KR101061122B1 - Transmission Frequency Determination Method of Terminal in CDMA Mobile Communication System - Google Patents

Abstract

The present invention relates to a method for determining a terminal transmission frequency in a CDMA mobile communication system in which a forward bandwidth or a reverse bandwidth is an integer multiple of a specific bandwidth (for example, 1.25 MHz). In the CDMA mobile communication system according to the present invention, a method for determining a terminal transmission frequency is a method for determining a transmission frequency in a terminal of a CDMA mobile communication system that can use an integer multiple of a specific bandwidth as a forward bandwidth and a reverse bandwidth. Receiving allocation information of the forward bandwidth and the reverse bandwidth; And determining the terminal transmission frequency variably according to a comparison result of the magnitudes of the forward bandwidth and the reverse bandwidth according to the allocation information.

CDMA, Mobile Communication, Terminal, Transmission Frequency, HASH Function

Description

Method of determining transmission frequency of mobile terminal in CDMA mobile communications system

1 is a schematic procedure flow diagram of one preferred embodiment of the present invention.

2 is a flowchart illustrating a procedure for determining a terminal transmission frequency according to an embodiment of the present invention.

The present invention relates to a CDMA mobile communication system. More specifically, the present invention relates to a method for determining a terminal transmission frequency in a CDMA mobile communication system in which the forward bandwidth or the reverse bandwidth becomes an integer multiple of a specific bandwidth (for example, 1.25 MHz).

The base station transmission frequency is a frequency used for the forward channel, and the terminal transmission frequency is a frequency used for the reverse channel. In general, the transmission frequency band of the terminal is set lower than the base station transmission frequency band. In terms of propagation, the higher the frequency, the greater the attenuation, so that it cannot reach far. Therefore, a base station using relatively large power is allocated to a high frequency band.

The terminal transmission frequency is determined according to the base station transmission frequency. If the base station transmission frequency is assigned by the CDMA channel number, the base station informs the terminal of the CDMA channel number and the terminal transmits the frequency of the terminal corresponding to the CDMA channel number. Determined by frequency. Here, the CDMA channel number is in units of 30 KHz.

Table 1 shows transmission frequencies of the base station and the terminal according to the CDMA channel number in the case of band class 0 (Cellular frequency).

Transmitter CDMA Channel Number Center frequency for
CDMA Channel (MHz) Mobile station 1 ≤ N ≤ 799 0.030N + 825.000 991 ≤ N ≤ 1023 0.030 (N-1023) + 825.000 Base station 1 ≤ N ≤ 799 0.030N + 870.000 991 ≤ N ≤ 1023 0.030 (N-1023) + 870.000

In Table 1, if the CDMA channel number assigned to the base station is 1, the base station transmission frequency is 870.03 MHz and the transmission frequency of the terminal is determined to be 825.03 MHz corresponding to 1, the CDMA channel number. As can be seen from Table 1 and the above example, the terminal transmission frequency is 45 MHz smaller than the base station transmission frequency.

The difference between the terminal transmission frequency and the base station transmission frequency is different for each band class. For example, in case of band class 4, as in the PCS frequency of Korea, the difference is 90 MHz.

If the forward SR (Spreading Rate, 1X or 3X) and the reverse SR (Spreading Rate, 1X or 3X) are the same, the terminal transmission frequency is determined as described above. However, when the forward SR is 3 and the reverse SR is 1, the terminal transmission frequency should be additionally determined using the reverse frequency offset (1XRL_FREQ_OFFSET: 00, 01, 10).

That is, if the CDMA channel number assigned to the center frequency of the base station is CDMACH and the reverse frequency offset 1XRL_FREQ_OFFSET is given, the CDMA channel number for the terminal transmission frequency is determined as follows.

If 1XRL_FREQ_OFFSET = '00': CDMACH-41

If 1XRL_FREQ_OFFSET = '01': CDMACH

If 1XRL_FREQ_OFFSET = '10': CDMACH + 41

For example, CDMACH, which is a CDMA channel number assigned to a center frequency of a base station, is 78.

When the reverse frequency offset 1XRL_FREQ_OFFSET is 'OO', the CDMA channel number for the terminal transmission frequency is 37, the base station transmission frequency is 872.34MHz corresponding to the CDMA channel number 78, and the terminal transmission frequency corresponds to the CDMA channel number 37 Is determined to be 826.11 MHz.

