JP3870771B2 - Channel switching method and channel switching method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve a problem of a conventional channel switching system that has had a high failure probability in channel switching operations on the occurrence of re-transmission control in layer 2 at the channel switching control. <P>SOLUTION: The channel switching system implements channel switching control in a layer 3 including a control of making a performance start time coincident between a base station and a mobile station and re-transmission control in the layer 2, the layer 2 performs the processing of counting the number of retransmission times of a transmission signal in a transmission acknowledgement function attached mode, attaching the count result to the transmission signal as an information element, and transmitting the resulting transmission signal, and the layer 3 performs the processing of grasping the state of the retransmission control in the layer 2 by referencing the information denoting the number of retransmission times and recalculating and updating the performance start time depending on the state. The layer 3 performs the processing of dynamically changing the performance start time depending on the state of the retransmission control in the layer 2 and allows the mobile station and the base station to switch channels on the basis of the performance start time. <P>COPYRIGHT: (C)2003,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a channel switching method in a cellular wireless communication (mobile communication) system. And channel switching method In particular, a channel switching method in a radio communication system that performs control to match execution start times of channel switching operations of a base station and a mobile station And channel switching method About.
[0002]
[Prior art]
Communication such as a cellular phone is performed by a cellular wireless communication (mobile communication) system. In the cellular system, the communication service area is divided into small zones = cells, and each cell is managed by the base station. A mobile station such as a mobile phone communicates with a base station of a cell to which the mobile station belongs by controlling multiple access. Examples of the multiple access method include FDMA, TDMA, and CDMA. Further, in the case of the central control method, each base station is comprehensively controlled by the base station control device. The base station and the base station control device perform communication by assigning a communication channel to each mobile station in the cell. For example, in the case of CDMA, a channel is a radio link that is distinguished by a different spreading code for each mobile station. Channel allocation methods include static allocation and dynamic allocation. In the case of static assignment, channels are fixedly assigned to base stations and cells. In the case of dynamic allocation, the channel is allocated with time variation depending on traffic conditions.
[0003]
A mobile station moves between cells. At that time, it is necessary to perform switching control of base stations for communication. This switching control is called handover. Further, although it depends on various methods, a scene where the communication channel needs to be switched occurs at any time, and a scene where the channel needs to be switched includes the above-described handover. There are also scenes where channel switching is performed within the same cell. The present invention relates to channel switching control.
[0004]
In order to start communication by newly setting a communication channel between a mobile station and a base station, it is necessary for both parties to establish synchronization at an appropriate timing. In order to establish this synchronization, as a control in layer 3, the base station controller notifies the mobile station and the base station of the execution start time for the channel switching operation, and performs synchronization establishment based on this timing. (For example, “3GPP TS 25.322 V3.6.0” is a wireless communication standard for performing such control). For example, in the case of W-CDMA, the execution start time uses a frame number (FN) which is a common time designation unit for performing synchronization processing between the mobile station, the base station, and the base station controller. Specified.
[0005]
A channel switching operation in the conventional wireless communication system as described above will be described with reference to FIGS. FIG. 6 is a diagram illustrating a basic configuration of a cellular radio communication system. In FIG. 6, the wireless communication system includes a mobile station 1, a base station 2, a base station control device 3, an exchange 4, and another network 5. The base station 2a corresponds to the cell a, and the base station 2b corresponds to the cell b. The mobile station 1 is a terminal such as a mobile phone. The base station 2 performs multi-access control with the mobile station 1 in the corresponding cell and performs communication using a predetermined channel. The base station control device 3 performs overall control of the base station 2 group. The mobile station 1 can be connected to another network 5 via the exchange 4.
[0006]
Hereinafter, in the present specification, communication using a W-CDMA (Wideband-Code Division Multiple Access) mobile phone will be described as an example.
[0007]
FIG. 8 is a sequence diagram showing a normal channel switching operation in the conventional system. FIG. 9 is a sequence diagram showing an operation when channel switching fails in the conventional system. In FIG. 8 and FIG. 9, the configurations of the radio communication architectures on the mobile station side, base station, and base station controller side are largely divided into layers 1, 2, and 3. Layer 1 relates to hardware / physical control in wireless communication. Layer 2 performs communication control on the radio link including retransmission control for covering signal loss and the like. Layer 3 performs base station control such as communication outgoing / incoming control and channel switching, and control of layers 1 and 2 as wireless communication control of the entire system. The base station 2 is mainly responsible for layer 1 processing on the base station and base station controller side, and the base station controller 3 is responsible for layer 2 and 3 processing.
[0008]
In FIG. 8, first, it is assumed that the mobile station 1 starts communication with the base station 2a through a predetermined channel. The system causes the mobile station 1 to measure the state of wireless communication with base stations around the current cell a. The mobile station 1 reports the measured communication state to the base station control device 3 through the base station 2a.
