JPH11355860A - User information transmission and reception method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To flexibly cope with the increase/decrease of the number of terminals per a base station by storing transmission recognition with respect to a transmitted user information cell, user information channel allocation and/or transmission request in a message field between a preamble and a user information slot in a user information channel. SOLUTION: Transmission recognition against a transmitted user information cell, user information channel allocation and/or transmission request are stored in a message field between a preamble and a user information slot in a user information channel. A plurality of terminals 1 and 2 are collected and they are allocated to one control channel by the transmission/reception method, so that multiple terminals can be stored with the small number of control channels. Only the control information of a necessary minimum is transmitted and other control information is transmitted by using the message field in the user information channel at any time.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for transmitting and receiving user information which guarantees a quality of service (QoS) when transmitting user information through a radio channel between a mobile terminal and a radio base station.

[0002]

2. Description of the Related Art FIG. 1 shows an example of a system configuration to which a conventional user information transmitting / receiving method is applied. The system includes a first terminal 1 and a second terminal
This is a system using a centralized control method in which the base station 3 allocates all user information to a plurality of user information transmission requests from the terminal 2.

FIG. 7 shows an example of a frame format used for conventional user information transmission / reception. This frame format has a fixed length, and includes an access channel segment AGS (Access Segment) and a control channel segment CSG (Control Segme).
nt) and the user information channel segment USG (Us
er Segment). The access channel segment is an uplink access channel Ac
h # 1 and a downlink access channel Ach # 2. Further, the control channel segment is divided into a plurality of uplink control channels Cch # 1 to #i (upper) and a plurality of downlink control channels Cch # 1 to #i (lower). Regarding control channels, upper and lower control channels are fixedly allocated when the terminal is started. Regarding the user information channel segment, there is no distinction between upper and lower lines,
Up and down lines are mixed at any time in each frame unit.
The user information can also perform data transmission using a plurality of channels (slots).

FIG. 8 shows an example of a conventional transmission / reception procedure when information to be transmitted to a terminal arrives at a base station. The usage status of each frame is constantly broadcast from the base station to each terminal via the access channel Ach # 1. Downlink control channel Cch # 1 among the control channels allocated as a pair when the terminal starts up
Call the terminal through (below) (Call R
M). The called terminal has an uplink control channel Cch #
1 (above) to the base station (Respons
e) is returned. Upon receiving the response, the base station receives the next i +
In one frame, the downlink control channel Cch # 1
A response acknowledgment (Ack) is transmitted to the terminal through (bottom), and the user information (Dat
a) is transmitted to the terminal side. The terminal transmits an acknowledgment (Ack) for the received user information to the base station through the control channel Cch # 1 (upper) in the next (i + 2) th frame.

FIG. 9 shows an example of a transmission / reception procedure according to a conventional method when information to be transmitted to a base station is generated in a terminal. When transmission information is generated in the terminal, the terminal transmits a user information transmission request (Request) to the base station through the uplink control channel Cch # 1 (upper) among the control channels allocated in pairs at the time of startup. The base station that has received the transmission request transmits an acknowledgment (Ack) of the transmission request to the terminal side through the downlink control channel Cch # 1 (lower) in the next (i + 1) th frame. The base station that has received the response (Ack) from the terminal side allocates the user information channel (Assign U) through the downlink control channel Cch # 1 (down) in the next (i + 2) th frame.
p Slot), and the terminal that has received the allocation information returns an acknowledgment (Ack) through the uplink control channel Cch # 1 (upper). Thereafter, the user information (Data) is transmitted from the base station through the user information channel, and the terminal side confirms reception of the user information (Ack) in the next i + 3 frame in the uplink control channel C.
Transmission is performed through ch # 1 (upper).

