KR20020094076A - Receive method for channel information of packet data transmission systems - Google Patents

Abstract

PURPOSE: A method for receiving channel information in a packet data transmitting system is provided to improve throughput by measuring a receiving state of one or more than one control channels transmitted from a base station and progress the next process using information of the control channels only when the receiving state is over a uniform level. CONSTITUTION: A user terminal receives control channel information and data from a base station(S100). The user terminal judges whether a receiving state of a control channel is over a threshold value(S101). If the receiving state of the control channel is over the threshold value, the user terminal discriminates whether a user number is identical among control channel information and judges whether the data are decoded(S102). If the user number is identical, the user terminal decodes and combines the data using control channel information(S103).

Description

Receive method for channel information of packet data transmission systems

The present invention relates to a packet data transmission system, and more particularly, to a method for receiving channel information of a packet data transmission system.

In general, a forward system for packet data transmission basically requires a shared packet data channel and a control channel.

Since the user terminal receives the packet data through the shared packet data channel, from the information (user number) as to whether the received packet data is data transmitted to itself, the length of the data and the packet which are characteristics of the transmitted data. Control information such as number is obtained through the control channel.

1 is a flowchart illustrating channel information reception of a conventional packet data transmission system.

Referring to FIG. 1, a user terminal receives control channel information and data from a base station. (S10)

The user terminal receiving the control channel information and data determines whether the user terminal number matches the decoding of data currently received through the user terminal number among the control information. (S20)

On the other hand, if the data decoding is not performed, the control channel information is switched to receive the data again. (S10)

Subsequently, as a result of determining whether the user terminal numbers coincide (S20), if they match, data decoding and combining are performed using control information. (S30)

However, in the conventional control channel information reception, when an error occurs in the control channel information, since there is no step of checking whether there is an error in the received control information, data reception fails due to an error of the control information regardless of the data error. There is a disadvantage that is likely to be, which will greatly affect the throughput degradation of the system.

Accordingly, an object of the present invention is to provide a control channel information receiving method for realizing an increase in packet data throughput by increasing the reliability of control information in view of the above-mentioned problems of the related art.

According to an aspect of the present invention for achieving the above object, the user terminal receives the packet data information and control information from the base station through the packet data channel and the control channel, respectively, and measure the reception state of the control channel Comparing the control information with a threshold value; determining whether the control information matches the information of the user terminal when the comparison result is equal to or greater than the threshold value; and when the determination result matches the control information, Decoding and combining the data information using a.

Preferably, the reception state threshold measurement of the control channel uses one of SIR or E _c / N _t or E _b / N _t , or FER.

As a result of the comparison, when the measured value is less than or equal to the threshold value, the user terminal re-receives packet data information and control information from the base station through the packet data channel and the control channel, respectively.

According to another aspect of the present invention for achieving the above object, the user terminal receives the packet data information and one or more control information from the base station through the packet data channel and one or more control channels, respectively, the one or more controls Measuring a first channel reception state among the channels and comparing the threshold with a threshold value, and if the measured value is greater than or equal to the threshold value, measuring and comparing a second channel reception state with the threshold value; As a result, when the measured value is greater than or equal to a threshold value, determining whether the control information matches the information of the user terminal, and when the determination result is identical, decoding and combining the data information using the control information. It comprises a step.

Preferably, the at least one control channel has a sequential information system, and when the comparison results indicate that one of the first or second measurement values is less than or equal to a threshold value, the user terminal transmits a packet data channel and a control channel from a base station. Receive the packet data information and control information again.

1 is a flowchart illustrating channel information reception in a conventional packet data transmission system.

2 is a first embodiment for explaining channel information reception of a packet data transmission system according to the present invention.

3 is a second embodiment for explaining reception of channel information information in a packet data transmission system according to the present invention.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

First, in order to transmit packet data in a forward mobile communication system, a shared packet data channel and a control channel are required.

The control channel has one or more control channels depending on the system used.