[0009]
The base station control device 3 monitors the communication status information reported from the mobile station 1 to ascertain the position and radio wave status of the mobile station 1, and at any time, particularly at the cell boundary, an appropriate switching destination base station and channel Explore. For example, when the mobile station 1 enters the cell boundary, the base station control device 3 determines that it is better to communicate with the base station 2b as the switching destination for the mobile station 1, and then the mobile station 1 communicates with the mobile station 1 through the base station 2a. In response to this, a “channel switching request” signal is transmitted.
[0010]
This “channel switching request” includes “execution start time” information regarding the channel switching operation in addition to the switching destination channel information and the like. “Execution start time” is timing information used to establish synchronization of a radio link between layer 1 of the mobile station 1 and layer 1 of the base station 2. This is designated using a frame number which is a time designation unit for time synchronization processing among the mobile station, the base station, and the base station controller. The frame number is an information element that designates a certain frame in a predetermined unit period (for example, 2.5 to 2.6 sec). In W-CDMA, this is called FN (Frame Number). One frame is a unit of 10 ms. Hereinafter, this “execution start time” information is T.
[0011]
When transmitting a “channel switching request”, the layer 3 of the base station controller 3 first notifies the layer 2 of a transmission request for a “channel switching request (+ T)” signal. At that time, the layer 3 of the base station control device 3 also gives an instruction to transmit to the layer 2 using a delivery acknowledged mode signal (AMD: Acknowledged Mode Data). FIG. 7 shows the configuration of an example of a signal format with a delivery confirmation (3GPP TS 25.322 V3.6.0 AMD PDU). Layer 2 on the base station and base station controller side performs processing to add an information element “SequenceNumber (SN)” indicating the transmission order number of the transmission signal to the transmission signal. In the mode with delivery confirmation, the SN is used for signal reconstruction and retransmission control. The base station and the base station control device side can confirm how far the signal has reached the receiving side by receiving a delivery confirmation signal for the transmission signal from the mobile station side.
[0012]
In response to the transmission request from the layer 3, the layer 2 of the base station control device 3 performs processing for adding an information element (such as the transmission number SN) necessary for retransmission control to the transmission signal. Transmit to layer 1 of the base station 2a. The layer 1 of the base station 2 a transmits the reception signal (channel switching request (+ T)) from the layer 2 of the base station control device 3 to the layer 2 of the mobile station 1.
[0013]
The layer 2 of the mobile station 1 receives the signal (channel switching request (+ T)) from the base station 2a, analyzes the information element (transmission number SN, etc.) added in the layer of the base station controller 3 and analyzes the signal Reconstruction is performed, and if there is no problem, processing for removing the information content is performed, and “reception notification” is performed to layer 3 of the mobile station 1. Further, the mobile station 1 layer 2 performs a process of transmitting a delivery confirmation signal for the “channel switching request (+ T)” from the base station controller 3 to the base station controller 3 layer 2.
[0014]
The layer 2 of the base station controller 3 receives the delivery confirmation signal for the “channel switching request” from the mobile station 1 side, and confirms that the previously transmitted “channel switching request” has been reliably received by the mobile station 1 side. Upon confirmation, “transmission completion” is notified to the same layer 3 at this timing.
[0015]
On the other hand, the layer 3 of the mobile station 1 analyzes that the “channel switching request (+ T)” from the base station controller 3 layer 3 is received, and gives the “execution start time T” to the mobile station 1 layer 1. “Channel switching instruction” included in the parameter is notified.
[0016]
Upon receiving the “transmission completion” notification for the “channel switching request”, the layer 3 of the base station control device 3 notifies the base station 2 b of the “channel activation request” with its execution start time T (to the mobile station 1). The same as the execution start time) is included in the parameter.
[0017]
Based on the “channel switching instruction (+ T)” from the layer 3, the layer 1 of the mobile station 1 sets the new channel specified by the parameter included in the instruction when the instructed execution start time T is reached. Switching, establishment of synchronization with the base station 2b is attempted, and when the establishment of synchronization is completed, “channel switching completion (synchronization confirmation)” is notified to the same layer 3. Similarly, the layer 1 of the base station 2b is also connected to the base station control device 3 when synchronization establishment with the mobile station 1 based on the “channel activation request (+ T)” from the base station control device 3 is completed. To notify “synchronization confirmation”.
[0018]
When the layer 3 of the mobile station 1 receives the “channel switching completion” notification from the layer 1, the layer 3 sends a “channel switching completion” signal indicating that the channel switching is completed to the base station control device 3. When the layer 3 of the base station controller 3 receives the “channel switching complete” signal from the mobile station 1 side, the layer 3 transmits a delivery confirmation signal to the mobile station 1 side and moves to the base station 2a until now. A “channel stop instruction” signal instructing to stop the old channel used in communication with the station 1 is transmitted to stop the channel. The channel switching is normally completed by the above procedure.
