JP2001309425A - Cdma mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress interference from a terminal having a high information transmission rate. SOLUTION: Placing a limit on an information transmission arte of a terminal resident in the vicinity of a cell border or placing a limit to a transmission rate of a terminal with a high information transmission rate when communication quality in an adjacent base station is deteriorated, can suppress interference on the adjacent base station and enhance the efficiency of a CDMA mobile communication system. A received power measurement 11 of a mobile terminal MS measures received power of a control signal from a base station BS. When the received power is a prescribed threshold or lower, an information signal control section 10 discriminates that the mobile terminal is located in the vicinity of a cell border, and the mobile terminal uses code signal generating sections 12-15 to transmit an information signal, having been transmitted in 4-multiple code as 2-multi-code through the use of the code signal generating sections 12, 13.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a code division multiple access (hereinafter referred to as "CDMA").
That. The present invention relates to a mobile communication system using the method.

[0002]

2. Description of the Related Art There is known a technique for efficiently accommodating, in a mobile radio communication system, multimedia terminals having various information transmission speeds, such as data devices and image transceivers, in addition to mobile phones. The main such techniques in the CDMA system include variable spreading factor transmission and multi-code transmission. There are the following documents as techniques in such a field. "Mobile Radio Access for Multimedia: W-CDMA" Sawabashi, Adachi, IEICE Technical Report SST98-41,
(1998-12), pp.1-8

[0003] Multicode transmission will be briefly described with reference to FIG. Here, uplink transmission from a mobile terminal to a base station is mainly assumed. FIG. 9 shows the basic transmission speed 4
It is assumed that a data signal having a double transmission speed is transmitted. The information signal is spread and transmitted by the spread signal at the mobile terminal. The information signal is converted into four parallel signals, and each signal is spread using a corresponding spreading code (code) code1, code2, code3, and code4. In the CDMA method, spreading and despreading are performed using the same code between the transmission and the reception,
Signal synchronization needs to be accurate. Therefore, in general, synchronization acquisition is facilitated by transmitting the synchronization signal simultaneously with the information signal. This synchronization signal is sometimes called a pilot signal. Since the synchronization signal is not information-modulated (that is, all 1s or all -1s), it can be handled as a known signal on the receiving side.

In FIG. 9A, a synchronization signal is a code
Spread with 0. The synchronization signal and the information signal are transmitted in synchronization. code 0 and codes 1 to 4 are orthogonal signals. Therefore, no interference occurs between the information signal and the synchronization signal in the same terminal. However, for other terminal signals,
Because of the interference, measures such as lowering the transmission power of the synchronization signal than the information signal are taken. FIG. 9B shows a case where the synchronization signal is embedded in the information signal.
In this figure, the synchronization signal is transmitted with power of four codes. However, by reducing the transmission power, it is possible to reduce the amount of interference of the entire system. The transmission interval and duration of the synchronization signal can be determined with reference to the fluctuation of the propagation path.

On the other hand, in variable spreading factor transmission, the spreading factor of an information signal is determined by its transmission speed. When sending an information signal at twice the transmission rate using the same frequency band,
The spreading factor is reduced by half. Conversely, if the transmission speed is 1/2, the spreading factor is doubled.

In the CDMA system, since all stations use the same frequency band, the amount of interference determines the capacity of the system. For this reason, a transmission power control technique for suppressing the amount of interference and controlling the transmission power so that all stations have the same communication quality has been adopted as an important technique. FIG. 10 shows a simple example of transmission power control in the uplink. In this figure, BS1 is a base station, and MS_a and MS_b are mobile terminals connected to the base station BS1. As shown, the base station
In BS1, a target value of the reception power is set. This target value is set to be equal to or higher than the guaranteed value of the communication quality guaranteed by the system. Each mobile terminal MS_a, MS_b is a base station
The transmission power is set so that the reception power in BS1 always becomes a target value. Further, a method is known in which the base station BS1 varies the target reception power value according to the communication quality. In this way, all mobile terminals in the cell perform transmission power control on the target value, so that the communication quality in the uplink becomes constant.