In addition, since the user terminals receive packet data through the shared packet data channel, which is the public channel, the length of the transmitted data is determined from determining whether the received packet data is data transmitted to the user. Control information such as a packet number and the like is obtained through the control channel.

In other words, only after the control information is obtained, whether to decode and combine the data is determined, and after the determination, the received data is decoded and combined.

The base station determines the transmission power of the control channel and the data channel so that the user terminal to receive the current data maintains an appropriate reception quality. The transmission power is transmitted to the user terminals that do not receive the current data. It does not guarantee proper reception quality.

For example, if there are N user terminals, if user terminal A is currently receiving data, when the user terminal A receives the data, the transmission power is determined and transmitted so that the reception quality is guaranteed so that the other terminal N receives the data. Proper reception quality is not guaranteed for one user terminal.

2 is a first embodiment for explaining channel information reception of a packet data transmission system according to the present invention.

Referring to FIG. 2, the user terminal receives control channel information and data from a base station. (S100)

The control channel information includes a user terminal number, a data length, a packet number, a sub packet number, an ARQ channel number, and the like.

The user terminal receiving the control channel information and data determines whether the reception state of the control channel is greater than or equal to a threshold. (S101)

Here, determining whether the reception state of the control channel is greater than or equal to a threshold value increases the probability that an error occurs in the control channel information when the reception state value is less than or equal to the threshold value, that is, when the reception state is not good. This is because decoding of the received data is correctly performed when using the generated control information. For example, if the length of data transmitted from the base station to the user terminal is 3072 bits, and the receiving terminal recognizes 2048 bits due to an error of the control channel and decodes the data, the decoding is executed correctly even if the received data has no error. And eventually it is treated as a data reception failure.

That is, when an error occurs in the control channel, the data reception is likely to fail regardless of whether or not there is an error in the received data.

As another example, an error may occur in a user number among the control channel information. In this case, what is transmitted to another user for the currently received data is mistaken for being received by the user, which results in a data reception failure.

For example, when the base station transmits the user terminal number of the control channel to the number 3, if a user terminal with the user number 7 gets an error in the process of obtaining the control channel information and misidentifies the user number to 7, The first user recognizes and decodes the data sent to the third user, and fails to receive the data.

The determination of whether the reception state of the control channel is greater than or equal to a threshold may be determined by using a Signal to Interference Ratio (SIR), E _c / N _t , E _b / N _t , and FER.

For example, when the value of the signal-to-interference ratio exceeds a certain reference value, the reception state of the control channel is determined to be good, and eventually this good value is an index for grasping that the reception state is good.

The threshold of the reception state of the control channel depends on not only the type of multimedia desired by the user such as voice, text, and video, but also the degree of quality required.

As a result of the determination (S101), when the reception state is equal to or greater than the threshold value, it is determined whether or not the data is to be decoded based on whether the user number of the control information is identical. (S102)

On the other hand, when the determination result (S101), the reception state is less than the threshold value, returns to the initial state, and receives the control channel information and data. (S100)

If the user numbers match, the control information is decoded and combined using the control information. (S103)

On the other hand, if the user numbers do not match, control channel information and data are received again. (S100)

3 is a second embodiment for explaining channel information reception of a packet data transmission system according to the present invention.

As described above, the control channel is composed of one or two or more control channels, depending on the system used. Here, FIG. 3 describes control channel information reception in a two-stage control channel system having two control channels. do.

Referring to FIG. 3, a two-stage control system having two control channels includes a sequential sequence of a first control channel (hereinafter referred to as a primary control channel) and a second control channel (hereinafter referred to as a secondary control channel). Has an information system.

In other words, after reading the primary control channel information first, the secondary control channel information is obtained.

That is, the primary control channel includes information for decoding the secondary control channel, and obtains information for decoding the secondary control channel through the primary control channel, and decodes the secondary control channel using this information. To get control information.