[0019]
[Problems to be solved by the invention]
Hereinafter, an operation that causes a problem in the conventional channel switching method will be described. FIG. 9 is a sequence diagram showing the operation. Consider a case where a delivery confirmation signal from the mobile station 1 layer 2 in response to a “channel switching request (+ T)” from the base station control device 3 layer 3 is missing in the radio section and does not reach the base station and the base station control device side. The base station control device 3 layer 2 performs a process of starting a retransmission protection timer for retransmission control during signal transmission. If the delivery confirmation signal for the previously transmitted signal does not return before the protection timer times out at a predetermined limit, the layer 2 performs retransmission processing on the mobile station 1. In this case, the layer 2 of the base station control device 3 retransmits the “channel switching request (+ T)” because the delivery confirmation signal from the mobile station 1 has not arrived and the protection timer has timed out.
[0020]
On the other hand, since the mobile station 1 layer 3 has already received the “channel switching request (+ T)”, the channel 1 has been notified of the “channel switching instruction (+ T)”. As a result, the layer 1 attempts to establish synchronization with the base station 2b for channel switching. However, the base station 2b side in the form corresponding to the instructed execution start time T due to the occurrence of the missing delivery confirmation signal. There is a possibility that the “channel activation instruction (+ T)” from the base station controller 3 may not be received. In this case, the channel switching at the execution start time T fails, and the mobile station 1 layer 3 “Channel switching failure (synchronous NG)” is notified.
[0021]
When the mobile station 1 layer 2 receives the signal “channel switching request (+ T)” retransmitted from the base station control device 3, it returns a delivery confirmation signal again.
[0022]
Assuming that the base station control device 3 layer 1 has received the delivery confirmation signal from the mobile station 1 normally this time, “transmission complete” is notified to the layer 3. When the base station control device 3 layer 3 receives the “transmission completion” notification, it notifies the base station 2 b of “channel activation instruction (+ T)”, but has already transmitted to the mobile station 1 in the first signal transmission. There is a possibility that the designated execution start time T has passed, and when the “channel activation instruction” is issued after the execution start time T has passed, between the mobile station 1 layer 1 and the base station 2b layer 1 Cannot be established, channel switching fails, and “synchronous NG” is notified to the base station controller 3. As a result, the mobile station 1 and the base station control device 3 both fail to switch channels as a result.
[0023]
That is, in the above-described conventional method, the base station controller performs the same execution to the mobile station 1 and the base station 2 when the delivery confirmation signal from the mobile station 1 in response to the “channel switching request” is lost in the wireless section. The channel switching operation cannot be performed at the start time. In such a case, channel switching will fail with high probability.
[0024]
In the conventional channel switching method, there is a high possibility that the channel switching operation will fail when a mobile station in an environment with poor radio wave conditions has a loss of signal in the radio section. It was bad behavior.
[0025]
The present invention has been made in view of such problems, and performs channel switching control in consideration of the state of retransmission control in layer 2 and can reduce the probability of channel switching operation failure. And channel switching method The main purpose is to provide
[0026]
[Means for Solving the Problems]
In order to achieve this object, the invention according to claim 1 includes a mobile station, a base station, Control communication between base station and mobile station In a cellular radio communication system having a base station controller, Layer 3 of the mobile station, base station, and base station controller is Base station and mobile station Match the execution start time to perform channel switching , Layer 2 of the base station and base station controller transmits / retransmits a transmission signal requesting channel switching transmitted from layer 3 of the base station and base station controller to the mobile station. A channel switching method, Of the base station and the base station controller Layer 2 is Request channel switching from layer 3 of base station and base station controller About the transmission signal Number of resends Count , The number of retransmissions Granted as an information element To the mobile station , When a transmission confirmation signal indicating normal transmission of the transmission signal to the mobile station is received, a delivery signal confirmation signal for the transmission confirmation signal is transmitted to the mobile station, and reception completion of the delivery confirmation signal is included in the signal. To the layer 3 of the base station controller, and the layer 2 of the mobile station transmits a transmission confirmation signal indicating that the transmission signal has been received to the base station and the base station controller, and receives the delivery signal confirmation signal. Then, the number of retransmissions given to the signal is notified to the layer 3 of the mobile station together with the reception notification, and the mobile station, the base station, and the base station control device Layer 3 is Of mobile stations, base stations and base station controllers Layer 2 Notified by The execution start time is dynamically determined by recalculating the execution start time according to the number of retransmissions, and the mobile station and the base station are determined based on the execution start time. To Channel of switching Execute It is characterized by that.
[0027]
The invention according to claim 2 is the invention according to claim 1, Of the base station and the base station controller Layer 2 is An information element for requesting transmission of a delivery confirmation signal for confirming delivery of a transmission signal to the mobile station is added to the transmission signal, and the number of retransmissions given to the delivery confirmation signal received from the mobile station is controlled by the base station and the base station When the layer 2 of the mobile station receives the transmission signal, the layer 2 of the mobile station transmits a delivery confirmation signal with the number of retransmissions to the base station and the base station controller. It is characterized by that.
