JP2001024577A - Service area evaluation data acquisition method and apparatus, and service area evaluation system - Google Patents

Abstract

(57) [Summary] [Objective] To easily and in real time evaluate a service area of a mobile communication system using a cellular system. A perch channel is constantly transmitted from each of base stations 1 to 4 so that an actual mobile station can recognize a serving cell. The mobile measurement vehicle 5 first detects a perch channel transmitted from a surrounding base station, selects a perch channel to be measured, and measures propagation characteristics and communication quality characteristics using the channel. By using the perch channel, the measurement can be performed without any restriction on the place and time for measurement, and the service area can be evaluated in real time by effectively using the broadcast information of the perch channel.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a service area evaluation data acquisition method and apparatus for evaluating a service area in a mobile communication system using a cellular system, and a service area evaluation system.

[0002]

2. Description of the Related Art Generally, when a propagation characteristic measurement and a communication quality characteristic measurement in a service area in a mobile communication system using a cellular system are performed, a plurality of frequencies allocated to each base station are used for measurement. It allocates for a fixed time, performs movement measurement in the service area using the frequency, acquires propagation characteristic data and communication quality characteristic data, and evaluates the service area. Therefore, at the time of measurement, it is essential to notify necessary information such as the location, date and time, base station to be measured (measurement area), etc. to a person in charge of frequency management in advance.

[0003]

When the conventional measuring method is used, a frequency for measurement (for a plurality of base stations) is allocated for a certain period of time. Therefore, in each base station, the frequency to be allocated to the user temporarily decreases.

In a mobile communication system using the CDMA system, when a conventional measuring method is used, a spreading code for measurement (for a plurality of base stations) is allocated to a user for a certain period of time. The number of spreading codes temporarily decreases.

In a mobile communication system using the CDMA system, since only a few frequencies exist in the entire system, it is not practical to allocate frequencies for measurement. It is also conceivable to acquire the peripheral frequency of the commercial frequency band for measurement, use the frequency to acquire propagation data, communication quality data, and evaluate the service area,
The frequency used in the CDMA system is a wide band, and the distance between the center frequency is large between the commercial frequency and the measurement frequency, and there is a difference in the respective propagation characteristics. The service area at the commercial frequency is evaluated from the obtained measurement data. Becomes difficult.

It is an object of the present invention to provide a service area evaluation data acquisition method and apparatus and a service area evaluation system which solve the above problems.

[0007]

In a mobile communication system using a cellular system, a channel (perch channel) is provided for a mobile station to know its serving cell, and the channel is always used by each base station. Sent from.
Therefore, by previously knowing transmission conditions (transmission power, transmission frequency, etc.) of the channel transmitted from a plurality of base stations, the mobile measurement vehicle can receive perch channels from each base station in the service area. Then, the service area can be evaluated by measuring the propagation characteristics and the communication quality characteristics. The same applies to the CDMA mobile communication system.

According to the first aspect of the present invention, a perch channel which is constantly transmitted from a base station to which a cellular system is applied is provided.
Received by a mobile data acquisition device, the data acquisition device performs a measurement on the received perch channel, at least the propagation characteristic data and the communication quality characteristic data from the base station to the data acquisition device It is characterized by acquiring one.

According to a second aspect of the present invention, in the first aspect, the data acquisition device performs the measurement by further using broadcast information in the perch channel.

According to a third aspect of the present invention, in the first or second aspect, the data acquisition device detects a new perch channel to be measured if a predetermined condition is satisfied before the end of the measurement. Performing the measurement for the new perch channel.

Further, according to a fourth aspect of the present invention, a communication channel is connected between a base station to which a cellular system is applied and a mobile data acquisition device. The data acquisition device acquires at least one of propagation characteristic data and communication quality characteristic data from the data acquisition device to the base station, and the data acquisition device transmits the data from the data acquisition device to the base station. It is characterized by receiving at least one of propagation characteristic data and communication quality characteristic data.

According to a fifth aspect of the present invention, in the fourth aspect, when the data acquisition device detects a base station to be handed over before the end of the measurement, the data acquisition device communicates with a newly detected base station. And performing the acquisition and the reception between the newly detected base station and the data acquisition device.