Here, assuming that mobile terminal MS_b is a mobile terminal (multi-code mobile terminal) that transmits a multi-code signal (two multi-code signals in the illustrated example), in mobile terminal MS_b, each code signal has a target power. Transmission power control is performed to satisfy the value. Therefore, a mobile terminal transmitting a two multicode signal transmits a signal with twice as much power as a mobile terminal transmitting a single code signal existing in the same place. However, since signals are synchronized between multicodes from the same mobile terminal and do not cause interference, it is possible to reduce the transmission power by that amount. In the above description, the transmission power of each mobile terminal is controlled so that the reception power at the base station becomes the target value. However, the base station is controlled so that the reception power at each mobile terminal becomes the target value. There is also known transmission power control in a downlink for controlling transmission power for each mobile terminal from a mobile station.

[0008]

As described above, the transmission power at a mobile terminal transmitting a high multicode signal is:
The transmission power of a mobile terminal that transmits a single code signal is approximately several times the multicode. Therefore, a transmission signal from a mobile terminal that transmits a high multicode signal may cause a great deal of interference not only to a connected base station but also to an adjacent base station. This will be described with reference to a simple example shown in FIG. In this figure, BS1 and BS2 are adjacent base stations, and MS_a and MS_b are mobile terminals having a high information transmission rate connected to the base station BS1. As shown in the figure, it is assumed that the mobile terminals MS_a and MS_b are both transmitting with a 4-multicode signal, and are performing transmission power control on the base station BS1 connected together. For this reason, signals from both mobile terminals are received at the base station BS1 with power approximately four times as high as the reception target power value set by BS1. When the communication quality is deteriorated in the base station BS1, the signal from the multi-code mobile terminal will further deteriorate the communication quality. Therefore, in the base station BS1, when there is a connection request from these multicode mobile terminals,
Judgment of connection request acceptance / rejection or conditional acceptance with a reduced number of codes is determined with reference to the current communication quality of the own station.

[0009] As shown in the figure, assuming that the mobile terminal MS_a exists near the base station BS1, the transmission power for each code is small and the mobile terminal MS_a is far from the adjacent base station BS2. The transmission signal is transmitted to the base station BS2.
It is conceivable that it does not cause significant interference. On the other hand, the mobile terminal MS_b exists near the cell boundary of BS1, the transmission power for each code is large, and the mobile terminal MS_b transmits with power for four codes. Further, since MS_b is close to the base station BS2, the transmission signal of MS_b is expected to give a great deal of interference to BS2 and significantly degrade the communication quality in BS2. As described above, whether to connect the mobile terminal MS_b is determined by the base station.
Since BS1 performs it, base station BS2 cannot cope with a great deal of interference from adjacent cells.

Therefore, the present invention suppresses the amount of interference of a mobile terminal having a high information transmission rate with an adjacent base station,
C that can improve the efficiency of the entire system
It is intended to provide a DMA mobile communication system.

[0011]

In order to achieve the above object, a CDMA mobile communication system according to the present invention provides a CDMA mobile communication system which transmits a multi-code signal between a terminal having various information transmission rates and a base station. In a mobile communication system, a terminal located at a position distant from the base station transmits the multi-code to be transmitted simultaneously with the number of multi-codes being reduced below a normal request value. Further, in a CDMA mobile communication system for transmitting a variable spreading factor between a terminal having information of various information transmission rates and a base station, a terminal located at a position distant from the base station has a signal spreading factor of The transmission is made higher than the normal request value. Further, in each of the above CDMA mobile communication systems, the base station transmits to a terminal located at a position distant from the base station by reducing the number of multicodes to be transmitted at the same time or increasing the spreading factor of a signal. It is like that.

