JP2003244067A - Multicast communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a multicast communication system wherein one base station can provide multicast service to users limitlessly at the same time even though a high-speed wireless access system such as a HiSWANa (High Speed Wireless Access Network type a) is used. <P>SOLUTION: A base station produces multicast logic channel information (information indicative of cross-reference between multicast connection and logical channel) (S2) and periodically informs a mobile station about it (S3-1,..., S3-n). When the mobile station makes a reception request of a new multicast program (S4), the mobile station receives the multicast logic channel information sent periodically from the base station (S3-n), and the mobile station acquires identification number (MAC-ID=2) of the logic channel to receive a desired multicast program by referencing the multicast logical channel information (S5). After that, the mobile station starts reception of the multicast program by receiving the logical channel whose MAC-ID is 2 (S6). <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication system for performing multicast communication via a wireless line,
The present invention relates to a technique for allowing a mobile station to easily receive a plurality of multicast programs set by a base station. The present invention is particularly applicable to HiSWANa (High Speed Wireless Acce
In high-speed wireless access systems such as ss Network type a), it is used to provide multicast services to unlimited users by omitting association procedures such as authentication.

[0002]

2. Description of the Related Art In a high-speed wireless access system in which a plurality of logical channels (connections) can be set simultaneously, an identification number is assigned to each logical channel and communication is started in advance between a base station and a mobile station. Negotiation is performed and the identification number of the logical channel to be used is assigned.
MMAC (Multimedia Mobile Access Communic in Japan
Systems) HiSWANa system and European ETSI-BRAN
(European Telecommunications Standards Institute-B
Hiper LAN / 2 in roadband Radio Access Networks)
In systems etc., the number for identifying this logical channel is called MAC-ID (access control identification number),
Specifies the MAC-ID that the base station should use for the mobile station in the association procedure when setting the channel. In these systems, an individual MAC-ID is similarly assigned by the base station for each multicast connection when setting a multicast connection. The mobile station acquires the MAC-ID of the multicast program it is trying to receive by using the preset unicast connection between itself and the base station, and uses this MAC-ID to acquire the multicast program's MAC-ID. Receive.

FIG. 5 shows a procedure for receiving a multicast program in the conventional system. First, the mobile station transmits a connection setting request to the base station (S1), and in response, the base station sets the identification number of the logical channel for communication.
(S2), notification is made using the broadcast channel (S3). The mobile station constantly receives the broadcast channel, and obtains the identification number of the logical channel assigned to itself (in this figure, this identification number is MAC-ID = 1). After the identification number is assigned, communication is performed using this identification number (S
Four). In the case of normal communication, there is a one-to-one correspondence between the base station and mobile station.
Unicast connection is used for communication, but when a mobile station newly sets up a multicast connection (S5), it stores the multicast connection setup request information in the unicast connection and notifies it to the base station. (S6). The base station assigns the identification number of the logical channel if the corresponding multicast connection has already been set up, and if it has not been set up, assigns the identification number with the new connection setting (S7), and assigns the identification number of this logical channel. Notify the mobile station (S8). The mobile station which has acquired this identification number (in this figure, this identification number is MAC-ID = 2) starts receiving the logical channel with MAC-ID = 2 according to this identification number (S9).

6 and 7 show functional block configuration examples of a base station and a mobile station in the conventional system. In the figure,
110 and 120 are interface units, 111 and 121 are transmission / reception buffers, 112 and 122 are transmission / reception control circuits, 113 and 123 are wireless units, 114 and 124 are antenna units, 115 and 125 are control units,
Reference numeral 116 is a multicast logical channel correspondence management unit.

In FIG. 6, the base station transmits and receives data to and from the network side through the interface section 110.
The data input from the network side is temporarily stored in the transmission / reception buffer 111, and the data is transmitted via the wireless unit 113 and the antenna unit 114 at the transmission timing managed by the transmission / reception control circuit 112. Conversely, at the time of data reception, at the timing managed by the transmission / reception control circuit 112, data is received via the antenna unit 114 and the wireless unit 113, stored in the transmission / reception buffer 111, and output to the network side via the interface unit 110. The control unit 115 manages various connections. Further, the transmission / reception control circuit 112 transmits the control information of the wireless line generated by the control unit 115 as necessary, and separates the received control information from the user information and transfers it to the control unit 115. The multicast logical channel correspondence management unit 116 manages the correspondence between the MAC address or IP address of the multicast connection set by the control unit 115 and the logical channel number. The multicast logical channel correspondence management unit 116 may manage the presence / absence of a mobile station being received for each multicast connection, and may manage the maintenance / release of the connection.