[0013] Further, according to a sixth aspect of the present invention, there is provided a mobile service area evaluation data acquisition device, comprising: communication means for performing communication with a base station to which a cellular system is applied; Data for performing measurement on a perch channel constantly transmitted from a base station to which the cellular system is applied, and acquiring at least one of propagation characteristic data and communication quality characteristic data from the base station to the data acquisition device. Acquiring means.

The invention of claim 7 is characterized in that, in claim 6, the data acquisition means executes the measurement by further using broadcast information in the perch channel.

According to an eighth aspect of the present invention, in the sixth or seventh aspect, the data acquisition means detects a new perch channel to be measured if a predetermined condition is satisfied before the end of the measurement, and detects the new perch channel. Means for performing the measurement for the new perch channel.

In a ninth aspect of the present invention, there is provided a mobile service area evaluation data acquisition device, wherein communication means for communicating with a base station to which a cellular system is applied, and a communication channel is established by the communication means. Data acquisition means for receiving at least one of propagation characteristic data and communication quality characteristic data from the data acquisition device to the base station, the data being acquired and transmitted based on an uplink communication channel signal at the connected base station. It is characterized by having.

The invention according to claim 10 is the communication device according to claim 9, further comprising detection means for detecting whether or not there is a base station to be handed over before completion of the measurement. If a base station to be handed over is detected, a communication channel is connected between the newly detected base station and the data acquisition unit, and the data acquisition unit operates between the newly detected base station and the data acquisition device. , The acquisition and the reception are performed.

Further, the invention of claim 11 is the invention of claims 6 to 8
And / or any one of claims 9 to
10. A service area evaluation system having any one of the ten data acquisition devices.

Further, the invention of claim 12 is the invention of claims 6 to 8
Data acquired by any of the data acquisition devices of
Alternatively, a service area evaluation system including means for collectively managing data acquired by the data acquisition device according to any one of claims 9 to 10 is provided.

According to the present invention as described above, when a perch channel is used for service area evaluation, it is not necessary to allocate a frequency for measurement as in the prior art, and therefore, there is no time constraint on the measurement. , Perch channel propagation characteristics (reception level in service area, amount of interference,
Delay profile, etc.) and communication quality characteristics (bit error rate, message error rate, etc.). Also, by transmitting, for example, the transmission base station (sector) of the channel and the power at the time of transmission to the perch channel as broadcast information, the mobile data acquisition device receives the perch channel and transmits its propagation characteristics and communication quality characteristics. While measuring, the transmission base station (sector) of the channel and its transmission power can be known on the spot, and more detailed service area evaluation can be performed in real time.

Further, like the actual mobile station, the data acquisition apparatus is provided with a function capable of communicating with the base station, so that the base station can be selected from the measured propagation characteristics and communication quality characteristics of the perch channel, for example. By connecting a communication channel between the selected base station and the data acquisition device, uplink transmission characteristics and uplink communication quality characteristics (propagation characteristic data and communication quality characteristics from the data acquisition device to the base station) can be established. Data) can be measured in real time together with downlink propagation characteristics and communication quality characteristics (propagation characteristic data and communication quality characteristic data from the base station to the data acquisition device).

[0022]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to embodiments. FIG. 1 is a schematic diagram of the present system. In the figure,
1-4 are base stations installed in the service area, 6-9
Is a perch channel transmitted from each of the base stations 1 to 4, and 5 is a mobile measurement vehicle that acquires data while traveling in the service area. For simplicity, it is assumed that a non-directional antenna is used as a base station antenna, and a sector configuration is not performed.

Each base station always transmits a perch channel so that the actual mobile station can recognize the serving cell. The mobile measurement vehicle 5 first detects a perch channel transmitted from a surrounding base station, selects a perch channel to be measured, and uses the channel to perform propagation characteristics,
Measures communication quality characteristics. Incidentally, in order to identify the transmission base station of each perch channel, TDMA, FDMA
In a system in which the frequency differs for each perch channel as in the system, a correspondence table between the perch channel frequency and the base station may be used. On the other hand, when the same frequency is used for the perch channel as in CDMA, identification is performed from the correspondence table between the spreading code of each perch channel and the base station.