Furthermore, in a CDMA mobile communication system in which a multi-code signal is transmitted between a terminal having various information transmission rates and a base station, the communication quality in the base station is set in advance. When the value is higher than the value, the terminal located closer to the base station transmits the multi-code to be transmitted at the same time as the number of multi-codes to be transmitted, which is usually larger than the required value. Furthermore,
In a CDMA mobile communication system that transmits a signal with a variable spreading factor between a terminal having various information transmission rates and a base station, when the communication quality at the base station is higher than a preset communication quality guarantee value In addition, a terminal located near the base station transmits a signal with a spreading factor of a signal lower than a required value. Furthermore, in each of the CDMA mobile communication systems, when the communication quality of the base station is higher than a communication quality assurance value set in advance, the base station transmits to a terminal located at a position close to the base station. The transmission is performed by increasing the number of multi-codes to be transmitted at the same time or reducing the spreading factor.

Further, in a CDMA mobile communication system for transmitting between a terminal having various information transmission speeds and a base station using a multicode signal or with a variable spreading factor, the base station is adjacent to the base station. When communication quality is deteriorated in some of the base stations, a restriction is imposed on a connection request from a terminal having a high information transmission rate. Furthermore, a CD that transmits between a terminal having various information transmission rates and a base station using a multicode signal or with a variable spreading factor
In the MA mobile communication system, when the communication quality is deteriorated in some of the base stations adjacent to the base station, the transmission rate of the terminal having the high information transmission rate, or the transmission rate of the terminal having the high information transmission rate The transmission speed is limited.

[0014]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Before describing each embodiment of the CDMA mobile communication system of the present invention, first, a basic concept of the present invention will be described with reference to FIG.
In FIG. 3, BS1 and BS2 are adjacent base stations, MS_a and MS_b.
Are both multi-code mobile terminals. Here, it is assumed that both mobile terminals MS_a and MS_b have an information transmission rate of 4 multi-codes. That is, mobile terminals MS_a, MS_b
Is capable of transmitting various transmission information such as voice information, data information, and image information at a corresponding information transmission rate. Here, it is assumed that transmission of up to four multicodes can be performed. . In addition, both mobile terminals MS_a,
It is assumed that both MS_b are connected to base station BS1. Further, as shown, it is assumed that mobile terminal MS_a is located near base station BS1, and MS_b is located at a remote location near the cell boundary of BS1.

As described above, since the mobile terminal MS_b exists near the cell boundary and is close to the base station BS2, it causes a great deal of interference to the BS2 and deteriorates the communication quality in the BS2. Therefore, in the present invention, in the mobile terminal MS_b, the maximum value of the information transmission rate is limited to reduce the number of multicodes transmitted simultaneously, thereby suppressing interference with BS2. Here, in the mobile terminal MS_b in which the number of multicodes is reduced, the transmission rate is reduced by deleting information of low importance, or when transmitting information that allows transmission delay such as data, By extending the communication duration, it operates to limit the maximum transmission rate.

FIG. 4 is a diagram showing an example of the reduction of the information transmission speed in the mobile terminal MS_b located at a position remote from the connected base station BS1. The example shown in this figure is
As shown in (a), assuming that the mobile terminal MS_b has transmitted a signal having a multi-code number of 8, which is its normal request value,
As shown in (b), the maximum transmission rate is limited to 4 multicodes. As a result, the transmission power can be reduced to half as shown in the figure. Here, by doubling the communication duration, the maximum transmission rate can be suppressed without deleting information.

A method of reducing the information transmission rate (for example, the number of multicodes) of a mobile terminal having a high information transmission rate located near the cell boundary (a place distant from the base station) will be described later. As shown in the embodiment,
There are various methods, such as a method in which the mobile terminal makes a voluntary decision or a method in which a notification is made from the base station. Typically, on mobile terminals,
It receives a control signal (sometimes called a pilot signal) that is constantly transmitted from the base station. Since the transmission power of this control signal is a constant value, the mobile terminal can know the approximate position of its own station (the distance from the base station) from the received power. Therefore, when the threshold value of the control signal reception power is set, a zone that is equal to or higher than the threshold and a zone that is equal to or lower than the threshold naturally occur. In FIG. 3, an area indicated by area_s is an area where the received power of the pilot signal is equal to or less than the threshold, and the mobile terminals existing therein may be limited by the information transmission rate described above. .

