JPH11164358A - Relative time alignment control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To avoid collision with a signal of other channels by notifying a mobile station of the relative value of time alignment quantity from a base station when noncoincidence occurs in tiem alignment designation value between the mobile station and the base station. SOLUTION: A mobile station sends an up traffic channel(TCH) to a base station in time alignment quantity that is designated by a down synchronous burst(SB) 3 of a synchronous establishment sequence. The base station calculates deviation from reference timing of the up TCH and notifies the mobile station that transmission timing should be changed by ±1 symbol by a down housekeeping channel(RCH) if deviation exists. The mobile station changes transmission timing, adjusting it to notified relative value, i.e., (±1) of ±1 symbol. Also, notification is performed again even when the RCH cannot notify it to the mobile station. Thus, the mobile station performs ±1 timing adjustment to the current transmission timing by notifying relative value by the base station to the mobile station during synchronous establishment.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a relative time alignment control method, and more particularly to a TDMA (Time Division Multiple Access:
Time Division Multiple Ac
ESS) digital mobile communication system for public business (the communication control method is described in RCR Standard-39).
A) (see Chapter 4).

(Note). RCR (Research &
Development Center for Ra
dio System): Telephone System Development Center

[0003]

2. Description of the Related Art In a communication physical channel, a synchronization burst (SB: Sync) is used to synchronize between a base station and a mobile station.
(Hourous Burst), and a call is made after the synchronization is established. The time alignment control is performed for each of the cases of synchronization establishment, synchronization establishment, and synchronization establishment again.

[0004] First, the case of synchronization establishment will be described based on the synchronization establishment sequence of FIG.

Procedure: Downlink S from base station to mobile station
Send B1. Procedure: Mobile station sends downlink S from base station
When B1 is received, the uplink SB2 is transmitted to the base station in synchronization with the reception timing of the downlink SB1. Procedure: Upon receiving the uplink SB2, the base station calculates the deviation of the uplink SB2 from the reference timing and the amount of time alignment (absolute value), and notifies the mobile station of the downlink SB3. Procedure: Upon receiving the downlink SB3, the mobile station stores the time alignment amount and transmits the uplink SB4 to the base station. Procedure: Upon receiving the uplink SB4, the base station transmits a TCH (Traffic Channel) to the mobile station. Procedure: Mobile station goes down T
When receiving the CH, the received signal of the own station is transmitted from SB3 to TCH
After that, the transmission timing is adjusted by the time alignment amount, and the uplink TCH is transmitted to the base station.

The above procedure establishes synchronization.

Next, the case where synchronization is being established will be described with reference to the synchronization establishment sequence shown in FIG.

Procedure: The mobile station transmits the uplink TCH to the base station with the time alignment amount specified in the downlink SB3 of the synchronization establishment sequence. Procedure: Upon receiving the uplink TCH, the base station calculates the deviation of the uplink TCH from the reference timing. If the deviation is equal to or more than ± 1 symbol, it is added to the time alignment amount (absolute value) obtained in the procedure of the synchronization establishment sequence of FIG.
(Radio Channel: housekeeping channel) to notify the mobile station. Procedure: Mobile station goes down R
If the time alignment specified value of the CH is within ± 1 symbol of the old specified value, the transmission timing is changed according to the specified value, and the uplink TCH is transmitted to the base station.

FIG. 4 shows a case where resynchronization is being established.
Will be described based on the resynchronization establishing sequence.

Procedure: The base station is the uplink TCH from the mobile station
, The mobile station detects a loss of synchronization, transmits downlink SB1 to the mobile station, and starts resynchronization. procedure…
When the mobile station receives the downlink SB1, if no time alignment is specified, the mobile station holds the time alignment amount, and after receiving the downlink SB1, transmits the uplink SB1 at the current timing.
B2 is transmitted to the base station. Procedure: Upon receiving the uplink SB2, the base station detects a deviation from the reference timing of the uplink SB2, adds the deviation to a specified value in the procedure of the sequence during synchronization establishment, and notifies the mobile station of the downlink SB3. I do. Procedure: Upon receiving the downlink SB3, the mobile station saves the time alignment amount and transmits the uplink SB4 to the base station. Procedure: Upon receiving the uplink SB4, the base station transmits a downlink TCH to the mobile station. Procedure: Upon receiving the downlink TCH, the mobile station confirms that the reception signal of the mobile station has changed from SB3 to TCH, adjusts the transmission timing by the time alignment amount, and transmits the uplink TCH to the base station.

[0011] By the above procedure, resynchronization is established.