[0006]

According to the conventional user information transmission / reception method as described above, upper and lower control channels are individually allocated to each terminal as a pair at the time of start-up. Communication is always performed using the allocated pair of control channels. The control channel continues to be occupied even when there is no information to be transmitted. Thus, since each terminal always occupies the upper and lower pairs of control channels regardless of the presence or absence of transmission / reception data,
The same number of upper and lower pairs of control channels as the number of terminals accommodated are required. This means that the number of terminals that can be accommodated per base station is limited. Therefore, when the number of accommodated terminals is increased, it is necessary to increase the number of upper and lower control channels, which results in degradation of transmission efficiency. Invite.

[0007] Also, services having completely different QoS such as services requiring real-time properties such as voice and image and services not requiring real-time properties such as data transmission are individually provided for each user using the same frame format. In the case of providing, according to the conventional method that always occupies the upper and lower control channels, the service quality such as transmission delay, delay fluctuation, and error rate required by the application or transmission medium must be guaranteed using only the control channel. In addition, the transmission efficiency is deteriorated due to the increase in the control information, and the processing load on the base station and the terminal is increased due to the complicated control.

Accordingly, the present invention is to solve the above-mentioned problems of the prior art, and an object of the present invention is to allocate control channels for each user and not to occupy the control channels at all times, and to control each communication. An object of the present invention is to provide a user information transmission / reception method which guarantees QoS on the same frame format and can flexibly cope with an increase in the number of terminals per base station.

[0009]

According to the present invention, a large number of terminals can be accommodated with a small number of control channels by allocating a plurality of terminals to a single control channel. Control channels are shared by transmitting only necessary minimum control information, such as allocation, terminal call, user information channel allocation change, and communication notification, through control channels for a plurality of terminals only when necessary. The terminal scans only the control channel to which the terminal belongs, and extracts only information related to the terminal from control information addressed to a plurality of users. With this configuration, according to the present invention, it is possible to flexibly cope with an increase or decrease in the number of terminals.

In the case where the control channel is shared using the conventional method, the control information for a plurality of users must be accommodated as it is, and the control information is increased. Only the minimum control information is transmitted, and the other control information is transmitted using the message field in the user information channel as needed. Further, in the present invention, the message
In the field control information, the delivery confirmation (Ack or N
ACK) or uplink user information channel assignment is transmitted to the terminal together with the user information using a message field in the downlink user information channel, so that the uplink and downlink can be assigned as a pair. When the uplink and downlink are allocated as a pair, the terminal side receives the user information and the message field in the downlink user information channel, extracts the uplink allocation information from the message field, and accordingly transmits the uplink signal. Send

When an application requiring real-time performance is used, the control channel is used only when the user information channel assignment is changed, the above-mentioned message field is used for other control information, and the upper and lower lines are used within the same frame. Is always paired, and the required QoS is guaranteed by assigning the downlink first and then the uplink first. On the other hand, for applications that do not require real-time performance, transmission quality according to QoS is maintained by using a message field in addition to a control channel and allocating uplink and downlink as needed. The service type is identified through an access channel or a message field.

More specifically, according to the present invention, there is provided an information transmission / reception method using a radio channel between a mobile terminal and a radio base station, the method comprising:
ck, NACK), user information channel allocation and / or
Alternatively, there is provided a user information transmission / reception method that accommodates a transmission request in a message field between a preamble and a user information slot in a user information channel.

Further, according to the present invention, there is provided a method for transmitting and receiving information between a mobile terminal and a radio base station by a radio channel,
When the mobile terminal receives user information by a call from the radio base station, the mobile terminal receives a transmission notice (Grant) of the user information from the radio base station via a corresponding control channel, and thereafter, User information transmitting / receiving method for extracting user information to be received by scanning an information channel and acknowledgment (Ack, NACK) and / or uplink user information channel assignment contained in a message field in the user information channel Is provided.

[0014] At least one of acknowledgment (Ack, NACK), service type information and channel assignment request is transmitted via a designated uplink using a message field and user information using a user information slot. Therefore, it is preferable to assign the uplink and downlink in pairs in the same frame in the order of the downlink first, and then the uplink.