In the case where downlink transmission power control is performed, transmission power information for allowing each mobile terminal to control the transmission power of the base station with respect to the mobile terminal, The information indicating the communication quality or the received power of the control signal received at step (1) is transmitted. Therefore, the base station can estimate the position of the mobile terminal from the transmission power information and the like sent from the mobile terminal.
When the base station determines that the mobile terminal exists in the area_s, the base station may notify the mobile terminal of the restriction on the information transmission rate.

Hereinafter, embodiments of the present invention will be described. FIG. 1 is a block diagram showing a schematic configuration of the first embodiment of the present invention. The mobile terminal MS receives a control signal (pilot signal) from a base BS station to be connected (or to which connection is desired), and the received power measuring unit 11 measures the received power. Although the received power is measured here, the communication quality of the received signal may be measured. Then, the mobile terminal MS sends the control signal reception power information measured by the reception power measurement section 11 to the information signal control section 10. The information signal control unit 10 estimates the current position of the own station (distance from the base station) from the control signal reception power information, and determines that it is near the cell boundary, or when the control signal reception power information is If the reception power threshold is lower than a preset reception power threshold, the information transmission amount is reduced. This reduction amount may be set in advance, or may be instructed from the base station according to the situation. Further, the information transmission amount may be reduced by an amount different for each mobile terminal in accordance with the allowable delay amount of the transmission information and the required communication quality.

Here, it is assumed that the information signal input to the information signal control unit 10 has a transmission rate of 4 multicodes. That is, the normal required value of the number of multicodes in this information signal is 4. Normally, that is, when it is determined that the position of the own station is not near the cell boundary based on the control signal reception power information, the information signal has a transmission rate of 1/4 in the information signal control unit 10. Separated into two signals. Each signal is generated by the code signal generators 12 to 1
At 5, each is spread with a different code. The signal transmission unit 20 transmits the four code signals from the code signal generation units 12 to 15 as a multicode. On the other hand, when it is determined that the position of the own station is near the cell boundary, or when the control signal reception power information is lower than the reception power threshold, the information signal control unit 1
At 0, the number of multicodes is reduced according to the position of the mobile terminal. That is, the number of multicodes is reduced from 4 to 2 as shown by the broken line in FIG. At this time, the information signal control unit 10 deletes information for two codes and supplies a signal to only the code signal generation units 12 and 13 or, in the case of an information signal with low real-time property, converts the information signal. There is a method of providing a buffer for storing data and doubling the communication duration as shown in FIG. 4B.

FIG. 2 is a block diagram showing a schematic configuration of another embodiment of the present invention. This embodiment responds to various information transmission rates by making the signal spreading factor variable. As in the case of FIG. 1, the mobile terminal MS
Determines the position (distance from the base station BS) based on the control signal (pilot signal) from the base station BS. Then, the transmission rate is reduced by increasing the spreading factor of the signal to be transmitted according to the determined position. In FIG. 2, the information signal control unit 10 determines a spreading factor and notifies the code signal generation unit 16. For example, when the received power of the control signal from the received power measuring unit 11 falls below the above-described threshold, the maximum information transmission rate of the mobile terminal MS is reduced to half. When half of the information amount is deleted, the spreading factor is doubled in order to transmit using the same frequency band. Since the spreading factor is doubled, the transmission power is 2
Only one-half. For this reason, the interference amount with respect to the adjacent cell is 2
It becomes possible to make it 1/100.