[0028]
The invention according to claim 3 is the invention according to claim 1, Of the base station and the base station controller Layer 2 is A timer that controls retransmission of the transmission signal, and when the timer times out without confirming reception of the transmission signal at the mobile station, the transmission signal is retransmitted, and the base station and the base station controller Layer 3 performs the execution start time recalculation process at the execution start time, Accompanying one retransmission process It is characterized by adding values obtained by multiplying the elapsed time.
[0029]
The invention according to claim 4 is the invention according to claim 1, The transmission signal includes the frame number FN, and the mobile station, the base station, and the base station controller Layer 3 is characterized in that the execution start time is designated by the frame number FN.
[0030]
The invention according to claim 5 is the invention according to claim 1, Of the base station and the base station controller Layer 3 determines whether the transmission signal is a signal related to the execution start time instruction, and executes the execution start time. Concerning For signals, Of the base station and the base station controller For layer 2 Number of resends In the format with Of transmitted signal Make a send request, otherwise, Number of resends It is characterized in that a transmission request is made in a format with no.
[0031]
The invention according to claim 6 is the invention according to claim 1, wherein the layer 3 of the mobile station is Execution start time, as well as Number of resends Channel containing of switching Request to send Trust Issue When received from the base station control device side, a recalculation process of the execution start time is performed, and a channel switching operation is performed according to the execution start time.
[0032]
The invention according to claim 7 is a mobile station, a base station, Control communication between base station and mobile station In a cellular radio communication system having a base station controller, Layer 3 of the mobile station, base station, and base station controller is Base station and mobile station Match the execution start time to perform channel switching , Layer 2 of the base station and the base station controller is a wireless communication system for transmitting / retransmitting a transmission signal for requesting channel switching transmitted from layer 3 of the base station and the base station controller to the mobile station. Channel switching Method Because Base station and Layer 3 of the base station controller is Fruit Determine the line start time, Number of resends In mode with of switching The request Do Send Signal transmission of base station and base station controller Layer 2 To request Steps, Base station and Layer 2 of the base station controller is Number of resends With mode Sending transmission signals with Leave Requests switching of the channel transmitted from the base station and base station controller to the mobile station About the transmission signal An information element requesting transmission of an acknowledgment signal and Number of resends To the transmitted signal Granting and sending, and Base station and Whether layer 2 of the base station controller is a mobile station Rachi Channel of A delivery confirmation signal for the switching request is received, a delivery signal confirmation signal for the signal is transmitted to the mobile station, and reception completion for the delivery confirmation signal is included in the signal. Number of resends The Of the base station and the base station controller Notifying layer 3; Base station and Layer 3 of the base station controller is Number of resends Refer to Number of retransmissions The execution start time is recalculated according to the step, and the channel switching instruction is given to the base station layer 1 at the execution start time, and the mobile station layer 3 receives and executes the delivery signal confirmation signal. Performing a recalculation process of the start time, instructing channel switching to the same layer 1 at the execution start time, and performing a channel switch by the mobile station and the base station at the recalculated execution start time; It is characterized by having.
[0033]
The invention according to claim 8 is the invention according to claim 7, Of the base station and the base station controller Layer 2 is A timer for controlling retransmission of the transmission signal, and a step of retransmitting the transmission signal when reception of the transmission signal at the mobile station is not confirmed and the timer times out, and the base station and the base station controller Layer 3 performs the execution start time recalculation process at the execution start time, Accompanying one retransmission process Add the value multiplied by the elapsed time Having steps It is characterized by that.
[0034]
The invention according to claim 9 is the invention according to claim 7, The transmission signal includes the frame number FN, and the mobile station, the base station, and the base station controller Layer 3 is characterized in that the execution start time is designated by the frame number FN.
[0035]
The invention of claim 10 is the invention of claim 7, Of the base station and the base station controller If layer 3 determines whether the transmitted signal is a signal related to the execution start time indication, and the signal uses the execution start time, Number of resends In the format with Of transmitted signal Send The request Shi If not, Number of resends In no format Of transmitted signal Send The request Do It further has a step.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a diagram showing a configuration of a wireless communication system using a channel switching method according to an embodiment of the present invention. FIG. 3 is a sequence diagram showing the operation of the channel switching method in the embodiment of the present invention.
[0037]
In FIG. 1, the wireless communication system using the channel switching method of this embodiment includes a mobile station 1, a base station 2, a base station controller 3, an exchange 4, and another network 5. In FIG. 1, only two sets of the base station 2 and the cells that it covers are shown. Let each base station be 2a and 2b, respectively, and the corresponding cells be a and b. In this embodiment, as with the description of the prior art, communication using a W-CDMA mobile phone will be described as an example.