Still further, according to the present invention, there is provided an information transmitting / receiving method using a radio channel between a mobile terminal and a radio base station, wherein the mobile terminal transmits user information by transmitting a transmission request to the radio base station. The mobile terminal receives the user information channel assignment via the corresponding control channel, and specifies the acknowledgment (Ack, NACK) using the message field and specifying the user information using the specified user information slot. Provided is a method for transmitting and receiving user information to be transmitted via a designated uplink.

It is preferable that a plurality of mobile terminals are collectively allocated to one control channel, and each mobile terminal scans only a corresponding control channel and extracts only control information related to the own terminal from the scan.

Further, according to the present invention, there is provided a method for transmitting and receiving information between a mobile terminal and a radio base station by a radio channel,
For services requiring real-time performance, the user information is transmitted using the downlink user information slot and the uplink is simultaneously allocated using the message field, so that the downlink is first transmitted in the same frame. Next, there is provided a user information transmission / reception method in which upper and lower lines are set in pairs in the order of uplink, and upper and lower lines are fixedly allocated and control by a control channel is not performed during that time unless the user information channel is changed.

For services that do not require real-time properties, it is preferable to set up and down lines individually or in pairs on a frame basis in consideration of requests or responses from mobile terminals.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A system configuration to which a user information transmitting / receiving method according to an embodiment of the present invention is applied is the same as the conventional system configuration example shown in FIG. In this system, regarding transmission and reception of user information, in response to a plurality of user information transmission requests from the first terminal 1 and the second terminal 2,
A centralized control method in which the base station 3 allocates all user information is used.

FIG. 2 shows an example of a frame format used in the user information transmission / reception procedure of the present embodiment. This frame is of fixed length and has the control channel segment CS
G (Control Segment) and a user information channel segment USG (User Segment).
t) and the access channel segment ASG (Access
ss Segment).

The control channel segment CSG includes downlink-only control channels Cch # 1 to Cch # 1 for a plurality of terminals.
#X and Beac for synchronization between the terminal and the base station
on channel, and these control channels are used for empty access channel information, user information channel assignment,
It is used to transmit the minimum necessary control information such as terminal call, channel assignment change, and user information transmission notification. The user information channel segment USG is divided into variable-length user information channels Uch # 1 to #z for transmitting user information and a message field. The access channel segment ASG is divided into uplink-dedicated access channels Ach # 1 to #y used for bandwidth requests from terminals to base stations and responses to base stations.

Hereinafter, a procedure for transmitting and receiving user information according to the present embodiment will be described.

FIG. 3 shows a flow chart from a base station (AP) to a terminal (RM).
4 shows a procedure in a case where the user information transmitting / receiving method according to the present invention is applied when transmitting user information that does not require real-time processing to a user.

When the user information that does not require the real-time property to be transmitted to the terminal arrives at the base station, the base station transmits the terminal via the control channel Cch # k to which the terminal belongs in order to call the terminal in the i-th frame. A call is made (Call RM) and an access channel Ach # 1 for responding to the call is assigned (Assign Ach # 1).

Since the terminal always scans the control channel to which the terminal belongs in the i-th frame and extracts related control information, the terminal responds to the call when it receives a call from the base station (Response).
Is returned to the base station through the access channel Ach # 1 designated for this call.

At the base station receiving the response from the terminal,
In the (i + 1) -th frame, the user information channel allocation in the next (i + 2) -th frame is scheduled in consideration of the service type with respect to the channel request and response accepted in the i-th frame (Schedulin).
g).

In the (i + 2) th frame, the terminal transmits a user information transmission using the user information channel Uch # 4 and a transmission notification (Grant) of the uplink user information channel allocation to the corresponding control channel Cch #.
k. Further, the user information channel Uch # 4 is scanned in order to obtain user information addressed to the terminal itself, the corresponding data (Data) is extracted, and the delivery confirmation (Ack or NA) is performed through the message field.
Uplink assignment (AssinAck) for CK)
slot, that is, Uch # 12) is extracted. Next, the terminal decodes the extracted information and confirms the delivery (Ack or N
ACK) to the base station through a message field in the user information channel Uch # 12.

