JP2003527789A - Transmission delay and output level optimization method - Google Patents

Abstract

(57) Abstract: Code multiplexing (code division multiple access (CDMA) and time division duplex-time division multiple access (TDD)) comprising at least one base station (BS) and at least one mobile station (MS). TDMA)) A method for optimizing an output level of a mobile station access network service in a common channel of a third generation mobile cellular phone system based on an access technology and equalizing a transmission delay, wherein a timing and an output level of a received signal are determined by a network. And a correlation word called a signature burst, which is calculated in the following manner, so as to transmit a signal organized in a frame and a multi-frame. The method comprises a plurality of temporary discrete steps for optimizing "frame synchronization" and "power level" parameters during a procedure for accessing a mobile station (MS) network service.

Description

Detailed Description of the Invention

The present invention relates to the field of wireless mobile telephony, and more particularly to a method for optimizing “frame synchronization” and “power level” parameters during a procedure for mobile station access to network services. It is a thing.

BACKGROUND OF THE INVENTION During the last decade, wireless mobile phone systems have gradually abandoned the first generation of systems characterized by analog modulation of the transmission carrier, and instead by digital modulation and digitally. Certain technological developments have been made which have replaced the second generation systems characterized by large scale digital processing (DSP utilization) of the converted baseband signals. Time is now aimed at wireless mobile systems designed to operate at a higher degree, mainly so-called third generation systems, which differ from the previous in different ways in which users of a service access physical channels. There is.

In particular, the different access modes are based on code multiplexing technology, namely code division multiple access (CDMA) technology. The design of these systems guarantees a certain margin against noise and in the field of military the following research on feasibility of transmission suitable for keeping confidential the information transmitted has been created for the purpose of sabotage. Used for mature applications. (congestion)

These objects have been achieved by an artificial widening of the baseband spectrum of the modulation spectrum of the transmitted carrier. Therefore, this modulation technique is called spread spectrum, and consists in multiplexing each symbol at a low signal rate of the signal to be transmitted with a pseudo-noise type code sequence (chip) at a higher rate (chip rate). , Its purpose is to make it accessible only to them and to spread the information transmitted over a broad spectrum of frequencies, thus making it accessible only to the recipients. Due to this effect, the spread spectrum receiver demodulates the received signal,
And reconstruct the original data by acting on the temporal correlation between the demodulated signal and the local copy of the code sequence used in the modulator.

From the mathematical correlation between the demodulated signal and the symbols of the exact code sequence,
The original signal is obtained at its peak level at the output of the receiver and thus becomes distinguishable from noise and from interference. In the civilian situation, and particularly preferably in the wireless mobile telephone sector, a somewhat different use than the spread spectrum modulation from previous military purposes is envisaged. A particular use allows for the simultaneous sharing of a single physical channel among different users identified by different spreading codes.

The relative technique known by the abbreviation CDMA (Code Division Multiple Access) uses a cross-orthogonal spreading code sequence, that is, a neglected part on the cross-correlation side. This allows discrimination between the various users entering the transmission band in that the signals on the other channels appear as noise as a result of the correlation on the channel characterized by its own code sequence as a result of the correlation. is there.

With respect to traditional narrowband systems, spread spectrum techniques offer the additional advantage of being more sensitive to Rayleigh's selective fading, with the portion of the spectrum associated with strong attenuation being occupied by the useful signal. Due to the fact that a very small part of the spectrum is wasted, the latter is a phenomenon caused by multiple reflections of the transmitted signal along the air path.

In the above-mentioned third-generation mobile phone system, the basic parameter is a mobile station (MS).
Is the power level to access the base station (BS). The optimization of this parameter consists in ensuring that the mobile station reaches the network with the minimum output required for the desired quality, and thus optimizes the processing capacity of the system and saves power in the mobile station. Will also contribute. Also, 3GPP (such as Time Division Duplex (TDD) -Time Division Multiple Access (TDMA))
Third Generation Partnership Project) TDD U identified within the framework
TRAN mode (UMTS Terrestrial Radio Access Network
) -Based access technology, or CWTS (China Wireless Communication Standard)
Another basic parameter for the mode TD-SCDMA proposed by is the frame synchronization between MS and BS. The optimization of this parameter consists in recovering the propagation delay due to the distance between the MS and the BS, mutual interference between users contributing the same time slot (TS) and interference between users of adjacent TSs. Contribute to reduce.