[0038]
This channel switching method is a channel switching method in a wireless communication system that performs control to match the execution start times of a base station and a mobile station during channel switching control. In the present system, as a feature thereof, a value is dynamically determined for the above-described execution start time that has been determined only in the conventional layer 3 in consideration of the state of retransmission control in the layer 2. As a result, even when a signal loss occurs in a radio section during communication during channel switching control and retransmission control is performed, the execution start time is changed correspondingly to change between the mobile station and the base station. Since the execution start times are matched, the channel switching operation can be completed normally.
[0039]
Further, in this method, when the transmission signal from the base station and the base station controller to the mobile station is a signal not related to the execution start time, the conventional layer 2 format is used and the execution start time is set. In the case of a signal using, a dedicated layer 2 format provided by this method is used. This does not increase the layer 2 overhead.
[0040]
The mobile station 1 is a mobile terminal such as a mobile phone having a predetermined wireless communication function corresponding to a cellular system, code division multiple access, and the like. The base station 2 is a device that processes wireless communication with a mobile station located in a corresponding cell. The base station control device 3 performs overall control of the group of base stations 2 and performs various communication controls including outgoing / incoming control, handover, channel switching control, and the like. The mobile station 1 can be connected to another network 5 through the exchange 4 during communication. The architecture of this wireless communication system is divided into layers 1, 2, and 3, and the main functions and processing are the same as in the conventional system.
[0041]
Layer 3 on the base station and base station controller side includes a channel switching control unit that performs predetermined channel switching control based on the conventional method. In this method, the channel switching control unit further includes an execution start time processing unit 6. The execution start time processing unit 6 performs a process of determining the “execution start time” of the mobile station 1 and the base station 2 during the channel switching operation. In addition, it is determined whether the transmission signal is a signal with “execution start time”, and “with / without retransmission” is selected according to the signal, and a transmission request is made to layer 2. Further, it is determined whether the received signal is a signal with “retransmission count”, and the “execution start time” is recalculated with reference to the “retransmission count” value. The “retransmission count” is an element introduced by layer 2 of this method (described later).
[0042]
Layer 2 on the base station and base station controller side includes a retransmission control unit that performs predetermined retransmission control based on a conventional scheme. In this method, the retransmission control unit further includes a retransmission count processing unit 7. The retransmission control unit has a retransmission protection timer function, and starts this protection timer during signal transmission. If the delivery confirmation signal for the transmission signal does not return within the predetermined time limit of this timer and a timeout occurs, the previously transmitted signal is retransmitted. The retransmission count processing unit 7 is provided with a “retransmission count (RetryCount)” information element as a format of the transmission signal, and performs a process of counting the number of retransmissions and giving it as an information element to the transmission signal. The retransmission count value is set to 0, for example, in the normal state without retransmission, and is incremented every time retransmission is performed. FIG. 2 shows a format of a layer 2 acknowledgment mode signal (AMD PDU (Acknowledged Mode Data Protocol Data Unit)) of the present scheme provided with a retransmission count information element. The elements other than the retransmission count field are the same as the signal format shown in the conventional system.
[0043]
The layer 2 of the base station controller 3 generates a signal with acknowledgment (acknowledged mode data) according to the instruction of the layer 3 and transmits it from the layer 1. Also, when receiving the delivery confirmation signal from the mobile station side, the same layer 2 notifies the same layer 3 of “transmission completion” indicating that the previous transmission signal has been transmitted to the mobile station side. At the time of this notification, the retransmission count value is also notified.
[0044]
As described in the conventional method, the “execution start time” information is timing information for channel switching and synchronization establishment specified by information such as the frame number FN. Hereinafter, this “execution start time” information element is T.
[0045]
The mobile station 1 side also includes a processing unit that performs processing corresponding to processing performed by the execution start time processing unit possessed by layer 3 on the base station and base station control device side and the retransmission count processing unit possessed by layer 2.
[0046]
The operation of the channel switching method in the embodiment of the present invention will be described with reference to FIGS. The sequence diagram of FIG. 3 shows an operation in the case where a signal loss occurs in the wireless section and the delivery confirmation signal from the mobile station 1 does not reach the base station control device 3 side.
[0047]
First, it is assumed that the mobile station 1 has already started communication with the base station 2a on a predetermined channel. The system causes the mobile station 1 to measure the state of radio communication with the base stations around the cell where it is currently located, and reports it to the base station controller 3 through the base station 2a. The base station control device 3 monitors communication state information reported from the mobile station 1 and searches for a switching destination base station and a switching destination channel as needed based on the position and radio wave state of the mobile station 1. Here, it is assumed that the necessity of channel switching for the mobile station 1 occurs. For example, it is assumed that when the mobile station 1 enters the cell boundary, the base station control device 3 determines that communication with the base station 2b is better as a switching destination. Based on this determination, the base station controller 3 determines the switching destination channel and the execution start time T of the channel switching operation, and sends a “channel switching request” signal to the mobile station 1 through the base station 2a with a delivery confirmation function. Send in format.