Here, it should be noted that, in a mobile communication system using the cellular system, the same frequency (spreading code) corresponding to a perch channel is generally used even at base stations that are spatially separated by a certain distance. Must.
Therefore, it is necessary to prepare the database of the position of each base station in advance and estimate the transmission base station of the measurement perch channel from the position of the mobile measurement vehicle 5. However, when the identification number of the base station is broadcast as the perch channel broadcast information, the base station can be easily identified based on this recognition number, and thus the above estimation is not necessary.

FIG. 2 shows an example of the configuration of the present system (moving measurement vehicle). In the figure, reference numeral 20 denotes a control device, which controls the measurement device and processes data, and also controls the entire system. 21 is a monitoring device for the acquired data, 22 is a hard disk device which constitutes a database for storing the acquired data, 23 is a position measuring device for acquiring position data of a measurement / measurement vehicle using GPS, and 24 is a perch channel actually received. And a communication device for communicating with a base station including an antenna.

Next, the operation of the control device will be mainly described with reference to FIG. At the time of measurement, first, the control device 20 sets measurement conditions (measurement target perch channel frequency, measurement target perch channel condition, perch channel re-detection condition, data sampling condition, measurement end condition, etc.) (S1). Here, the measurement end condition is, for example,
If the measurement time is specified in the measurement conditions,
When a measurement distance is designated for the time, the distance becomes a measurement condition.

When the measurement is started (S2), the control device 2
0 requests the measuring device 24 to detect a perch channel. In the measuring device 24, a perch channel in the vicinity is searched by the receiver, and all measurable perch channels exceeding a predetermined reception level are reported to the control device 20 (S3).

In the control device 20, from the measurable perch channel, the set target perch channel conditions (maximum number of perch channels, perch channel reception level, etc.)
, And selects a measurement target channel, and sends a data acquisition request for the channel to the measurement device 24 (S4). Further, the control device 20 decodes the perch channel broadcast information received by the measurement device 24 as the measurement target, and stores the information in a database (S5). The measurement device 24 performs measurement on the perch channel requested, acquires its propagation characteristic data and communication quality characteristic data at regular intervals, and sends them to the control device 20 (S6, S7). The control device 20 sequentially assigns the position data from the position measuring device 23 to the data sent from the measuring device 24, performs data processing (averaging process and the like) (S8), accumulates the values in the database, and Are displayed together with the map on the monitor device 21 (S9). Thus, the service area can be evaluated in real time. Then, it is determined whether or not the measurement termination condition is satisfied (S
10) If the condition is satisfied, the measurement is terminated, and if not, it is determined whether or not the perch channel re-detection condition is satisfied (S11).

That is, in this embodiment, as described above, before acquiring the propagation characteristic data and the communication quality characteristic data, first, the perch channel to be measured is detected. Since the mobile measurement vehicle acquires propagation characteristic data and communication quality characteristic data while traveling in the service area, a perch channel to be measured cannot be received or has no meaning to the user during traveling (for example, at a certain measurement point). The perch channel under measurement may not be the perch channel already having the maximum reception level). Therefore, the control device 20 refers to the set perch channel redetection conditions (time designation, distance designation, minimum value of the perch channel to be measured, etc.) in S11 until the measurement end condition is satisfied, and sets the set reestablishment. When one or two or more of the detection conditions are satisfied, the control device 20 sends a perch channel detection request to the measuring device 24 again, and the measuring device 24 re-detects a measurable perch channel. Here, the time designation is, for example, 1
If it is specified as 0 minutes, a perch channel is detected,
After 10 minutes have elapsed from the start of data acquisition, the perch channel is detected again. The distance designation is, for example, if 100 m is designated, the perch channel is detected and the data acquisition is started. When the measuring vehicle has moved 100 m, the perch channel is to be detected again. The minimum value of the perch channel to be measured is, for example, when the reception levels of all the perch channels under measurement are lower than xdBm. , Again to detect the perch channel.

FIG. 3 shows an outline of the above measurement procedure.