The secondary control channel transmits most information on data transmitted through the common packet data channel, and transmits information such as a user number, a data length, a packet number, a sub packet number, and an ARQ channel number.

Therefore, in FIG. 3, the user terminal measures the reception state of two control channels transmitted from the base station, and proceeds to the next process using the information of the control channel only when the two channels are in a reception state above a predetermined level (threshold value). do.

First, a user terminal receives a primary control channel, a secondary control channel and data from a base station. (S200)

After the reception (S200), the reception state of the primary control channel is determined. (S201)

As described in FIG. 2, the grasping operation determines whether the threshold value is equal to or larger than SIR, E _c / N _t , E _b / N _t , and FER.

If an error occurs in the information of the primary control channel, it is impossible to accurately decode the secondary control channel that transmits most of the information about the data transmitted through the common packet data channel.

Therefore, the reception state of the secondary control channel is determined only when the reception state of the primary control channel is greater than or equal to a threshold value, that is, when it is determined that the probability of occurrence of the primary control information error is small. (S202)

It is determined whether the reception state of the secondary control channel is also greater than or equal to the threshold using SIR, E _c / N _t , E _b / N _t , and FER.

Although no error occurred in the primary control channel, decoding of the received data is impossible even when an error occurs in the secondary control channel.

For example, if the length of data transmitted from the base station is 3072 bits, and the receiver recognizes the data as 2048 bits and decodes the data due to an error in the secondary control channel, the decoding cannot be performed properly even if the received data has no errors. In the end, it is treated as a failure to receive data.

After determining the reception state of the secondary control channel (202), if the reception state is greater than or equal to the threshold value, the secondary control channel is decoded using the primary control channel information to obtain the secondary control information. (S203)

After the control information is obtained by decoding the primary and the secondary control channel (S203), it is determined whether the user number is identical among the control information to determine whether to decode the data (S204).

If the user numbers match, data decoding and combining are performed using control information. (S205)

On the other hand, the reception state of the primary control channel, the secondary control channel is determined, the data decoding is determined whether the reception state is less than the threshold value, or if the user number does not match, return to the initial state, and again Receive primary control channel and secondary control channel information and data. (S200)

As described above, the present invention measures the reception state of at least one control channel transmitted from the base station and proceeds to the next process using the information of the control channel only when the reception state is above a predetermined level. In other words, if the control channel information is below a certain level, it is determined that the information of the control channel is wrong, thereby improving the throughput by not performing any process such as decoding or combining on the received data.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (6)

Receiving, by the user terminal, packet data information and control information from the base station through the packet data channel and the control channel, respectively; Measuring a reception state of the control channel and comparing it with a threshold value; Determining whether the control information matches the information of the user terminal when the measured value is greater than or equal to a threshold value; And if the result of the determination matches, decoding and combining the data information using the control information. The method of claim 1, wherein the reception state threshold measurement of the control channel uses one of SIR, E _c / N _t, E _b / N _t , or FER. 2. The packet as claimed in claim 1, wherein when the measured value is equal to or less than a threshold, the user terminal re-receives packet data information and control information from the base station through the packet data channel and the control channel, respectively. Method of receiving channel information in data transmission system. Receiving, by the user terminal, the packet data information and the one or more control information from the base station through the packet data channel and the one or more control channels, respectively; Measuring a first channel reception state of the one or more control channels and comparing it to a threshold value; If the measured value is greater than or equal to a threshold, measuring a second channel reception state and comparing the threshold with a threshold; Determining whether the control information matches the information of the user terminal when the measured value is greater than or equal to a threshold; And if the determination result is identical, decoding and combining the data information using the control information. 5. The method of claim 4, wherein the one or more control channels have a sequential information scheme. The method of claim 4, wherein when the comparison result indicates that one of the first and second measurement values is less than or equal to a threshold value, the user terminal retransmits packet data information and control information from the base station through the packet data channel and the control channel, respectively. Channel information receiving method of a packet data transmission system, characterized in that for receiving.