[0048]
FIG. 4 shows a flowchart of the layer 3 transmission / reception processing of the base station control device 3. First, the base station control device 3 layer 3 includes “execution start time” information in a signal (here, “channel switching request”) transmitted to the mobile station 1 at the start of transmission processing (step S1). (Step S2). If the signal does not include the execution start time information, a transmission request in the format (no retransmission count) as in the conventional method is notified to the layer 2 (step S3). In the case of a signal including execution start time information, a transmission request in a format with a “retransmission count (RetryCount)” is notified to the layer 2 together with information such as the execution start time T instructed to the mobile station 1 (Step S4). After the notification, it waits for a “transmission completion” notification from layer 2 (step S5).
[0049]
FIG. 5 shows a flowchart of transmission / reception processing with retransmission count of layer 2 in the base station control device 3. When the layer 2 of the base station control device 3 receives a notification of “transmission request with retransmission count (including an instruction of execution start time T)” from the layer 3 (step S11), the information element “RetryCount” Is first initialized (step S12), a transmission signal with a retransmission count and a delivery confirmation function is generated (step S13), and transmitted to the mobile station 1 by the layer 1 (step S14). At this time, a retransmission protection timer is started. And it waits for reception of the delivery confirmation signal with respect to a transmission signal (step S15).
[0050]
In FIG. 3, signals with (1st) and (2nd) are signals to which a retransmission count is given. (1st) indicates the first transmission, RetryCount = 0, (2nd) indicates the second transmission, that is, the first retransmission, and RetryCount = 1. In the above procedure, a “channel switching request (+ T)” signal is transmitted from the base station and the base station controller side to the mobile station 1 side. When the layer 2 of the mobile station 1 receives a signal with a retransmission count, the layer 2 of the mobile station 1 wraps and adds the RetryCount value as an information element and returns a delivery confirmation signal. At this timing, the layer 2 of the mobile station 1 does not perform “reception notification” regarding the channel switching request to the layer 3.
[0051]
When this delivery confirmation signal is lost in the radio section, the layer 2 of the base station controller 3 retransmits the signal (here, “channel switching request (+ T)”) at the time-out timing of the retransmission protection timer. At this time, the RetryCount value is counted up (in this case, 0 → 1) (FIG. 5, step S16), and retransmission is performed.
[0052]
In response to the received signal from the base station controller 3 (second channel switching request), the layer 2 of the mobile station 1 sets the RetryCount again and transmits a delivery confirmation signal. As in the first time, “reception notification” is not performed.
[0053]
When the layer 2 of the base station controller 3 normally receives the delivery confirmation signal from the mobile station 1, it refers to the RetryCount value included in the layer 2 and responds to the signal (second channel switching request) retransmitted by the layer 2 It confirms that it is a delivery confirmation signal, and transmits a “delivery signal confirmation signal” indicating that the delivery confirmation signal has been received to the mobile station 1 in a form including the execution start time T and the RetryCount value. The layer 3 is notified of “transmission completion” regarding the channel switching request together with the RetryCount value (FIG. 5, step S18).
[0054]
The layer 3 of the base station control device 3 determines whether the transmission signal received from the layer 2 is a “transmission completion” notification with a retransmission count (FIG. 4, step S6), and a “transmission completion (+ RetryCount value)” notification In this case, in order to update the execution start time T initially determined (at the time of the first transmission) in accordance with the retransmission status, the RetryCount value is referred to (step S7), and the execution start time T based on the value is re-established. Calculation processing is performed (step S8). Let T ′ be the recalculated execution start time. Calculate with T ′ = T + α. α is obtained by multiplying the RetryCount value (here, the value is 1 because one retransmission is performed), the interval time of one retransmission process, that is, the elapsed time t of the protection timer in FIG. That is, T ′ = T + RetryCount × t.
[0055]
The layer 3 of the base station control device 3 notifies the channel 1 of the base station 2 b of the “channel switching instruction” including the instruction of the recalculated new execution start time T ′ (= T + α). Let the switch occur.
[0056]
On the other hand, in the layer 2 of the mobile station 1, when the “delivery signal confirmation signal (+ T, RetryCount)” is received from the base station control device 3, “reception notification” regarding the channel switching request is performed to the layer 3. At that time, the RetryCount value is also notified. When the mobile station 1 layer 3 receives the “reception notification” from the layer 2, the RetryCount value is updated in order to update the execution start time T according to the retransmission status, as in the processing in the base station controller 3 layer 3. The recalculation processing of the execution start time T is performed with reference to FIG. If the execution start time recalculated is T ′, T ′ = T + α = T + RetryCount × t. t is the elapsed time associated with one retransmission process. The mobile station 1 layer 3 notifies the same layer 1 of the “channel switching instruction” including the new T ′ instruction, and causes channel switching. Since the execution start time is determined by taking into account the number of retransmissions by layer 2, both the mobile station 1 side and the base station 2 side can establish synchronization within the execution start time, and complete the channel switching normally. be able to.
