the moving distance, the same effect as in the above embodiment can be obtained. can get. Also, if multiple receivers are installed in different locations as shown in FIG. 3, it is possible to measure the reception level at the installation location of the multiple receivers with one transmitter (one frequency is enough), which improves efficiency. Can be improved. Further, also in the measurement accuracy, the same measurement accuracy as the reception level measurement which is conventionally performed by fixing the transmitter and moving the receiver can be obtained.

[0023]

As described above, according to the present invention,
When measuring the reception level by transmitting the radio wave while moving the transmitter on a mobile measurement vehicle etc. and receiving the radio wave at the receiver fixedly installed in a place different from the transmitter The effect is that the reception level can be obtained without depending on the moving speed of the transmitter.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a measurement configuration example of the present invention.

FIG. 2 is a diagram illustrating a measurement algorithm of the present invention.

FIG. 3 is a diagram illustrating another measurement configuration example of the present invention.

FIG. 4 is a diagram for explaining the reception level measurement in the conventional system, and is a diagram for explaining the outline of the system in which the transmitter is fixed and the reception is moved to measure the reception level.

FIG. 5 is a diagram for explaining a general reception level in mobile communication.

FIG. 6 illustrates an outline of a method of measuring the level of a radio wave in a receiver fixedly installed in a place different from the transmitter when the transmitter is mounted on a mobile measurement vehicle or the like and is transmitted while moving. FIG.

FIG. 7 shows a conventional method in which the level of the radio wave is measured by a receiver fixedly installed at a place different from the transmitter when the transmitter is mounted on a mobile measurement vehicle or the like and is transmitted while moving. It is a figure explaining a measurement algorithm.

[Explanation of symbols]

 1 ... Mobile measuring vehicle, 101 ... Transmitter, 102 ... Distance sensor, 103 ... Clock, 104 ... Control device, 201 ... Receiver, 202 ... Clock, 203 ... Control device.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display H04B 17/00 G

Claims (1)

[Claims] 1. A means for sampling the reception level discretely in time, obtaining a reception level value for each unit time interval, and storing the value together with the elapsed time from the start of measurement, and a means for synchronizing with the measurement. A means for measuring the moving distance or moving speed for each unit time interval and storing it together with the elapsed time from the start of measurement, and the reception level value measured for each unit time interval with the same elapsed time And a moving distance or moving speed are calculated to calculate a receiving level for each fixed distance.