In this way, the user can evaluate the service area (for example, each of the service areas) by detecting the measured perch channel at certain intervals, decoding the broadcast information, and acquiring the propagation characteristic data and the communication quality characteristic data. The power range of each base station (sector), the shape of a cell, the communication quality state, the base station that determines that an actual mobile station is a communication target, and the like can be evaluated in real time from the reception level of the perch channel.
These data are stored on a hard disk, and the measured data is supplied to another system (for example, a communication quality estimation system) to change base station parameters and mobile station parameters based on the measured data. In this case, the service area can be estimated and evaluated. In addition, the mobile measurement vehicle accesses the service area evaluation data management center using appropriate wireless or wired communication means, sequentially transmits the acquired data, and collectively manages the acquired data at the service area evaluation data management center. You can do things.

Next, an embodiment in which uplink propagation data and uplink communication quality data are acquired in addition to acquisition of downlink propagation characteristic data and downlink communication quality characteristic data as described above will be described below.

In the CDMA system, interference from other users greatly affects communication quality. Therefore, in this case, generally, the downlink communication quality and the uplink communication quality are different. Therefore,
It is important to acquire uplink propagation characteristic data and uplink communication quality characteristic data in addition to downlink propagation characteristic data and downlink communication quality characteristic data.

The system configuration of this embodiment is the same as that of FIG. 2, and performs the following operation. FIG. 5 is a conceptual diagram of the present embodiment. The operation will be described with reference to FIG.

As in the above embodiment, first, measurement conditions are set (S21). When measurement is started (S22), the control device 20 requests the measurement device 24 to detect a perch channel. In the measuring device 24, the receiver searches for a perch channel in the vicinity, and reports all the measurable perch channels exceeding a predetermined reception level to the control device 20 (S2).
3).

In the control device 20, from the measurable perch channel, the set perch channel conditions to be measured (maximum number of perch channels, perch channel reception level, etc.)
, And selects a measurement target channel, and sends a data acquisition request for the channel to the measurement device 24 (S24). In response to this, the measurement device 24 connects a communication channel with the transmission base station of the perch channel to be measured, and transmits an uplink measurement request to the base station via the uplink communication channel (S25). The base station that has received the measurement request from the measurement device 24 recognizes that the received information is an uplink measurement request, and transmits the recognition to the mobile measurement vehicle via a downlink communication channel (S26). Thus, preparation for uplink measurement is completed between the mobile measurement vehicle and the base station.

Thereafter, a known bit arrangement determined in advance from the mobile measurement vehicle is transmitted to the base station using the uplink communication channel (S27), and the base station determines the reception level based on the transmission signal from the mobile measurement vehicle. And communication quality characteristics such as BER. The measurement result is sequentially transmitted to the mobile measurement vehicle using the downlink communication channel (S28).
By decoding the information from the base station, the mobile measurement vehicle can acquire the uplink propagation characteristic data and the uplink communication quality characteristic data of the signal transmitted by itself, and can save and display them (S29). . The measurement end condition (for example, when the measurement time is specified in the measurement condition, when the measurement time is specified, and when the measurement distance is specified, the distance is the measurement end condition). Until it is satisfied (S30), with the movement of the mobile measurement vehicle,
The perch channel re-detection condition is determined (S31). If this condition is satisfied, the perch channel is re-detected (S23). If the measured perch channel is changed, the perch channel before the change is immediately changed. The communication with the transmitting base station is stopped, and an uplink measurement request is sent to the perch channel transmitting base station after the change. Thereafter, the contents described above are repeated and continue until the measurement is completed.

[0038]

As described above, the present invention can acquire downlink propagation characteristic data and downlink communication quality characteristic data using a channel (perch channel) constantly transmitted from the base station. For this reason, it is not necessary to have a channel for measurement provided in advance at the time of measurement. further,
By effectively using the perch channel broadcast information, the transmission base station of the perch channel to be measured can be sequentially grasped, and the service area can be evaluated in real time. Further, if necessary, the communication with the base station is performed by referring to the downlink propagation characteristic data and the downlink communication quality characteristic data of the perch channel, so that the uplink propagation characteristic from the mobile measurement vehicle to the base station, the uplink communication Measurement of quality characteristics and transmission and reception of the measurement data can be easily performed.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of the present system.