Further, as shown in FIG. 5, by doubling the communication duration, it is possible to transmit without deleting information. In FIG. 5, (a) is an information signal before spreading,
(B) is a transmission signal after spreading in normal time (here,
(4 times spreading) and (c) show the transmission signal after spreading when the spreading factor is set to 2 times (that is, 8 times spreading). In this embodiment, it is assumed that the information signal shown in (a) is normally spread four times and transmitted at transmission power A as shown in (b) during normal times. Here, if it is determined that the mobile station is located at a remote point from the base station as described above, and the spreading factor is set to twice the normal time as shown in (c), to transmit in the same frequency band, , The signal period after spreading needs to be the same as in the case of (b). As a result, the time for transmitting the same amount of information is doubled, and the transmission power is reduced to half.

In the above description, as shown in FIG. 3, one threshold value is used, and when the control signal reception power is lower than the threshold value, the mobile terminal is located in the illustrated area area_s. However, when a plurality of thresholds are provided for the received power of the control signal transmitted from the base station, the inside of the cell can be divided into three or more areas as shown in FIG. FIG. 6 shows a case where two thresholds are used to divide the image into three regions A, B, and C. By the transmission power control of the uplink, the base station BS1 receives signals from terminals existing in any of the areas A, B, and C with the same power. The amount of interference with adjacent base stations differs depending on the location of the terminal. Until now, the description has been given of the transmission rate control of the terminal existing in the area C near the cell boundary. on the other hand,
From a terminal in the area A close to the base station,
The amount of interference with BS2 is small. For this reason, even if the terminal in the area A increases the number of multicodes to be transmitted, it is conceivable that the communication quality in the adjacent base station BS2 is not deteriorated. Therefore, when the communication quality in the base station BS1 is higher than the quality assurance value, the mobile terminals existing in the vicinity of the base station (terminals in the area A in FIG. 3) can increase the number of multicodes transmitted simultaneously. . By increasing the maximum transmission amount in this way, the communication continuation time can be shortened accordingly. As a result, the base station BS1 can receive a request from a new terminal.

FIG. 7 is a block diagram showing a schematic configuration of still another embodiment of the present invention configured as described above.
In this embodiment, communication quality information to be received by the base station BS is broadcast to each mobile terminal MS.
In the mobile terminal MS, communication quality information broadcast from the base station BS and control signal reception power information from the reception power measurement unit 11 are supplied to the information signal control unit 10 described above. Then, by comparing the control signal reception power information with the reception power threshold described above, the position is determined,
If it is determined that it is located in the area near the base station,
Compare the current communication quality information reported from the base station and a guaranteed value of communication quality predetermined in the system,
If the current communication quality information is better than the communication quality guarantee value by a predetermined value or more, the transmission speed of the information signal is increased. For example, at present, the code signal generators 12 and 13
, The number of multicodes is increased to, for example, 4, the input information signal is divided into four, and the code signal generation units 12 to
15 and the 4-multicode signal is transmitted to the signal transmitting unit 2
Transmit from 0. As a result, the signal power transmitted from the mobile terminal MS is doubled, and the communication quality at the base station BS is degraded. However, as described above, the current communication quality is better than the guaranteed value. However, the effect of this deterioration can be absorbed. The mobile terminal MS is a base station.
Since it is located near the BS, there is little effect on adjacent base stations. Then, since the information transmission speed of the mobile terminal MS increases, the transmission time by the mobile terminal MS decreases, and it becomes possible to accept another call. Therefore, the efficiency of the entire system can be improved.

Although the above method has been described taking a transmission method using a multicode signal as an example, the method can be applied to a transmission method using a variable spreading factor. In this case, in the mobile terminal existing near the base station, the spreading factor of the signal is reduced. Although the communication duration becomes shorter and the signal transmission power increases, the efficiency of the entire system can be improved as in the case described above.