Optimization of the “power level” and “frame synchronization” parameters in the network access procedure and for the first transmission on a dedicated channel is
On the other hand, it is particularly critical due to the fact that there is no closed ring control mechanism as well as point-to-point connections. Also, when using a shared radio resource during access, it causes a collision problem, i.e. these events in which different users access the same radio resource at the same time. Optimization of this parameter is also
It lies in minimizing the probability of occurrence and helps optimize the throughput and quality provided by the system.

[Means for Solving the Problems] The present invention described here proposes a network access procedure based on a physical channel and a control packet (burst) already defined in the TD-SCDMA mode. , This TD
-A value that simultaneously minimizes the probability of collision on shared radio resources for the "frame synchronization" and "power level" parameters to be used in the access procedure by SCDMA mode and for the first transmission on a dedicated channel. Can be obtained.

To this end, the invention uses a suitable method for dividing the network access procedure into various temporary discrete steps. The frame timing and power level are obtained in the following way: In the first step, the MS has the correct frame timing and access to the common channel, or random access channel (RACH) to send its access request to the network. To obtain the correct power level, we use a signature burst called Uplink Pilot Synchronization (UpPTS) in TD-SCDMA. • In the second step, the MS verifies and sets the frame timing and power level parameters and sends out a signature burst again before sending to the dedicated resources allocated by the network.

Minimization of collisions is obtained as follows. • The first step is to define a time slot in which the mobile station can be expected to receive its signature burst from the network. This means, helping to optimize collisions so that signature bursts are shared by mobile stations in the same base station electromagnetic coverage area. Furthermore, if the reply message also contains an indication of the physical channel of the RACH that the MS needs to send its access request to the network, the probability of collision of this shared radio resource is greatly reduced. To do. It may happen that the MS is unable to decipher the reply message from the network, especially under strong interference conditions, and thus becomes unaware that it is assigned to a particular RACH channel.

In this case, the network becomes shared, ie reserves valuable resources, for users who are not actually in the condition of accessing it. This situation can be solved by fixing the time instant or maximum time,
Within this time, the network waits for the reserved resources to be occupied before the resources are available again to the mobile phone user.

As a further extension of the idea, when establishing it for a service (eg, such as an emergency call and / or a Handover request, etc.), a frame of multiple frames (eg, , Even frames) only
Bursts may be sent, but supplementary frames may be tolerated for all other services, but in this case the probability of collisions when using signature bursts is further reduced (for example, for successful delivery). The quality provided to the service (by improving the probability) is improved accordingly.

Other advantages of the idea described here are: -The first of the procedures for updating the "frame synchronization" and "power level" parameters.
During one step, the network signals the level of interference (or power level suitable for transmission) recorded on the RACH access channel for use by the mobile station in answering the signature burst. Use this value to define the power level that the network will transmit on the RACH access channel; • During the second step of the "frame synchronization" and "power level" parameter update procedures, the network will Signaled at the level of interference recorded in the answer in a dedicated channel assigned to the mobile station (or, alternatively, at a suitable power level for transmission). The MS uses this parameter to define the power level at which it first accesses the dedicated channel.

Although not exclusive, the present invention is particularly suitable for the TD-SCDMA mode. The innovative features of this invention can be inferred from claim 1, while the particular embodiments are dependent on the appended claims.
It can be inferred from 2 to 16.

Embodiments The present invention will be described with reference to the drawings. The present invention considers steps for optimizing the "frame synchronization" and "power level" parameters during the procedure for accessing network services by a mobile station.

The first step mainly reproduces good frame synchronization between BS and MS,
The BS displays the physical common access channel so that the MS can send an access request with low probability of collision or interference with other users of the mobile phone by the MS.

The above parameters are refreshed before the MS starts transmission to the dedicated resources allocated by the network with the timing and power values updated by the second step.

The signature burst is comparable to the correlation word. That is, it does not carry any information or high level messages, but only carries signals which allow the network to calculate the timing and power levels of the received signals and modify the signals accordingly. In CDMA systems, especially in TD-SCDMA mode, significant signature bursts with good autocorrelation and cross-correlation properties can be sent in parallel by significant mobile stations and correctly decoded by the network.
Secondly, the network will be able to answer significant requests in an instant.

The main steps are considered by the method proposed here. A: The MS sends to the network a signature burst (UpPTS according to the symbols adopted by CWTS for TD-SCDMA mode) with a power level calculated according to the open ring procedure known in CDMA systems; frame timing is cell It is the frame timing taken from the synchronization process. The MS waits to receive a confirmation message from the network within N frames of sending the signature burst.