As shown in FIG. 7, the mobile station also has the same functional block configuration as the base station except for the multicast logical channel correspondence management section 116. However, since the base station communicates with a plurality of mobile stations in parallel at the same time, the interface unit 11
0, transmission / reception buffer 111, transmission / reception control circuit 112, control unit 115
The circuit scale of becomes large. In particular, the transmission / reception control circuit 112 in the base station has a function of managing all band allocation to each mobile station and instructing transmission and reception as necessary. On the other hand, the transmission / reception control circuit 112 in the mobile station is slightly different in function details from the base station in that the transmission / reception control circuit 112 in the mobile station synchronizes with the base station and subordinately communicates at the transmission timing and the reception timing designated by the base station. When the above-mentioned mobile station receives a multicast program, control information for wireless channel control is exchanged between the base station and the mobile station, a multicast connection setting different from the unicast connection is set, and this connection is used. To receive the multicast program.

[0007]

In the high-speed wireless access system, it is required to stably supply broadband communication including high-definition moving images to mobile users. For example, in recent high-speed wireless access systems represented by HiSWANa and the like, broadband communication of several tens of Mbps is possible, and it has become practical to provide a moving image of several Mbps at the same time by a plurality of connections. In these systems, the advantage of using a wireless line is that not only is wireless communication possible, but effective bandwidth utilization can be achieved by simultaneously transmitting data to multiple users simultaneously. can give. This broadcast communication is generally called multicast. HiSWANa also has rules regarding multicast communication. A mobile station that has completed the process of assigning an identification number (MAC-ID in HiSWANa) that is assigned individually to each mobile station to a base station It becomes possible to perform multicast communication under the control of the base station.

A point to be noted here is that each mobile station must be assigned a logical channel identification number by the base station in order to perform multicast communication. For example, in the case of television broadcasting, the program corresponding to the logical channel identified by the frequency is known to the user. However, in systems such as HiSWANa, the correspondence between logical channels and multicast connections is not known, and different settings will be made for each operation.Therefore, the mobile station will set up a control line to acquire information about this correspondence. There is a need to. In other words, if the control line cannot be set up, it is impossible to receive the multicast program, which defines the upper limit of the number of users who can simultaneously provide the service by one base station.

Here, assuming a venue such as a business show, it is possible that hundreds of users simultaneously receive one multicast program. But,
Assuming a conventional HiSWANa system, the number of control line connections that can be set is the upper limit of the number of users that can provide the multicast service, so that up to about 200 users can simultaneously provide the service. In order to increase the number of accommodated users, a new base station must be set (disposed), which is wasteful. In fact, in Japan, the band allocated for high-speed wireless access systems such as HiSWANa using the 5 GHz band is 100 MHz (4 channels), and it is not realistic to install many base stations in one place. Therefore, in order to be able to simultaneously provide multicast services to unlimited users while using these systems such as HiSWANa, a new function is required for the base station and mobile station. Furthermore, in the conventional method, in order to set the multicast connection to the base station,
The mobile station had to set up a multicast connection for itself to receive. In the conventional form of use, it suffices that the receiving mobile station set up a multicast connection. However, when providing a multicast connection service to unlimited users at the same time, the multicast program is actually received. Since a manager other than the mobile station manages the connection, a management method for the multicast connection different from the conventional one is required.

Therefore, an object of the present invention is to provide a multicast communication system capable of simultaneously providing a multicast service to unlimited users with one base station while using a high speed wireless access system such as HiSWANa, and this multicast. Establishing a simple connection management method.

[0011]

In order to solve the above-mentioned problems, the present invention provides a wireless communication system comprising a base station and a plurality of mobile stations which communicate via a wireless line, wherein the base station comprises: A function of transmitting a multicast program in association with a logical channel, a function of managing the correspondence between the multicast program and a logical channel used to transmit the multicast program, and a function of transmitting all or some of the set multicast programs. A function of notifying information indicating a logical channel to be selected for receiving a multicast program, that is, "logical channel information for multicast" using a known logical channel, and the mobile station controls the base station with control information. The above-mentioned multicast logical channel information is received using a known logical channel without transmitting A function of selecting a logical channel for receiving a designated multicast program by referring to the multicast logical channel information when a user inputs a request for receiving a multicast program, and a selected logic The most main feature is that it has a function of receiving a multicast program transferred on a channel.