Further, although control on the uplink has been mainly described, the same scheme can be applied to the downlink. When the amount of transmission in the downlink increases, the total transmission power in the base station increases in order to maintain communication quality (that is, signal reception power in the mobile terminal). When a terminal exists near a cell boundary, large power is allocated as transmission power in order to maintain communication quality of the terminal. Such an increase in the total transmission power of the base station also increases the amount of interference with adjacent cells. For this reason, the base station suppresses an increase in the total transmission power by reducing the signal transmission speed by a method such as reducing the number of multicodes of a signal for a terminal near the cell boundary or increasing the spreading factor. Becomes possible. When the communication quality of the downlink in the own station is good, the number of multicodes is increased or the spreading factor is decreased for mobile terminals located in the area close to the base station. To increase the transmission speed. As a result, as in the case described above, the transmission time to the mobile terminal can be shortened, and the efficiency of the entire system can be improved. The distance from the mobile terminal is
It can be determined from the transmission power for the mobile terminal.

In the systems described above, the control is independently performed in each base station.
Next, still another embodiment of the CDMA mobile communication system according to the present invention, in which control is performed based on communication quality information at adjacent base stations, will be described. FIG. 8 is a block diagram showing a schematic configuration of this embodiment. In this figure, BS1 to BS3 are adjacent base stations, CS is a control station that controls these base stations, and MS is a mobile terminal with a high information transmission rate. As shown in the figure, each of the base stations BS1 to BS3 notifies the control station CS of the communication quality information of the own station.

It is assumed that the communication quality is deteriorated in all or any of the base stations BS2 and BS3 adjacent to the base station BS1, or that there is a possibility of deterioration. At this time, it is assumed that a mobile terminal having a high information transmission rate in the cell of the base station BS1 has issued a connection request. In the control station CS, the interference signal from the mobile terminal
Notify the base station BS1 that connection is to be rejected, assuming that the communication quality in 2 or BS3 is further degraded. As a method of rejecting this connection, there is a method of rejecting connection requests of all mobile terminals generated in the cell of the base station BS1, and a method of determining acceptance / rejection according to the position and transmission speed of the mobile terminal. is there. For example, when the mobile terminal is configured to transmit reception power information or communication quality information of a control signal from a base station that desires connection along with a connection request,
Its position can be estimated. Also, base stations BS1 to B
In S3, when a sector antenna or the like is used and the approximate direction of the mobile terminal can be estimated, the information can be used. For example, when a mobile terminal issues a connection request near a cell boundary in contact with a cell of the base station BS3, the base station BS3 accepts the request when the communication quality is good and rejects the request when the communication quality is bad at the base station BS3. Notify the station BS1.

In the above, the connection request from the mobile terminal is restricted. However, the control station CS deteriorates the communication quality in all or any of the base stations BS2 and BS3 adjacent to the base station BS1. Or there is a risk of deterioration,
It is also possible to limit the transmission speed of a mobile terminal connected to BS1 or the transmission speed for the mobile terminal. That is, all of the base stations BS2 and BS3 adjacent to the base station BS1,
Alternatively, it is assumed that the communication quality is degraded or that there is a risk of degradation. At this time, as shown in FIG. 8, the control station CS notifies the base station BS1 of control information. Base station B
In S1, upon receiving this control information, the connected mobile terminal MS having a high information transmission rate is notified of the reduction of the transmission rate. In response to this, the information signal control unit 10 of the mobile terminal MS reduces the number of multicodes as in the case described above, or
The transmission rate is reduced by increasing the spreading factor. At this time, the base station BS1 may also reduce the information transmission speed for the mobile terminal MS.

Further, when the communication quality of an adjacent base station is degraded, the base station may request, via the control station CS, the base station which is the cause to reduce the transmission rate. You can also For example, when the communication quality of the base station BS3 is deteriorated, the base station BS3 analyzes a signal having a large interference power, and as a result, when it is determined that the interference from a mobile terminal existing in the cell of the base station BS1 is large. , A control signal is notified to the base station BS1 through the control station CS, and a request is made to terminals in the base station BS1 to reduce the transmission rate.