[0057]
The subsequent processing is the same as the conventional processing. The mobile station 1 layer 1 and the base station 2 layer 1 perform channel switching at the recalculated execution start time T ′. When the mobile station 1 layer 1 succeeds in establishing synchronization, the mobile station 1 layer 1 transmits “channel switching completion (synchronization confirmation)” to the layer 3. When the synchronization is successfully established, the base station 2 layer 1 transmits “channel switching completion (synchronization confirmation)” to the base station control device 3 layer 3. When the mobile station 1 layer 3 receives “channel switching completion” from the layer 1, the mobile station 1 layer 3 transmits “channel switching completion” to the base station controller 3 layer 3. Upon receiving “Channel switching completion”, the base station control device 3 layer 2 notifies the same layer 3 of “reception notification” of channel switching completion. Upon receiving this “reception notification”, the layer 3 transmits a delivery confirmation signal for the previous “channel switching completion” to the mobile station 1 layer 3, and also sends a “channel stop instruction” to the base station 2. To stop the old channel. As described above, the channel switching operation can be normally completed even when retransmission control is performed.
[0058]
Another application example of this method will be described. In the above embodiment, the case of channel switching between base stations has been described, but this can also be applied to the case of channel switching within the same cell. Also, when performing processing to change the parameters of the channel being communicated, such as when changing the communication speed (data rate) during packet communication, for example, the execution start time for the control is set similarly. Therefore, similarly to the above-described embodiment, the operation can be performed using the transmission request signal with the retransmission count, and the failure probability of the operation can be reduced.
[0059]
The embodiment of the present invention has been described above. The above-described embodiment shows an example of a preferred embodiment of the present invention, and the present invention is not limited thereto, and various modifications can be made without departing from the scope of the invention. .
[0060]
【The invention's effect】
As is apparent from the above description, according to the present invention, when channel switching control is performed, signal processing is completed within the execution start time when a signal loss occurs in a radio section in a mobile station having a poor radio wave condition. The channel switching operation, which has a high probability of failing without being performed, can be improved by changing the channel switching control in consideration of the state of retransmission control in layer 2 to increase the success probability and improve the communication service quality. . In addition, by defining a new layer 2 signal format for this purpose and using the conventional layer 2 format for other signals not related to execution start time coincidence control, this effect can be achieved without increasing the layer 2 overhead. Can be realized.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a wireless communication system using a channel switching method in an embodiment of the present invention.
FIG. 2 is a diagram showing a format of a mode signal with delivery confirmation in the method of the present invention.
FIG. 3 is a sequence diagram showing an operation of a channel switching method in the embodiment of the present invention.
FIG. 4 is a flowchart showing layer 3 transmission / reception processing of the base station controller.
FIG. 5 is a flowchart showing a transmission / reception process with a retransmission count of layer 2 of the base station controller.
FIG. 6 is a diagram showing a configuration of a wireless communication system using a conventional channel switching method.
FIG. 7 is a diagram showing a signal format with a delivery confirmation in the conventional method.
FIG. 8 is a sequence diagram showing a normal channel switching operation in a conventional method.
FIG. 9 is a sequence diagram showing a failure of a channel switching operation when retransmission occurs in the conventional method.