In the conventional method, the base station broadcasts the logical channel information for multicast indicating the identification number of the logical channel for receiving each multicast program using a known logical channel, and the mobile station notifies this. The difference lies in that a known logical channel is used for reception, and the logical channel for receiving each multicast program can be autonomously selected by referring to this multicast logical channel information. This is information indicating the correspondence between the multicast program and the identification number of the logical channel required to receive the program from the base station without the mobile station setting up a bidirectional control line with the base station. It proposes a simple realization method to obtain. Further, in a wireless communication system composed of a base station communicating via a wireless line, a plurality of mobile stations, and a control terminal connected to the base station via a wired network or via a wireless line with the base station, The base station performs a multicast according to a function of managing correspondence between a multicast program and a logical channel used for transmitting the multicast program, and information instructed from the control terminal via a wired network or a wireless line with the base station. It is preferable to have a function of newly setting or deleting the setting of the correspondence between the program and the logical channel.

In the conventional method, the setting of the multicast connection can be set only by the setting of the multicast connection which the mobile station communicating with the base station using the wireless line receives through the setting of the multicast connection received by the own station. Even when providing a multicast service, a mobile station that continues to receive each multicast connection was necessary, but in the present invention, a control terminal that does not receive the multicast to be set allows the mobile station to connect via a wired network or a wireless line. The difference is that the multicast connection can be set.

This is to propose a simple realization method for setting a connection for receiving a multicast service by an unlimited number of users in a base station without preparing a mobile station for receiving a multicast connection. Is. In the present invention, the base station apparatus has a function of notifying the multicast logical channel information indicating the correspondence between the multicast program and the logical channels set, and the mobile station further receives the multicast logical channel information, It is equipped with a function to select the logical channel corresponding to the corresponding multicast program by referring to this multicast logical channel information. Therefore, the base station is providing the control information without transmitting control information to the base station. It becomes possible to select and receive a multicast program. As a result, it is possible to obtain the effect that the multicast service can be simultaneously provided to unlimited users.
Further, by providing a function of setting / releasing the correspondence between the multicast program managed by the base station and the logical channel from a control terminal connected via a wired network or a wireless line, it is provided to unlimited users. The effect that the management of the multicast program can be easily realized can also be obtained.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION Various embodiments of the present invention will be described below with reference to the drawings. (Embodiment 1) FIG. 1 is a diagram showing a procedure for receiving a multicast program in Embodiment 1 of the present invention. In the present invention, the setting of the multicast connection can be performed by an instruction from a control terminal connected via a wired network or a wireless line, in addition to the method of requesting the setting of the multicast connection from the wireless terminal as in the conventional case. Is. Therefore, in this figure, a multicast connection is set up using these means, and a logical channel with MAC-ID = 2 is assigned as the identification number of this multicast connection.
As (S1), the following description will be given. The base station creates multicast logical channel information as information indicating the correspondence between the set multicast connection and logical channels (S2), and periodically notifies this (S3-1, S3-
2, ..., S3-n). When the mobile station makes a request to receive a new multicast program (S4), it receives the multicast logical channel information that is periodically transmitted from the base station (S3-n). By referring to, the identification number of the logical channel for receiving the desired multicast program (MAC-ID = 2)
Is obtained (S5). After that, the reception of the multicast program is started by receiving the logical channel with MAC-ID = 2 (S6). In the first embodiment, after a new multicast program reception request is made in step (S4), multicast logical channel information is received in step (S3-n), and a logical channel is received based on this information. However, if you save this information in the memory each time you receive the multicast logical channel information in the procedure (S3-1, S3-2), after you request to receive the multicast program, It is also possible to select a logical channel without receiving the logical channel information for multicast again.