FIG. 4 shows a procedure when the user information transmitting / receiving method according to the present invention is applied when transmitting user information that does not require real-time properties from the terminal side to the base station.

When user information that does not require real-time transmission to be transmitted from the terminal to the base station occurs, the terminal transmits the control channel Cch to which the terminal belongs to in the i-th frame.
#K through idle access channel information (Idle Ac
k # 1, 4, 9, 15), and based on the information, the service type identification information and the user information channel allocation indicating that the information to be transmitted is user information for which real-time performance is not required through the idle access channel Ach # 1. A request is transmitted to the base station.

In the base station, in the (i + 1) th frame,
The user information channel assignment in the (i + 2) th frame is scheduled in consideration of the service type for the channel assignment request and response accepted in the i-th frame (Scheduling).

The terminal receives an uplink user information channel assignment (Assign Up slot) for acknowledgment (Ack) and data (data) through the corresponding control channel Cch # k of the (i + 2) th frame,
The acknowledgment (Ack) and the user information (Data) are transmitted to the base station using the message field and the user information slot of the designated user information channel Uch # 6.

In the (i + 3) th frame, the terminal receives the transmission notification (Grant) of the acknowledgment (Ack) through the corresponding control channel Cch # k, and further receives the (i + 3) th
By scanning the user information channel of three frames, an acknowledgment (Ack) for the user information transmitted in the (i + 2) th frame is extracted from the user information channel Cch # 14.

FIG. 5 shows a procedure when the user information transmitting / receiving method according to the present invention is applied when transmitting user information requiring real-time properties from the base station to the terminal side.

When the base station receives user information that requires real-time transmission to be transmitted to the terminal, this base station:
In the i-th frame, the terminal is called (Call RM) through the control channel Cch # 1 to which the terminal belongs to call the corresponding terminal, and an access channel is assigned (Assign Ach #) to respond to the call (Response). Perform 1).

Since the terminal constantly scans the control channel to which the terminal belongs in the i-th frame and extracts related control information, the access channel Ach # 1 designated to receive a call from the base station And returns a response to the call to the base station.

At the base station receiving the response from the terminal,
In the (i + 1) -th frame, channel assignment in the next (i + 2) -th frame is scheduled in consideration of the service type with respect to the channel assignment request and response accepted in the i-th frame (Schedulin).
g).

In the (i + 2) th frame, the terminal transmits the user information transmission performed using downlink Uch # 3 of the user information channel and the transmission notification (Grant) of the allocation of the uplink user information channel (Grant) to the corresponding control channel Cch # k. To receive through. Further, in order to obtain user information addressed to the own terminal, the user information channel (downlink Uch # 3) is scanned to extract the data (Data), and acknowledgment (Ack) and user information (Ack) are transmitted through a message field. The uplink assignment for Data (Data) is extracted (Assign Up Slot, that is, Uch # 25).

Next, the terminal decodes the extracted information, and transmits the acknowledgment (Ack) and the user information (Data) to the message field in the user information channel (Uch # 25) and the user information in the designated same frame. It transmits to the base station through each slot.

Here, when user information requiring real-time properties is generated in the terminal, since the terminal has already been allocated in the upper and lower channel pairs, the service type identification information and the user information channel allocation request are transmitted to the upstream channel Uch #. 2
The user information to be transmitted is transmitted to the base station through the user information slot through the message field in 5.

For the subsequent frames, unless there is a change in the user information channel assignment, the user information is transmitted and received to and from the base station using the already assigned pair of upper and lower lines Uch # 3 and # 25.

FIG. 6 shows a procedure when the user information transmitting / receiving method according to the present invention is applied when transmitting user information requiring real-time properties from the terminal side to the base station.

