KR20020037153A - Method and apparatus for group serial interference cancellation - Google Patents

Abstract

PURPOSE: A device of removing a group sequence-type interference is provided to group interference signals according to receiving capacities of synchronous transmission signals and asynchronous transmission signals, to remove interferences, so as to improve an interference removing capacity as well as simplify a system by reducing the number of stages. CONSTITUTION: The first detector(30) groups synchronous user signals and asynchronous user signals received to a base station from more than one mobile station as synchronous transmission signals, and detects the synchronous transmission signals. An interference reproducer(34) re-spreads the detected synchronous transmission signals, and outputs reproduction signals. An adder/subtracter(33) subtracts the reproduction signals and receiving signals to remove interference signals, and outputs asynchronous user signals. A delayer(32) delays the receiving signals. The second detector(31) groups the asynchronous signals as asynchronous transmission signals, and detects the asynchronous transmission signals.

Description

Method and apparatus for group serial interference cancellation

TECHNICAL FIELD The present invention relates to a mobile communication system, and more particularly, to a grouped sequential interference cancellation method suitable for multiple access interference cancellation resulting in performance degradation in an asynchronous transmission system employing an uplink synchronous transmission scheme.

In general, a sequential interference cancellation technique removes multi-user interference signals in order of users' power, and removes them in stages. A hybrid interference cancellation technique is a sequential and parallel technique.

Hereinafter, a general sequential interference cancellation device will be described with reference to the accompanying drawings.

1 is a diagram illustrating a first stage of a general sequential interference cancellation device.

Referring to FIG. 1, a sequential interference cancellation apparatus includes a matched filter receiver 10 which extracts an interference signal from a total received signal r (t) that attempts multiple accesses from a mobile station to a base station, and the matched filter receiver 10. A detector 11 for detecting an interference signal extracted through the first signal, a signal received through the first multiplier 13 and the first multiplier 13 for estimating and multiplying an amplitude value of the total received signal r (t); A second multiplier 14 multiplying the spread code S ₁ used in the matched filter receiver 10 and a delay for delaying the time at which the total received signal r (t) is received through the second multiplier 14 And a subtractor 15 for subtracting the signal received through the second multiplier 14 from the signal received through the delayer 12.

Here, the symbol signal of the interference signal extracted through the detector is d ₁ , and the first multiplier 13 multiplies the total received signal r (t) by the estimated amplitude estimate A ₁ .

The multiplied signal S ₁ is multiplied by the multiplied signal, subtracted from the multiplied signal, and r ₁ (t) is partially removed.

2 is a diagram illustrating a general grouped sequential interference cancellation system.

Referring to FIG. 2, the grouped sequential interference cancellation system detects a signal having the highest data rate by grouping the total received signals r (t) received from one or more mobile stations to the base station according to the data rate. 20) a delay time for removing the signal having the highest data rate of the total received signal r (t) and the first interference regenerator 21 for reproducing the signal detected through the first detector 20; A first delayer 22 to subtract the signal received through the first delayer 22 and a signal received through the first interference regenerator 21, and the first subtractor 23 A second detector 24 for grouping the intermediate data rate of the received signal received through the subtractor 23 to detect the intermediate data rate signal, and second interference for reproducing the signal detected through the second detector 24. A player 25 and the intermediate data A second delayer 26 for delaying the time at which the signal having a rate is removed, and a second signal for subtracting the signal received through the second delayer 26 and the signal received through the second interference canceller 25. A second subtractor 27 and a third detector 28 for grouping the received signals received through the second subtractor 27 at the lowest data rate to detect the lowest data rate signal.

Here, the interference cancellation is grouped into three groups of the lowest data rate, the intermediate data rate, and the lowest data rate, so that the signal having the highest data rate has the highest power and is detected and removed first, and thus the intermediate data rate. In this case, detection and interference cancellation are performed in order of lowest data rate.

However, such a general interference cancellation technique provides a multi data rate service to support a multimedia service, but a high data rate has a high power and a low data rate has a low power. The interference is greater than the interference that low data rate services have on high data rate services. Therefore, the interference cancellation according to the data rate has a disadvantage in that the reference for the data rate is ambiguous and the influence of the synchronous transmission signal on the asynchronous transmission signal is not reduced in the situation where the asynchronous user and the synchronous user are mixed.

SUMMARY OF THE INVENTION An object of the present invention is to provide a group sequential interference cancellation method for removing interference by grouping interference signals according to reception performance of a synchronous transmission signal and an asynchronous transmission signal. It is for.

According to an aspect of the present invention for achieving the above object, the step of detecting the synchronous user signal and the asynchronous user signal received from the at least one mobile station to the base station by grouping the synchronous transmission signal through a first detector, and the detection; Outputting a reproduced signal by respreading the synchronous transmission signal, outputting an asynchronous user signal from which the interference signal is removed by subtracting the reproduction signal and the reception signal, and asynchronous transmission signal through the second detector Grouping and detecting.