2 and 3 show functional block configuration examples of the base station and the mobile station in the first embodiment. In the figure,
10 and 20 are interface sections, 11 and 21 are transmission / reception buffers, 12 and 22 are transmission / reception control circuits, 13 and 23 are radio sections, 14
Reference numerals 24 and 24 are antenna units, 15 and 25 are control units, 16 is a multicast logical channel correspondence management unit, 17 is a multicast logical channel information transmission circuit, 26 is a multicast logical channel selection circuit, and 27 is a multicast logical channel information reception circuit. Is. In FIG. 2, the base station transmits and receives data to and from the network side through the interface unit 10, and the data input from the network side is temporarily
The data is stored in the transmission / reception buffer 11 and transmitted to the terminal device connected to the mobile station via the radio unit 13 and the antenna unit 14 at the transmission timing managed by the transmission / reception control circuit 12. In addition, the antenna unit is set at the reception timing managed by the transmission / reception control circuit 12.
The data received via 14 and the wireless unit 13 is temporarily stored in the transmission / reception buffer 11 and output to the network side via the interface unit 10. The control unit 15 manages various connections and terminates the generation of control information of the wireless line. Further, the transmission / reception control circuit 12 manages transmission / reception timing of various control information and user data, and controls input / output of necessary data by the transmission / reception buffer 11, the control unit 15,
This is performed with the logical channel information transmission circuit 17 for multicast. When a request for setting / releasing a multicast connection is received from a mobile station, the control unit 15 detects this and notifies the multicast logical channel correspondence management unit 16 to
Instruct to update the correspondence between multicast connection and logical channel number. In the multicast logical channel information transmission circuit 17, the correspondence relationship between the latest multicast connection and the logical channel number is acquired from the multicast logical channel correspondence management unit 16, the multicast logical channel information is generated from this, and the transmission and reception control circuit 12, Periodically transmitted to the terminal device connected to the mobile station via the radio unit 13 and the antenna unit 14. It should be noted that the multicast logical channel information created by the multicast logical channel information transmitting circuit 17 does not need to contain information about all the multicast connections set by the base station, and only a part of the information can be selectively selected. It is also possible to house it in.

In FIG. 3, the mobile station inputs / outputs data from / to a terminal device such as a computer through the interface section 20, and the data input from the terminal device side to the mobile station is:
Once stored in the transmission / reception buffer 21, the transmission / reception control circuit 22
The wireless unit 23 and the antenna unit 24 at the transmission timing managed by
Is transmitted to the terminal device via. Also, the transmission / reception control circuit
The antenna section 24 and the radio section are controlled by the reception timing managed by 22.
The data received via 23 is temporarily stored in the transmission / reception buffer 21, and is output to the terminal device side via the interface unit 20. The control unit 25 manages the connection being set in the mobile station, and also terminates the generation of control information of the wireless line. The transmission / reception control circuit 22 manages transmission / reception timing of various control information and user data, and controls input / output of necessary data between the transmission / reception buffer 21, the control unit 25, and the multicast logical channel information reception circuit 27. . The multicast logical channel information receiving circuit 27 receives the multicast logical channel information received at the reception timing of the known logical channel managed by the transmission / reception control circuit 22, and the multicast logical channel information is received by the multicast logical channel selection circuit 26. To enter. Setting of multicast connection from terminal /
When the release request is input to the control unit 25 via the interface unit 20, the control unit 25 instructs the multicast logical channel selection circuit 26 to use the multicast MAC address or IP.
Queries the correspondence between the address and the identification number of the logical channel. The multicast logical channel selection circuit 26 selects the identification number of the logical channel to be received based on the multicast logical channel information from the multicast logical channel information receiving circuit 27 and notifies the control unit 25 of this. The control unit 25 instructs the transmission / reception control circuit 22 to receive the logical channel of the notified identification number, and the terminal device can receive the multicast service by receiving this logical channel. At this time, the mobile station does not need to transmit any control signal to the base station. In the communication using a normal unicast connection, the multicast logical channel correspondence management unit 16, the multicast logical channel information transmission circuit 17,
Since the multicast logical channel selection circuit 26 and the multicast logical channel information receiving circuit 27 are unnecessary, the base station and the receiving station perform exactly the same operations as in the case of the conventional system. Further, in order for the mobile station to receive the multicast program that is not recorded in the multicast logical channel information, it is necessary to take the same multicast program receiving procedure as in the conventional method. As described above, the invention described in claim 1 of the present application corresponds to the first embodiment.

Here, in the functional block configuration example of the base station shown in FIG. 2, as a method of setting a multicast connection corresponding to the procedure (S1) of FIG. I was assuming you would. However, updating (setting / release) of information of the already set multicast connection managed by the multicast logical channel correspondence management unit 16 does not necessarily have to follow the multicast receiving procedure of the mobile station as in the conventional method. For example, from a control terminal connected to the interface unit 10 of the base station via a wired network or a control terminal connected to a mobile station that communicates with the base station via a wireless line, a multicast logical channel correspondence management unit is remotely operated. You can also access and update 16

(Embodiment 2) FIG. 4 is a diagram showing a functional block configuration example of a base station which realizes a function of updating the information of the multicast logical channel correspondence management unit 16 from the outside in Embodiment 2 of the present invention. . In the figure, a multicast logical channel remote setting circuit 18 is added to the functional block of FIG.