When user information requiring real-time transmission to be transmitted from the terminal to the base station occurs, the terminal sets the i-th
In the frame, the control channel Cch to which the own terminal belongs
#K through idle access channel information (Idle Ac
k # 1, 5, 7), and based on the information, the service type identification information and the user information channel allocation request that the information to be transmitted is user information requiring real-time performance through the idle access channel Ach # 1. (Re
quest) to the base station.

In the base station, in the (i + 1) th frame,
Considering the service type for the channel assignment request and response received during the i-th frame, the next (i + 2) -th
Scheduling the channel assignment in the frame.

In the (i + 2) th frame, the terminal transmits a transmission of the uplink user information channel allocation (Grant) performed using the downlink of the user information channel.
Through the corresponding control channel Cch # k.
After receiving the transmission notification (Grant), the terminal always obtains the user information channel (downlink) transmitted from the base station for the first time in any frame by always scanning the user information channel (downlink), and obtains the corresponding data and message fields. Confirmation of delivery (Ack) and user information (dat)
a) Uplink assignment (Assign Up)
slot).

Next, the terminal decrypts the extracted information,
Specified same frame (user information channel Uch #
20) User information (Data) through the user information slot and its message field (uplink)
And an acknowledgment (Ack) to the base station.

For services requiring real-time properties, the user information channel is allocated once in the upper and lower link pairs, in the order of the downlink, then the uplink first, as in the above-described procedure (FIGS. 5 and 6). However, control using the control channel is not performed except for the change in the assignment of the user information channel, and the uplink and downlink are always fixed unless the assignment of the user information channel is changed. Therefore, the terminal needs to scan only the corresponding slot position.
However, since the occurrence of a change in the assignment of the user information channel cannot be expected in the terminal, the corresponding control channel C
ch # k keeps scanning every frame.

The procedure shown in FIG. 6 is an example of a case where the user information channel assignment in the (i + 3) th frame is changed by the scheduling in the (i + 2) th frame. When the terminal receives the user information channel allocation change from the base station through the corresponding control channel Cch # k, the terminal is transmitted from the base station in the (i + 3) th frame because the slot position of the user information channel has been changed. User information channel (downlink) addressed to (Uch #
4) Acquired by continuing to scan, extract relevant data and Ack through message field
And uplink assignment for user information (Uch # 3
Extract 2). Then, the terminal decodes the extracted information and transmits the corresponding user information and Ack to the base station through the specified user information slot and the message field in the same frame. However, as long as the user information channel is not changed, the user information slot positions Uch # 4 and Uch # 4 transmitted and received in the i + 3 frame.
# 32 is also effective in subsequent frames.

When transmitting user information requiring real-time performance from a terminal, the channel for transmitting service type identification information and a user information channel allocation request differs depending on whether or not lines are allocated in upper and lower pairs. In the procedure of FIG. 5, the service type identification information and the user information channel assignment request are transmitted through a message field in the user information channel because they have already been assigned in uplink and downlink pairs. On the other hand, in the procedure of FIG. 6, since it is a stage before the uplink and downlink are allocated as a pair, the service type identification information and the user information channel allocation request are transmitted through the idle access channel obtained through the corresponding control channel.

The embodiments described above all show the present invention by way of example and not by way of limitation, and the present invention can be embodied in other various modifications and alterations. Therefore, the scope of the present invention is defined only by the appended claims and their equivalents.

[0050]

As described above, according to the present invention, the conventional method in which the number of terminals accommodated per base station is strictly dependent on the number of control channels is achieved by making the control channel capable of accommodating a plurality of users. Is clearly different, and the number of accommodated terminals does not largely depend on the number of control channels, and it is possible to flexibly cope with an increase or decrease in the number of terminals.

Further, only the minimum necessary control information is transmitted using the control channel, and Ack (NACK), user information channel allocation, and the like are performed using the message field in the user information channel. In this case, it is possible to simultaneously assign up and down lines, and the present invention can be applied to a service that requires a real-time property that requires a quick response.