[0012]

In this conventional time alignment control method, time alignment control is performed on the RCH during synchronization establishment. When the designated value is notified, it is predetermined that the transmission timing is not changed. Therefore, when the mobile station cannot correctly receive the RCH, the base station cannot confirm that the time alignment cannot be notified. As a result, a mismatch in the amount of time alignment occurs between the base station and the mobile station. Even though the base station performs time alignment control, transmission from the mobile station is not performed at the reference timing. Control is performed. At that time, the specified time alignment value may be ± 2 or more, and in such a case, the time alignment control becomes impossible. And the loss of synchronization occurs due to this inability to control,
When re-synchronization is established, the mobile station needs to hold the specified value until the time alignment is specified, and the same applies to the base station. Since the transmission timing is specified by the time alignment designation value, the time alignment designation of the base station and the mobile station remains mismatched. As a result, time alignment control becomes impossible even after re-synchronization is established.

It is therefore an object of the present invention to improve the reliability of data by accurately performing time alignment control to avoid collision with signals of other channels.

[0014]

According to a first aspect of the present invention, there is provided a relative time alignment control method according to the present invention, wherein time alignment control is performed between a base station and a mobile station in a digital mobile communication system for public service of a TDMA system. The base station notifies the mobile station of the relative value of the time alignment amount when the specified time alignment with the station does not match, thereby avoiding the inability to control the time alignment.

In the relative time alignment control method according to the present invention, secondly, the mismatch between the time alignment designation values of the mobile station and the base station is caused by the fact that the mobile station cannot receive the RCH signal transmitted from the base station. It is caused by the above.

Thirdly, in the relative time alignment control method according to the present invention, the notification of the relative value of the time alignment amount transmitted from the base station to the mobile station is performed during synchronization establishment.

Fourth, in the relative time alignment control method according to the present invention, the control of the time alignment can be prevented from being impossible by the mobile station based on the relative value of the time alignment amount notified from the base station. This is performed by adjusting the transmission timing.

Fifth, in the relative time alignment control according to the present invention, the notification of the relative value of the time alignment amount transmitted from the base station to the mobile station is in ± 1 symbol units.

Sixth, in the relative time alignment control method according to the present invention, the mobile station adjusts its own transmission timing based on the relative value of the time alignment amount notified from the base station by ± 1 symbol unit. It is.

A seventh aspect of the relative time alignment control method according to the present invention is that, even when the mobile station cannot receive the RCH signal transmitted from the base station, the relative time alignment amount transmitted again from the base station can be reduced. Finally, the timing of the mobile station is matched with the reference timing by the notification of the value.

Eighth, in the relative time alignment control method according to the present invention, the time alignment amount is determined by returning the transmission timing to the standard timing when the mobile station establishes the synchronization and resynchronization. The control method for establishing synchronization is the same so that the base station does not need to store it.

[0022]

Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a reference timing of a mobile station with respect to a base station, FIG. 2 is a diagram showing a synchronization establishment sequence, FIG. 3 is a diagram showing a sequence during synchronization establishment, and FIG. 4 is a diagram showing a resynchronization establishment sequence. Here, as shown in FIG. 1, the mobile station starts transmitting an uplink signal in accordance with the timing of a downlink signal transmitted from the base station. However, since a timing shift occurs due to a transmission delay, time alignment control is performed in accordance with the sequences of FIGS. 2, 3, and 4.

Next, the operation will be described. As shown in FIG. 1, the mobile station performs transmission at a standard timing in synchronization with the transmission of the base station. Further, the base station calculates the time alignment of the uplink signal of the mobile station based on the transmission timing.

First, in the synchronization establishment sequence shown in FIG. 2, processing is performed according to the following procedure.

Procedure: The base station transmits downlink SB1 to the mobile station to establish synchronization. Procedure: When the mobile station receives the downlink SB1, the mobile station receives the uplink SB1 at its own standard timing.
2 to the base station. Procedure: Upon receiving the uplink SB2, the base station calculates a time alignment amount based on the base station reference timing at that time, and outputs the result to the downlink SB3.
To the mobile station. However, the base station does not need to store the time alignment amount at this time. Procedure ... Upon receiving the downlink SB3 from the base station, the mobile station stores the time alignment amount and transmits the uplink SB4 to the base station. Procedure: Upon receiving the uplink SB4, the base station transmits a downlink TCH to the mobile station. Procedure: Upon receiving the downlink TCH, the mobile station confirms that the received signal of the mobile station has changed from SB3 to TCH, changes the transmission timing according to the time alignment amount, and transmits the uplink TCH to the base station.

By the above procedure, synchronization is established.

Next, in the sequence during the establishment of synchronization in FIG. 3, processing is performed in the following procedure.