FIG. 2 is a diagram illustrating a configuration example of the present system.

FIG. 3 is a schematic diagram of a measurement procedure of the present system.

FIG. 4 is a flowchart showing the operation of the present system.

FIG. 5 is a schematic diagram of another measurement procedure.

FIG. 6 is a flowchart showing another operation of the present system.

[Explanation of symbols]

1-4 base station 5 mobile measurement vehicle 6-9 perch channel transmitted from base stations 1-4 20 control device 21 monitoring device 22 hard disk device 23 position measuring device

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Shinichi Mori 2-1-1, Toranomon, Minato-ku, Tokyo NTT Mobile Communications Network Co., Ltd. F-term (reference) 5K067 AA33 BB02 DD13 DD27 DD42 DD43 FF16 GG01 HH05 LL01 LL11

Claims (12)

[Claims] 1. A mobile data acquisition device receives a perch channel constantly transmitted from a base station to which a cellular system is applied, and the data acquisition device performs measurement on the received perch channel. And acquiring at least one of propagation characteristic data and communication quality characteristic data from the base station to the data acquisition device. 2. The service area evaluation data acquisition method according to claim 1, wherein the data acquisition device performs the measurement by further using broadcast information in the perch channel. 3. The data acquisition device according to claim 1, wherein the data acquisition device detects a new perch channel to be measured when a predetermined condition is satisfied before the end of the measurement, and assigns the detected new perch channel to the new perch channel. And performing the measurement for the service area evaluation data. 4. A communication channel is connected between a base station to which a cellular system is applied and a mobile data acquisition device, and the base station transmits the communication channel from the data acquisition device based on an uplink communication channel signal. Acquiring at least one of propagation characteristic data and communication quality characteristic data to a base station; and in the data acquisition device, transmission characteristic data and communication quality transmitted from the data acquisition device to the base station transmitted from the base station. A method for acquiring service area evaluation data, comprising receiving at least one of the characteristic data. 5. The data acquisition device according to claim 4, wherein the data acquisition device connects a communication channel with a newly detected base station when detecting a base station to be handed over before the end of the measurement. A data acquisition method for service area evaluation, wherein the acquisition and the reception are performed between the base station detected in (1) and the data acquisition device. 6. A mobile service area evaluation data acquisition device, comprising: communication means for communicating with a base station to which a cellular system is applied; and a base station to which the cellular system is applied, the base station being received by the communication means. Data acquisition means for performing measurement on a perch channel constantly transmitted from a station to acquire at least one of propagation characteristic data and communication quality characteristic data from the base station to the data acquisition device. A service area evaluation data acquisition device, characterized in that: 7. The service area evaluation data acquisition device according to claim 6, wherein the data acquisition unit performs the measurement by further using broadcast information in the perch channel. 8. The data acquisition means according to claim 6, wherein the data acquisition means detects a new perch channel to be measured when a predetermined condition is satisfied before the end of the measurement, and assigns the detected new perch channel to the detected new perch channel. A service area evaluation data acquisition device, further comprising means for executing the measurement. 9. A mobile service area evaluation data acquisition device, comprising: communication means for communicating with a base station to which a cellular system is applied; and uplink communication at a base station connected to a communication channel by the communication means. Data acquisition means for receiving at least one of propagation characteristic data and communication quality characteristic data from the data acquisition device to the base station, the data being acquired and transmitted based on a signal of a communication channel. Service area evaluation data acquisition device. 10. The base station according to claim 9, further comprising detection means for detecting whether there is a base station to be handed over before completion of the measurement, wherein said communication means is a base station to be handed over by said detection means. When a communication channel is connected to a newly detected base station, the data acquisition unit performs the acquisition and the reception between the newly detected base station and the data acquisition device. And a service area evaluation data acquisition device. 11. A service area evaluation system comprising the data acquisition device according to any one of claims 6 to 8 and / or the data acquisition device according to any one of claims 9 to 10. 12. A means for collectively managing data acquired by the data acquisition device according to any one of claims 6 to 8 and / or data acquired by the data acquisition device according to any one of claims 9 to 10. Characteristic service area evaluation system.