Three conditions may arise: B.1: The network has a large number of physical frames in N frames after receiving a signature burst with a confirmation message containing the same signature used by the mobile. If a different channel is configured in the cell phone for this purpose, the frame timing is modified, the output level to be used for the network for the next transfer and / or
Alternatively, the level of interference of the physical channel to be used and the configuration of the physical channel (for time slot / frequency / encoding) of the RACH that sends the access request message to the network service are answered. RACH structural parameters can be explicitly transmitted through signaling or taken implicitly from mobile.
The reason is, for example, that the binding is known between the RACH channel to be used in advance and the channel on which the mobile receives an acknowledgment message for the signature burst from the network.

B.2: The network has rejected message containing the same signature used by the mobile during N frames after undergoing the signature burst and, in some cases, before the MS attempts a new access. Answer the indication of the degree to which the delay time can be obtained, occupying a common access channel composed of mobile phones.

B.3 In the expected time interval there is no response from the network regarding the signature used by the mobile.

In the case of CB1, the MS shall enter the M frame after receiving a response message from the network (the chosen strategy depends on the rules established in the system that the mobile station needs to know in advance). , Send the access request to the physical channel of the RACH indicated by the synchronization and output values obtained from the parameters configured by the network as soon as possible or accurately. Then, it waits for the designation of the dedicated channel from the line network (up to a preset maximum time).
At this point, two conditions are possible.

C.1 The network positively answers the access request by allocating a dedicated physical channel.

C.2 MS does not receive a response to the request within a preset maximum delay time.

In the case of D.1 C.1, the MS can immediately set itself in a dedicated channel in receive mode and allocate the dedicated channel as soon as possible, ie in K frames. After that, the signature burst is transmitted again to update the radio parameter before transmitting to the dedicated resource. The MS waits for a reply from the network within X frames and immediately after this time interval sets itself in transfer mode on a dedicated channel: this transfer is done even if there is no reply from the network. Be seen. The parameters "K" and "X" are configured by the network to optimize the collision probability. In order to make this “frame synchronization” and “power level” parameter update procedure more effective, the values of parameters K and X need to be low.

[0029]   D.2: In case of C.2, the MS starts again at time point A.

E: In case of B.2, the MS uses the occupancy value of the access channel as a signal to signal by the network to get the delay time before attempting the next access. Start from A again.

[0031] In the case of FB.3, the MS starts again at time point A. Further objects and advantages of the invention are apparent from the claims presented in the application.

[Brief description of drawings]

FIG. 1 shows at least one base station BS and at least one mobile station MS.
The figure which shows the mobile telephone system which comprises.

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Claims (16)