In order to increase data throughput in the CDMA-2000 system, an NxEV-DV system that increases the forward bandwidth and the reverse bandwidth to an integer multiple of 1.25 MHz (1X) is being considered. That is, in a future CDMA mobile communication system, in order to freely determine the data transmission bandwidth according to the number of terminals connected to a base station or a wireless channel situation, a forward bandwidth and a reverse bandwidth may be determined according to a selection of a base station (for example, 1.25). Consideration is given to the determination of an integer multiple of MHz). In addition, unlike the existing 3X as described above, it is also contemplated that the frequency is allocated discretely rather than continuously allocated. In this case, a new method for determining the transmission frequency of the terminal is required.

SUMMARY OF THE INVENTION The present invention has been made by the necessity as described above, and an object of the present invention is to determine a terminal transmission frequency in a CDMA mobile communication system in which a forward bandwidth or a reverse bandwidth becomes an integer multiple of a specific bandwidth (for example, 1.25 MHz). To provide a way.

In the CDMA mobile communication system according to the present invention, a method for determining a terminal transmission frequency is a method for determining a transmission frequency in a terminal of a CDMA mobile communication system that can use an integer multiple of a specific bandwidth as a forward bandwidth and a reverse bandwidth. Receiving allocation information of the forward bandwidth and the reverse bandwidth; And determining the terminal transmission frequency variably according to a comparison result of the magnitudes of the forward bandwidth and the reverse bandwidth according to the allocation information.

Preferably, the allocation information includes information on a CDMA channel number assigned to the base station and a reverse bandwidth allocated to the terminal.

If the forward bandwidth and the reverse bandwidth is the same, the frequency of the terminal corresponding to the CDMA channel number assigned to the base station is determined as the terminal transmission frequency, and if the forward bandwidth is greater than the reverse bandwidth, allocated to the base station It is preferable to determine, as the terminal transmission frequency, a frequency of the terminal corresponding to a partial CDMA channel number selected by a predetermined algorithm among predetermined CDMA channel numbers.

If the reverse bandwidth is greater than the forward bandwidth, the allocation information further includes a CDMA channel number to be allocated to the terminal in addition to the CDMA channel number assigned to the base station, and the CDMA channel number assigned to the base station and the base station assigned to the base station. In addition to the CDMA channel number, it is preferable to determine the frequency of the terminal corresponding to the CDMA channel number to be allocated to the terminal as the terminal transmission frequency.

The construction, operation and other features of the present invention will be readily understood by the preferred embodiments of the present invention described below with reference to the accompanying drawings. 1 is a schematic process flow diagram of a preferred embodiment of the present invention.

The present invention can be applied to a CDMA mobile communication system that can use an integer multiple of a specific bandwidth (for example, 1.25 MHz) as a forward bandwidth or a reverse bandwidth. In FIG. 1, the base station determines the forward bandwidth and the reverse bandwidth for data transmission with the terminal [S11]. That is, the base station determines the forward and reverse bandwidth according to the quality of service (QoS) to be provided to the terminal, data requirements or channel conditions. In the following description, it is assumed that the base station determines a forward bandwidth of nX (n × 1.25MHz) and a reverse bandwidth of kX (k × 1.25MHz).

When the base station determines that the forward bandwidth is nX, n CDMA channel numbers are allocated to the base station [S13]. The frequency of the base station corresponding to the n CDMA channel numbers assigned to the base station becomes the transmission frequency of the base station.

The base station transmits allocation information of a forward bandwidth and a reverse bandwidth to the terminal. Preferably, the allocation information includes information on a CDMA channel number assigned to the base station and a reverse bandwidth allocated to the terminal. Since the backward bandwidth is determined as kX, the information on the backward bandwidth allocated to the terminal becomes kX. Here, X is a value known to the terminal, the base station only needs to transmit the k value to the terminal. The allocation information may be included in a specific message such as an extended channel assignment message (ECAM) transmitted in the process of establishing a traffic call for data transmission between the base station and the terminal.

The terminal receiving the allocation information determines the transmission frequency of the terminal using the allocation information [S17]. Here, the terminal differs in determining the terminal transmission frequency according to a comparison result of the size of the forward bandwidth and the reverse bandwidth (that is, n and k) determined by the base station. 2 is a flowchart illustrating a procedure for determining a terminal transmission frequency according to an embodiment of the present invention.