Preferably, the grouping and detecting of the synchronous transmission signal or the asynchronous transmission signal are output according to the power size or transmission data rate of the received synchronous user or asynchronous user signal.

In the grouping and detecting of the synchronous transmission signals, a partial interference technique is applied between the synchronous transmission signals.

On the other hand, the base station receives the transmission method of the received signal from the mobile station when the call is set up with the mobile station, the synchronous user signal is a signal to which the uplink synchronous transmission method is applied.

According to another aspect of the present invention for achieving the above object, a first detector for grouping and detecting a synchronous user signal and an asynchronous user signal received by a base station from one or more mobile stations, and the detected synchronous transmission And a second detector for grouping and detecting the asynchronous signal into an asynchronous transmission signal and subtracting the interference signal by subtracting the signal to output an asynchronous user signal.

Advantageously, said first and second detectors are respectively a synchronous detector for detecting said synchronous transmission signal and an asynchronous detector for detecting said asynchronous transmission signal.

1 is a view showing the first stage of a typical sequential interference cancellation device

2 is a diagram illustrating a general grouped sequential interference cancellation device

3 is a diagram illustrating a grouped sequential interference cancellation device according to the present invention.

4 is a flowchart illustrating an uplink synchronous transmission scheme applied to the present invention of FIG.

* Description of the symbols for the main parts of the drawings *

30: first detector

31: second detector

32: delay

33: Accelerator

34: interference regenerator

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

3 is a diagram illustrating a group sequential interference cancellation apparatus according to the present invention.

Referring to FIG. 3, in the environment of the group sequential interference cancellation device of the present invention, asynchronous users and synchronous users are mixed, m of all users K are asynchronous users, and (Km) names are received by the base station from the mobile station. It is a synchronous user who transmits a timing control signal from the base station to the mobile station so that the timing matches, and causes the mobile station to control the timing control signal so that the mobile station is assigned and operated with a separate orthogonal code for distinguishing each signal.

The interference cancellation apparatus of the present invention is a sequential interference canceller based on grouping that removes grouped signals from each interference cancellation stage among the sequential interference cancellers. The uplink synchronous transmission scheme (USTS) Group sequential interference is eliminated because the signals received and received are grouped into a group of synchronous transmission signals, and when the signals to which the uplink synchronous transmission scheme is not applied are received from the mobile station to the base station, the signals are grouped into groups of asynchronous transmission signals. Configure the device

The apparatus for group sequential interference cancellation according to the present invention in the above environment includes a first detector (30) for grouping and detecting a synchronous user signal and an asynchronous user signal received at a base station from at least one mobile station by a synchronous transmission signal, and the detection. An interference regenerator (34) for respreading the synchronous transmission signal and outputting a reproduction signal, an adder (33) for removing an interference signal by subtracting the reproduction signal and a reception signal, and outputting an asynchronous user signal; And a second detector 31 for detecting and grouping the asynchronous signals into asynchronous transmission signals.

The operation of the group sequential interference cancellation device configured as described above is as follows.

The first detector 30 first groups the total received signal r (t) received from the mobile station, which is at least one first subsystem, to the base station, which is the second subsystem, by first grouping the synchronous interference signals to which the uplink synchronous transmission scheme is applied. Detection by synchronous transmission signal group.

The interference regenerator 34 respreads the synchronous transmission signal group detected through the first detector 30 to output a reproduction signal to prepare for the removal of the synchronous transmission signal group as an interference signal.

The delay unit 32 also delays the time for which the total received signal r (t) is detected and removed as a synchronous transmission signal group.

The retarder 33 removes a synchronous transmission signal as an interference signal by subtracting a reproduction signal obtained through the interference regenerator 34 and a reception signal obtained through the delay unit 32 to remove an asynchronous user signal group. Output

The second detector groups and detects the asynchronous user signals outputted through the retarder 33 into groups of asynchronous transmission signals.

Here, the synchronous transmission signal detected by the first detector 30 and removed through the interference regenerator 34 and the subtractor 33 generally supports a high data rate and is asynchronously received through the second detector 31. Transmission signals usually support low data rates.

Since the reception performance of the synchronous transmission signal is superior to the reception performance of the asynchronous transmission signal, the interference of the synchronous transmission signal having a good reception performance is first removed, thereby improving the multiple access interference cancellation performance.

In addition, the total received signal r (t) received from the mobile station, which is the at least one first subsystem, to the base station, which is the second subsystem, is a signal in which an uplink synchronous transmission scheme is applied through wireless communication with the base station, and an uplink synchronous transmission. Total received signal with no scheme applied.

When the total received signal r (t) is a signal to which the uplink synchronous transmission scheme is applied, group the signal into a synchronous transmission signal, and when the uplink synchronous transmission scheme is not applied, convert the signals into an asynchronous transmission signal group. Group.

In this case, the synchronous transmission signal and the asynchronous transmission signal are information that the mobile station and the base station performing wireless communication with the mobile station already know when the call is set up, and the base station sets the transmission mode of the received signal when the mobile station is set up with the mobile station. Since it is provided from, no separate control channel or separate estimation is required for setting the grouping rule.