[Claims] 1. At least one base station (BS) and at least one mobile station (MS) comprising code division multiple access (CDMA) and time division duplex-time division multiple access (TDD-TDMA) technology. A method of optimizing the output level of the mobile station access line network service in the common channel of the third generation mobile mobile phone system and a transmission delay equivalent method, which is called a signature burst, which allows the line and network to calculate the timing and output level of the received signal "Corresponding frame" and "power level" parameters during a procedure for accessing a mobile station (MS) network service in a frame and multi-frame organized signal transmission including a correlation word It features multiple temporary discrete steps to optimize Optimization and transmission delay equivalent method for the output level of the mobile station access network services. 2. The method comprises two temporary discrete steps, in particular in the first step, at least one mobile station (MS) uses a signature burst to access a common channel to link its access request. In order to get the correct frame timing and power level to send to the network, in a second step, the at least one mobile station (MS) verifies, settles and assigns the frame timing and power level parameters by the network. The method for optimizing the output level of a mobile station access network service and the transmission delay equalization method according to claim 1, wherein the signature burst is transmitted again before the transmission of the existing resource. 3. A method according to claim 1, characterized in that, in the first step, the mobile station defines a time interval during which the mobile station has to wait for a reply to its signature burst from the network. Output level optimization and transmission delay equalization method for mobile station access network services. 4. The reply message from the circuit network according to claim 3, wherein the mobile station also includes an indication of a physical channel for which the mobile station needs to send its access request to the circuit network. Output level optimization and transmission delay equalization method for mobile access network services. 5. The time instant, that is, the maximum time is fixed, and within this maximum time, the network waits for a physical channel reserved to be occupied, and when the maximum time is exceeded, this physical channel is The method for optimizing the output level of a mobile station access network service and the transmission delay equalization method according to claim 3, wherein connection is possible again to another user of the cell (mobile phone). 6. A signature burst can be transmitted for a predetermined service and for a predetermined frame of a multi-frame, and a supplementary frame is allowed for all other services. A method of optimizing an output level of a mobile station access circuit network service and equalizing a transmission delay according to any one of claims 1 to 5. 7. During the first step of the "frame synchronization" and "output level" parameter updating procedure, the network is:-During the first step of the "frame synchronization" and "output level" parameter updating procedure, the network is , Signal the level of interference recorded on the access channel assigned to the mobile station in response to the access request, or the power level that it is appropriate to transmit instead, and the network transmits on the access channel Use this value to define the power level; • During the second step of the "frame synchronization" and "power level" parameter update procedures, the network is dedicated to the mobile station in its reply to the signature burst. The level of interference recorded on each channel is signaled and the output level at which the network first accesses the dedicated channel. Any optimization and transmission delay equivalent method for the output level of the mobile station access line network service according to the preceding claims 1-6, characterized in that to use this parameter to define the. 8. The following operating steps: The mobile station (MS) sends a signature burst having a power level calculated according to the open ring procedure to the network, and the frame timing at that time is synchronized with the mobile phone (cell). Frame timing obtained from processing; mobile station (MS) waits to receive an acknowledgment message from the network within N frames after sending a signature burst; 7. A method of optimizing an output level of a mobile station access line network service and equalizing transmission delay according to any one of items 7 to 7. 9. The mobile station (MS) sends a message from the network if the network answers within N frames after receiving a signature burst with a confirmation message containing the same signature as used by the mobile. After receiving the reply message, in M frame,
The strategy selected depending on the rules established in the system that needs to be known to the mobile station in advance, the access request to the physical chain shown in this strategy, from the parameters configured by the network With the synchronization and output values obtained,
9. The mobile station access line network according to claim 8, wherein the mobile station access line network transmits the data as soon as possible or accurately, and finally waits for the allocation of the dedicated channel from the line network up to a preset maximum time. Service output level optimization and transmission delay equalization method. 10. The mobile station (MS) can immediately set itself in a receive mode in a dedicated channel if and only if the network answers the access request early by allocating a dedicated physical channel. Mobile station access according to claim 9, characterized in that the K-frames update their radio parameters early, i.e. after allocation of a dedicated channel and before K frames again transmit signature bursts and are transmitted to dedicated resources. A method for optimizing the output level of circuit services and equalizing transmission delay. 11. The mobile station (MS) waits for a reply from the network within an X frame and, after this time interval, is immediately set itself in the transmission mode of the existing channel. The method for optimizing the output level of a mobile station access network service and the transmission delay equalization method according to claim 10. 12. In order to make this "frame synchronization" and "output level" parameter updating procedure more effective, the values of the parameters K and X are adapted to be low. A method of optimizing an output level of a mobile station access network service and transmitting delay equalization according to any one of items. 13. If the mobile station (MS) does not receive a response to its request within the maximum configured delay time, the mobile station (MS) sets the activation program according to what was specified earlier. That is, the mobile station (MS) sends a signature burst having an output level calculated according to the open ring procedure to the circuit network, and the frame timing at that time is the frame timing obtained from the mobile phone (cell) synchronization processing; The mobile station (MS) waits to receive an acknowledgment message from the network within N frames after sending the signature burst; restarting the output level of the mobile station access network service according to claim 8. Optimization and transmission delay equalization method. 14. A mobile station MS, wherein the network is occupied by a rejection message containing a signature identical to the signature used for the mobile station mobile telephone, and in some cases a common access channel built in the cell (mobile telephone). Mobile station (MS) responds in N frames after receiving a signature burst with an indication of how long it can obtain the delay time before attempting a new access,
An operating program according to what was defined earlier, ie, the mobile station (MS) sends a signature burst with a power level calculated according to the open ring procedure to the network and the frame timing at that time is sent to the mobile phone ( Cell) as the frame timing obtained from the synchronization processing; the mobile station (MS) waits to receive an acknowledge message from the circuit network within N frames after sending the signature burst; The output level optimization and transmission delay equalization method of the mobile station access network service described in. 15. The mobile station (MS) uses the access channel occupancy value as signaled by the network to obtain the delay time before the next access attempt, and the mobile station (MS) operates according to what was specified earlier. 15. The method for optimizing the output level of a mobile station access network service and equalizing the transmission delay according to claim 14, wherein 16. If, within the expected time interval, there is no response from the network regarding the signature used by the mobile, the mobile station (MS) gives an operating program according to what was specified earlier, ie, The mobile station (MS) sends a signature burst having an output level calculated according to the open ring procedure to the circuit network, and the frame timing at that time is the frame timing obtained from the mobile phone (cell) synchronization processing; 9. Optimizing the output level of the mobile station access network service according to claim 8, wherein the station (MS) waits to receive an acknowledgment message from the network within N frames after sending the signature burst. Conversion and transmission delay equivalent method.