In Fig. 2, a comparison result of the magnitudes of the forward bandwidth and the reverse bandwidth [S21] when the forward bandwidth (nX) and the reverse bandwidth (kX) are the same (n = k), the transmission frequency of the terminal depends on the base station transmission frequency. The CDMA channel number assigned to the base station becomes the CDMA channel number for the terminal [S22], and the frequency of the terminal corresponding to the CDMA channel number for the terminal is determined as each terminal transmission frequency [S23]. ]. The frequency of the terminal corresponding to the CDMA channel number is defined for each band class. Table 1 shows an example of a band class 0 case.

When the forward bandwidth (nX) and the reverse bandwidth (kX) are not the same, it is determined whether the forward bandwidth (nX) is greater than the reverse bandwidth (kX) [S24], and the forward bandwidth (nX) is larger than the reverse bandwidth (kX). At (n> k), the terminal transmission frequency is determined as follows.

First, k CDMA channel numbers are selected through a predetermined algorithm among n CDMA channel numbers allocated to the base station [S25], and the selected CDMA channel numbers are determined as the CDMA channel for the UE [S26]. Then, the frequency of the terminal corresponding to the CDMA channel number for the terminal is determined as each terminal transmission frequency [S27]. Various methods may be considered with the specific algorithm, but it is preferable to use a hash function. The hash function is a kind of method for probabilizing the resources probabilistically. Since the details are already known, the detailed description thereof will be omitted.

When the forward bandwidth nX is smaller than the reverse bandwidth kX (n <k), the terminal transmission frequency is determined as follows.

First, all n CDMA channel numbers assigned to the base station are selected as CDMA channel numbers for the terminal [S28]. The base station directly allocates (k-n) CDMA channel numbers to the terminal and informs the terminal of the CDMA channel number to be used by the terminal [S29]. The (k-n) CDMA channel numbers are preferably included in the allocation information and transmitted to the terminal. At this time, the base station should not allocate the CDMA channel number already assigned to the base station, and it is preferable to avoid the CDMA channel number used by other terminals. By the above method, CDMA channel numbers for k terminals are determined. The frequency of the terminal corresponding to the CDMA channel number for the terminal is determined as the terminal transmission frequency [S30].

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Accordingly, the above detailed description should not be interpreted as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

According to the method for determining the transmission frequency of a terminal in the CDMA mobile communication system according to the present invention, the transmission frequency of the terminal can be efficiently determined even in a future CDMA mobile communication system in which the forward bandwidth or the reverse bandwidth becomes an integer multiple of a specific bandwidth. .

Claims (9)

In the method for the terminal to determine the transmission frequency in a wireless communication system, Receiving forward bandwidth and reverse bandwidth allocation information and channel number information corresponding to the forward bandwidth from a base station; And And determining a transmission frequency for reverse transmission based on a result of comparing the magnitudes of the forward bandwidth and the reverse bandwidth and a channel number corresponding to the forward bandwidth. The method of claim 1, The magnitudes of the forward bandwidth and the reverse bandwidth each correspond to an integer multiple of a specific bandwidth. The method of claim 1, In determining the transmission frequency, When the forward bandwidth and the reverse bandwidth are the same, a channel number corresponding to the forward bandwidth is a channel number corresponding to the reverse bandwidth, and a frequency corresponding to the channel number corresponding to the reverse bandwidth is determined as the transmission frequency of the terminal. The transmission frequency determination method of the terminal. The method of claim 1, In determining the transmission frequency, If the forward bandwidth is larger than the reverse bandwidth, some channel numbers selected by a predefined algorithm among the channel numbers corresponding to the forward bandwidth are channel numbers corresponding to the reverse bandwidth, and frequencies corresponding to the selected channel numbers. Determining a transmission frequency of the terminal. The method of claim 4, wherein The predetermined algorithm is a hash function (HASH function), the transmission frequency determination method of the terminal. The method of claim 1, In determining the transmission frequency, If the reverse bandwidth is greater than the forward bandwidth, the allocation information further includes an additional channel number in addition to the channel number corresponding to the forward bandwidth, and the frequency corresponding to the channel number and the additional channel number is a transmission frequency of the terminal. The transmission frequency determination method of the terminal to determine. The method of claim 6, And the additional channel number does not overlap with a channel number assigned to another terminal. 3. The method of claim 2, The specific bandwidth is 1.25 MHz, the transmission frequency determination method of the terminal. The method of claim 1, And the channel number is a code division multiple access (CDMA) channel number.

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