Therefore, by using the difference in reception performance, the interference signals of the synchronous transmission are grouped and removed first, and then the interference signals of the asynchronous transmission are grouped and removed, thereby eliminating the multiple access interference.

On the other hand, when the one or more mobile stations group the multiple access to the base station, the synchronous transmission signal to which the uplink synchronous transmission scheme is applied to the synchronous interference signals, considering the power size and the received data rate of each of the synchronous user signal Group, detect it, and remove the grouped interference signals.

Similarly, asynchronous user signals to which the uplink synchronous transmission method is not applied are also grouped as described above to remove multiple interferences.

Then, a partial interference cancellation technique is applied by multiplying the grouped synchronous interference signals by a weight constant smaller than 1.

4 is a flowchart illustrating an uplink synchronous transmission scheme applied to the present invention of FIG. 3.

Referring to FIG. 4, first, a mobile station transmits a reverse access signal to a base station using a control channel (S1).

A base time point at which the base station receives the reverse access signal transmitted to the base station and transmits a reverse access signal between the mobile station and the base station, and transmits a reverse access signal transmitted by the mobile station to the base station, Calculate the difference (S2)

The difference between the reference time point and the reception time point is calculated, and according to the difference, the base station generates a synchronization control message and transmits the generated synchronization control message to the mobile station using the control channel (S3).

Then, the mobile station receives the synchronization control message transmitted by the base station.

After the uplink transmission time is adjusted according to the synchronization control message received by the mobile station, the uplink signal is transmitted to the base station (S5).

The reverse signal is transmitted to the base station to determine whether the initial synchronization between the mobile station and the base station is established.

Next, as a result of determining whether the initial synchronization is set (S6), if the initial synchronization is not set, the base station receives a reverse access signal and calculates the difference between the reference time point and the reception time point again (S2). Perform

On the other hand, as a result of determining whether the initial synchronization is set (S6), when the initial synchronization is set, the base station transmits a talk channel transmission start command to the mobile station using the talk channel (S7).

The mobile station receives a call channel transmission start command and transmits a reverse signal to the base station through the call channel (S8).

The base station receives the reverse signal, continuously compares the reception time with the reference time to generate a synchronization control bit, and transmits the synchronization control bit to the mobile station through the call channel.

Then, the mobile station receiving the synchronization control bit adjusts a transmission time point according to the synchronization control bit.

The signals received from the mobile station to the base station by using the synchronization point adjusted according to the synchronization control bits are grouped into the synchronous transmission signal group according to the uplink synchronous transmission scheme as described above, and the uplink synchronous transmission scheme If no signal is received, group these signals into an asynchronous transmission signal.

As described above, the present invention eliminates interference by grouping received signals according to reception performance in a mobile communication system employing an uplink synchronous transmission scheme, thereby improving interference cancellation and providing a singular number for achieving the same performance in multi-stage interference cancellation. It can be reduced, which contributes to system simplification.

Since the synchronous transmission signal and the asynchronous transmission signal are both known to the mobile station and the user element (UE), the synchronous transmission signal and the asynchronous transmission signal do not need a separate channel or a separate estimation for setting a grouping rule.

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 (7)

Grouping and detecting synchronous user signals and asynchronous user signals received at the base station from one or more mobile stations into synchronous transmission signals through a first detector; Respreading the detected synchronous transmission signal and outputting a reproduction signal; Outputting an asynchronous user signal from which the interference signal is removed by subtracting the reproduction signal from the received signal; Grouping and detecting the asynchronous signals into asynchronous transmission signals through a second detector. 2. The method of claim 1, wherein the detecting by grouping the synchronous transmission signal or the asynchronous transmission signal comprises outputting the grouping according to the power size or transmission data rate of the received synchronous user or asynchronous user signal. Group sequential interference cancellation method. The group sequential interference cancellation method according to claim 1, wherein the grouping and detection of the synchronous transmission signals comprises partial coherence between the synchronous transmission signals. The method of claim 1, wherein the base station receives the transmission method of the received signal from the mobile station when establishing a call with the mobile station. The method of claim 1, wherein the synchronous user signal is a signal to which an uplink synchronous transmission scheme is applied. A first detector for grouping and detecting synchronous user signals and asynchronous user signals received at the base station from at least one mobile station into synchronous transmission signals; An interference regenerator for respreading the detected synchronous transmission signal and outputting a reproduction signal; An adder and a subtractor for outputting an asynchronous user signal by removing the interference signal by subtracting the reproduction signal and the received signal; And a second detector for detecting the asynchronous signal by grouping the asynchronous signal into an asynchronous transmission signal. 6. The apparatus of claim 5, wherein the first and second detectors each receive the synchronous transmission signal. Synchronous detector for detecting and asynchronous for detecting the asynchronous transmission signal A group sequential interference cancellation device, characterized in that the detector.