Procedure: The mobile station performs the uplink TC with the time alignment amount specified in the downlink SB3 of the synchronization establishment sequence.
H to the base station. Procedure: Upon receiving the uplink TCH, the base station calculates the deviation of the uplink TCH from the reference timing. If there is a deviation, ±
Downlink R so that the transmission timing is changed by one symbol
Notify by CH. Procedure: mobile station is notified relative value,
That is, the transmission timing is changed in accordance with (± 1) of ± 1 symbol. Procedure: Even if the RCH cannot be notified to the mobile station, the notification is performed again. Procedure: Even when the notification of the time alignment cannot be performed, the notification is performed again, so that the transmission that finally matches the reference timing is performed.

Subsequently, in the re-synchronization establishment sequence of FIG. 4, processing is performed in the following procedure.

Procedure: The base station transmits downlink SB1 to establish synchronization. Procedure: Upon receiving the downlink SB1, the mobile station transmits the uplink SB2 not at the current timing but at the standard timing of the mobile station. Procedure: Base station is uplink S
When B2 is received, a time alignment amount is calculated based on the base station reference timing at that time, and the mobile station is notified of the amount of time alignment by downlink SB3. At this time, the base station does not need to store the time alignment amount. Procedure: Upon receiving the downlink SB3, the mobile station stores the time alignment amount and transmits the uplink SB4 to the base station. procedure…
Upon receiving the uplink SB4, the base station transmits a downlink TCH to the mobile station. Procedure: Upon receiving the downlink TCH, the mobile station confirms that the received signal of the mobile station has changed from SB3 to TCH, changes the transmission timing according to the time alignment amount, and transmits the uplink TCH to the base station.

With the above procedure, resynchronization is established.

As described above, the base station notifies the mobile station of the relative value (± 1) during synchronization establishment, so that the mobile station adjusts the current transmission timing by ± 1. As a result, even if the mobile station cannot receive the RCH for some reason, the timing of the mobile station finally matches the reference timing by notifying the relative value again from the base station. Further, since the synchronization burst for establishing synchronization and re-synchronization is transmitted at the standard timing of the mobile station, the base station does not need to store the time alignment amount at the time of re-establishment of synchronization, thereby simplifying the processing.

[0033]

As described above, according to the present invention, even when the time alignment (relative value) cannot be notified from the base station to the mobile station, the notification is performed again. Transmission from the mobile station is performed at the timing. Further, since the method of establishing synchronization and the method of establishing re-synchronization are the same, the base station does not need to store and hold the time alignment amount, thereby simplifying the processing.

[Brief description of the drawings]

FIG. 1 is a diagram showing a reference timing of a mobile station with respect to a base station in a relative time alignment control method of the present invention.

FIG. 2 is a diagram showing a synchronization establishment sequence in the relative time alignment control method of the present invention.

FIG. 3 is a diagram showing a sequence during synchronization establishment in the relative time alignment control method of the present invention.

FIG. 4 is a diagram showing a resynchronization establishment sequence in the relative time alignment control method of the present invention.

[Explanation of symbols]

 SB Synchronous burst TCH Traffic channel RCH Housekeeping channel

Claims (8)

[Claims] 1. A time alignment control between a base station and a mobile station in a digital mobile communication system for public business use in a TDMA system, wherein when the specified time alignment value between the mobile station and the base station does not match, the base station is controlled. Notifies the mobile station of the relative value of the time alignment amount, thereby avoiding uncontrollability of time alignment. 2. The mobile station and the base station, wherein the mismatch of the designated time alignment value is caused by the fact that the mobile station cannot receive the RCH signal transmitted from the base station. 2. The relative time alignment control method according to claim 1, wherein: 3. The relative time alignment control method according to claim 1, wherein the notification of the relative value of the time alignment amount transmitted from the base station to the mobile station is performed during synchronization establishment. 4. The method according to claim 2, wherein the control of the time alignment is prevented by adjusting the transmission timing of the mobile station based on a relative value of the time alignment amount notified from the base station. Claim 1
The relative time alignment control method as described. 5. The notification of the relative value of the time alignment amount transmitted from the base station to the mobile station in units of ± 1 symbol.
The relative time alignment control method as described. 6. The mobile station according to claim 4, wherein the adjustment of the transmission timing of the mobile station based on the relative value of the time alignment amount notified from the base station is in ± 1 symbol units. Relative time alignment control method. 7. Even if the mobile station fails to receive the RCH signal transmitted from the base station, the mobile station ultimately receives a notification of the relative value of the time alignment amount transmitted again from the base station. 3. The timing according to claim 1, wherein the timing is adjusted to a reference timing.
The relative time alignment control method as described. 8. The time alignment amount, the mobile station returns the transmission timing to the standard timing at the time of the synchronization establishment and the resynchronization establishment, so that the control method of the synchronization establishment and the resynchronization establishment becomes the same, and 6. A relative time alignment control method according to claim 1, wherein the station does not need to store the information.