For providing services with different transmission qualities, such as a service for always setting fixed upper and lower lines and a service for individually setting upper and lower lines, each QoS is guaranteed by using the same frame and transmission / reception method. It is possible to

[Brief description of the drawings]

FIG. 1 is a diagram showing an example of a system configuration to which a user information transmitting / receiving method according to a conventional technique and an embodiment of the present invention is applied.

FIG. 2 is a diagram illustrating an example of a frame format in a user information transmitting / receiving method according to an embodiment of the present invention.

FIG. 3 is a diagram showing a sequence at the time of terminal reception in a service that does not require real-time performance using the user information transmission / reception method according to an embodiment of the present invention.

FIG. 4 is a diagram showing a sequence at the time of terminal transmission in a service that does not require real-time performance using the user information transmission / reception method according to an embodiment of the present invention.

FIG. 5 is a diagram showing a sequence at the time of terminal reception in a service requiring real-time performance using the user information transmission / reception method in one embodiment of the present invention.

FIG. 6 is a diagram showing a sequence at the time of terminal transmission in a service requiring real-time performance using the user information transmission / reception method in one embodiment of the present invention.

FIG. 7 is a diagram showing an example of a frame format in a conventional user information transmitting / receiving method.

FIG. 8 is a diagram showing a sequence at the time of terminal reception in a service that does not require real-time properties using the conventional user information transmission / reception method.

FIG. 9 is a diagram showing a sequence at the time of terminal transmission in a service that does not require real-time properties using the conventional user information transmission / reception method.

[Explanation of symbols]

 1, 2 mobile terminal 3 base station

Claims (7)

[Claims] An information transmission / reception method using a radio link between a mobile terminal and a radio base station, the method comprising: transmitting an acknowledgment (Ack, NACK) to a transmitted user information cell; A method for transmitting / receiving user information, wherein the method is accommodated in a message field between a preamble and a user information slot in a channel. 2. A method for transmitting and receiving information via a radio link between a mobile terminal and a radio base station, wherein when the mobile terminal receives user information by a call from the radio base station, the mobile terminal performs the radio communication. A transmission notification (Grant) of the user information from the base station is received via the corresponding control channel, and thereafter, the user information channel is scanned to accommodate the user information to be received and the message field in the user information channel. A transmission / reception confirmation (Ack, NACK) and / or uplink user information channel assignment that has been performed. 3. Transmission of at least one of acknowledgment (Ack, NACK), service type information and a channel assignment request using a message field and user information via a designated uplink using a user information slot. The method according to claim 2, wherein the uplink and the downlink are allocated in pairs in the same frame in the order of the downlink first, and then the uplink. 4. A method for transmitting and receiving information between a mobile terminal and a wireless base station by using a wireless link, wherein the mobile terminal transmits user information by transmitting a transmission request to the wireless base station. Receives the user information channel assignment over the corresponding control channel, and receives an acknowledgment (Ack, NACK) using the message field and the user information slot using the specified user information slot. A user information transmitting / receiving method characterized in that the user information is transmitted via an external device. 5. The method according to claim 1, wherein a plurality of mobile terminals are collectively allocated to one control channel, and each mobile terminal scans only a corresponding control channel and extracts only control information related to its own terminal from the scanned control channel. The method according to any one of claims 2 to 4, wherein 6. A method for transmitting and receiving information between a mobile terminal and a radio base station by a radio channel, wherein for a service requiring real-time performance, user information is transmitted using a downlink user information slot. By simultaneously performing uplink allocation using the message field, the downlink first in the same frame,
A method for transmitting and receiving user information, wherein upper and lower lines are set as a pair in the order of the uplink, and unless the user information channel is changed, the upper and lower lines are fixedly allocated and control by the control channel is not performed during that time. 7. The service according to claim 6, wherein, for a service that does not require real-time characteristics, the uplink and downlink are set individually or in pairs in frame units in consideration of a request or response from the mobile terminal. Method.