When multicast connection setting or release request information is input from the control terminal connected via the wired network, the interface unit 10 refers to the destination of the information and sets the remote logical channel for multicast via the control unit 15. Transfer to circuit 18. On the other hand, when the multicast connection setting or release request information is received from the control terminal connected to the base station via the wireless line, the antenna unit 14, the wireless unit 13, like the normal data,
The information is input to the interface unit 10 via the transmission / reception control circuit 12 and the transmission / reception buffer 11, the interface unit 10 refers to the destination of the information, and transfers it to the multicast logical channel remote setting circuit 18 via the control unit 15. However, between the base station and the mobile station, when handling the setting or release request information of the multicast connection as the control information of the wireless line different from the user information, the antenna unit 14, the wireless unit 13, the transmission / reception control circuit 12, the control unit. It is also possible to transfer to the logical channel remote setting circuit for multicast 18 via 15. In this way, based on the setting or release request information input to the multicast logical channel remote setting circuit 18, the multicast logical channel remote setting circuit 18 accesses the multicast logical channel correspondence management unit 16,
Update management information. As described above, the invention described in claim 2 of the present application corresponds to the second embodiment. The embodiments described above are merely illustrative and not limitative of the present invention, and the present invention can be implemented in various other modified modes and modified modes. Therefore, the scope of the present invention is defined only by the claims and their equivalents.

[0021]

As described in detail above, according to the present invention, it is possible to provide a multicast service to unspecified and unlimited users while using a high-speed wireless access system such as HiSWANa. As a result, it is possible to perform communication that effectively utilizes limited frequency resources and efficiently provide services to a large number of users with a small number of base stations. As a result, 100MHz (4 channels) for 5GHz band high speed wireless system like Japan
Even if there is only allocation, it can be expected that services can be efficiently deployed using the high-speed wireless access system.

[Brief description of drawings]

FIG. 1 is a diagram showing a procedure of receiving a multicast program according to a first embodiment.

FIG. 2 is a diagram showing a functional block configuration example of a base station according to the first embodiment.

FIG. 3 is a diagram showing a functional block configuration example of a mobile station according to the first embodiment.

FIG. 4 is a diagram showing a functional block configuration example of a base station according to a second embodiment.

FIG. 5 is a diagram showing a procedure for receiving a multicast program in the conventional method.

FIG. 6 is a diagram showing a functional block configuration example of a base station in a conventional system.

FIG. 7 is a diagram showing a functional block configuration example of a mobile station in a conventional system.

[Explanation of symbols]

10,20,110,120 Interface section 11,21,111,121 Transmission / reception buffer 12,22,112,122 Transmission / reception control circuit 13,23,113,123 Radio section 14,24,114,124 Antenna section 15,25,115,125 Control section 16,116 Multicast logical channel correspondence management section 17 Multicast logical channel information transmission circuit 18 Multicast logic Channel remote setting circuit 26 Logical channel selection circuit for multicast 27 Logical channel information receiving circuit for multicast

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Satoshi Horiguchi             2-3-1, Otemachi, Chiyoda-ku, Tokyo             Inside Telegraph and Telephone Corporation F term (reference) 5K030 HA08 HB02 HC09 JL01 JT09                       LD02                 5K033 CB13 DA19                 5K067 AA41 BB02 BB21 CC14 DD51                       EE02 EE10 FF01

Claims (2)

[Claims] 1. A multicast wireless communication system composed of a base station and a plurality of mobile stations communicating via a wireless line, wherein the base station has a function of transmitting a multicast program in correspondence with a logical channel, and a multicast function. Information indicating the function of managing the correspondence between a program and a logical channel used for transmitting the multicast program, and the logical channel to be selected for receiving the multicast program for all or some of the set multicast programs That is, it has a function of broadcasting "multicast logical channel information" using a known logical channel, the mobile station transmits the multicast logical channel information without transmitting control information to the base station. Ability to receive using a known logical channel and When a program reception request is input, a function of selecting a logical channel for receiving a specified multicast program by referring to the multicast logical channel information, and a multicast transferred by the selected logical channel A multicast communication system having a function of receiving a program. 2. The multicast communication system according to claim 1, further comprising a control terminal connected to the base station via a wired network or via a wireless line with the base station, wherein the base station is a multicast program and the multicast. A function of managing correspondence between logical channels used for transmitting a program, and a new setting of correspondence between a multicast program and a logical channel according to information instructed from the control terminal via a wired network or a wireless line with the base station or A multicast communication system having a function of deleting settings.