[Explanation of symbols]
1 Mobile station
2a, 2b Base station
3 Base station controller
4 exchanges
5 Other networks
a, b cells
6 Execution start time processing section
7 Retransmission count processing section

Claims (10)

In a cellular radio communication system having a mobile station, a base station, and a base station controller that controls communication between the base station and the mobile station , the mobile station, the base station, and the base station controller Layer 3 matches the execution start times for performing channel switching between the base station and the mobile station , and layer 2 of the base station and the base station controller is transmitted from layer 3 of the base station controller. A channel switching method for transmitting / retransmitting a transmission signal for requesting switching of the received channel to the mobile station ,
The layer 2 of the base station and the base station control device counts the number of retransmissions for a transmission signal requesting channel switching from the base station and the layer 3 of the base station control device , and transmits the retransmission signal to the transmission signal. number was transmitted to the mobile station by applying as an information element, it receives the transmission confirmation signal indicating the successful transmission of the transmission signal to the mobile station, a delivery signal confirmation signal to the transmission confirmation signal to the mobile station Transmit, and notify the base station and the layer 3 of the base station controller of the completion of reception of the delivery confirmation signal and the number of retransmissions included in the signal,
Layer 2 of the mobile station transmits the transmission confirmation signal indicating that the transmission signal has been received to the base station and the base station control device, and receives the delivery signal confirmation signal, and is added to the signal Notifying the mobile station layer 3 of the number of retransmissions together with the reception notification,
Wherein the mobile station layer 3 of the base station and the base station controller, again the execution start time according to the number of retransmissions notified from the layer 2 of the said and the mobile station the base station and the base station controller channel switching method, wherein the execution start time determined dynamically, thereby executing the switching of the switch Yaneru to the mobile station and the base station by the execution start time by calculating. Layer 2 of the base station and the base station control device adds an information element for requesting transmission of a delivery confirmation signal for confirming delivery of the transmission signal to the mobile station to be received from the mobile station. Notifying the base station and the layer 3 of the base station controller of the number of retransmissions given to the delivery confirmation signal,
The channel switching according to claim 1 , wherein upon receiving the transmission signal, layer 2 of the mobile station transmits the delivery confirmation signal to which the number of retransmissions is given to the base station and the base station controller. method. Layer 2 of the base station and the base station controller has a timer that controls retransmission of the transmission signal, and when the timer times out without confirming reception of the transmission signal at the mobile station, Resend the transmitted signal,
Layer 3 of the base station and the base station control device adds a value obtained by multiplying the execution start time by the execution start time multiplied by the number of retransmissions and the elapsed time associated with one retransmission process. 2. The channel switching method according to claim 1, wherein the channel switching method is performed. The transmission signal includes a frame number FN,
2. The channel switching method according to claim 1, wherein the mobile station, the base station, and the layer 3 of the base station controller specify the execution start time by a frame number FN. Layer 3 of the base station and the base station controller determines whether or not the transmission signal is a signal related to the execution start time, and in the case of the signal related to the execution start time, the base station and the base station The transmission request of the transmission signal in the format with the number of retransmissions is made to the layer 2 of the control apparatus, and if not, the transmission request in the format without the number of retransmissions is made. Channel switching method. The mobile station layer 3 of the execution start time, and when the transmission signal for requesting the switching of the channel including the number of retransmissions received from said base station control apparatus performs a recalculation of the execution start time 2. The channel switching method according to claim 1, wherein a channel switching operation is performed according to the execution start time. In a cellular radio communication system having a mobile station, a base station, and a base station controller that controls communication between the base station and the mobile station , the mobile station, the base station, and the base station controller Layer 3 matches the execution start times for performing channel switching between the base station and the mobile station , and layer 2 of the base station and the base station controller is the layer of the base station and the base station controller. A channel switching method of the wireless communication system for transmitting / retransmitting a transmission signal for requesting channel switching transmitted from 3 to the mobile station ,
The Layer 3 of the base station and the base station controller, prior to determining the you line start time, the base station and the base station controls the transmission of the transmission signal for requesting channel switching of the mode with the number of retransmissions Requesting layer 2 of the device ;
Layer 2 of the base station and the base station controller, Oite the transmission of the transmission signal in the number of retransmissions with mode switching of a channel to be transmitted to the mobile station from the base station and the base station controller For the transmission signal to be requested, the information element for requesting transmission of the delivery confirmation signal and the number of retransmissions are given to the transmission signal and transmitted ,
Layer 2 of the base station and the base station controller receives the acknowledgment signal to the switching request of the mobile station or Lachi Yaneru, transmits a delivery signal confirmation signal to the signal to the mobile station, also, Notifying layer 3 of the base station controller of completion of reception of the acknowledgment signal and the number of retransmissions included in the signal;
The Layer 3 of the base station and the base station controller refers to the number of retransmissions, recalculates processing of the execution start time according to the number sent該再, to the layer 1 of the base station at the execution start time A step of instructing channel switching to
The layer 3 of the mobile station receives the delivery signal confirmation signal, performs recalculation processing of the execution start time, and issues a channel switching instruction to the layer 1 at the execution start time;
Channel switching method, wherein the mobile station and the base station has, and performing the channel switch by the recalculated execution start time. Layer 2 of the base station and the base station controller has a timer for controlling retransmission of the transmission signal, and when reception of the transmission signal at the mobile station is not confirmed and the timer times out, Retransmitting the transmission signal;
Layer 3 of the base station and the base station control device adds a value obtained by multiplying the execution start time by the execution start time multiplied by the number of retransmissions and the elapsed time associated with one retransmission process. 8. The channel switching method according to claim 7, further comprising the step of: The transmission signal includes a frame number FN,
8. The channel switching method according to claim 7, wherein the mobile station, the base station, and the layer 3 of the base station controller specify the execution start time by a frame number FN. The Layer 3 of the base station and the base station controller, said transmission signal to determine whether a signal related to an instruction of the execution start time, when the signals using the execution start time, with the number of retransmissions requesting transmission of the transmission signal of the format, otherwise, the channel switching method according to claim 7, further comprising the step of requesting transmission of the transmission signal of the format of the no number of retransmissions .

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