[0031]

As described above, according to the present invention,
By providing a limit on the maximum information transmission rate, it is possible to suppress interference with adjacent base stations and increase the efficiency of the entire system.

[Brief description of the drawings]

FIG. 1 is a diagram showing an outline of the present invention.

FIG. 2 is a diagram schematically showing another embodiment of the present invention.

FIG. 3 is a diagram showing a cell formation example of the present invention.

FIG. 4 is a diagram showing an example of multicode transmission according to the present invention.

FIG. 5 is a diagram illustrating an example of transmission of a variable spreading factor according to the present invention.

FIG. 6 is a diagram showing an example of a region in a cell according to the present invention.

FIG. 7 is a diagram showing a schematic configuration of still another embodiment of the present invention.

FIG. 8 is a diagram showing a schematic configuration of still another embodiment of the present invention.

FIG. 9 is a diagram illustrating transmission of a multicode signal.

FIG. 10 is a diagram illustrating transmission power control.

FIG. 11 is a diagram illustrating a conventional method.

[Explanation of symbols]

 BS, BS1, BS2, BS3 Base station CS control station MS, MS_a, MS_b Mobile terminal 10 Information signal control unit 11-15 Code signal generation unit 20 Signal transmission unit

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5K022 EE01 EE08 EE12 EE21 EE31 5K067 AA03 BB04 CC10 DD25 DD44 EE02 EE10 EE23 GG01 GG08 GG09 HH21

Claims (8)

[Claims] 1. A CDMA system using a multi-code signal between a terminal having various information transmission rates and a base station.
In the mobile communication system, a terminal existing at a position distant from the base station transmits the multi-code to be transmitted simultaneously with the number of multi-codes reduced below a normal request value. 2. A CDMA system in which a spreading factor is variablely transmitted between a terminal having information of various information transmission rates and a base station.
In a mobile communication system, a terminal located at a position distant from the base station transmits a signal with a spreading factor of a signal higher than a normal request value. 3. The base station transmits to a terminal located at a position distant from the base station by reducing the number of multi-codes to be transmitted at the same time or increasing the spreading factor of a signal. The CDMA according to claim 1 or 2,
Mobile communication system. 4. CDMA transmission using multicode signals between terminals having various information transmission rates and a base station
In the mobile communication system, when the communication quality at the base station is higher than a communication quality guarantee value set in advance, the terminal located at a position close to the base station sets the number of multi-codes to be transmitted simultaneously to the normal request value. CDM characterized in that the transmission is also increased
A mobile communication system. 5. A CDMA system for transmitting a signal with a variable spreading factor between a terminal having various information transmission rates and a base station.
In the mobile communication system, when the communication quality at the base station is higher than a preset communication quality assurance value, the terminal located at a position close to the base station lowers the signal spreading factor from the normal required value. A CDMA mobile communication system, characterized in that: 6. The base station, when the communication quality of the base station is higher than a preset communication quality assurance value, the number of multi-codes to be simultaneously transmitted to a terminal located at a position close to the base station. The CDMA mobile communication system according to claim 4 or 5, wherein the transmission is performed by increasing the transmission rate or decreasing the spreading factor. 7. A CDMA mobile communication system for transmitting between a terminal having various information transmission rates and a base station using a multicode signal or with a variable spreading factor, wherein a base station adjacent to the base station is provided. A CDMA mobile communication system characterized by providing a restriction on a connection request from a terminal having a high information transmission rate when communication quality is deteriorated in some of the stations. 8. A CDMA mobile communication system for transmitting between a terminal having various information transmission rates and a base station using a multicode signal or with a variable spreading factor, wherein a base station adjacent to the base station is provided. When the communication quality is deteriorated in some of the stations, the transmission rate of a terminal having a high information transmission rate, or the transmission rate for a terminal having a high information transmission rate is limited. CDMA mobile communication system.