JP3425285B2 - Communication system, wireless terminal, server device, and narrow band wireless base station - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio communication system in which setup and call interruption of a radio communication terminal equipment connecting to a network via two-way incoming/outgoing narrow band radio channels and an outgoing broad band radio channel are conducted efficiently, the power consumption of a receiver of a broad band radio channel provided to the radio communication terminal equipment is reduced and the radio communication terminal equipment is made small. SOLUTION: A radio communication terminal equipment 5 sets a call with a narrow band radio base station 3 to set up a 2-way narrow band radio channel and makes setup request to a database 2 by using the 2-way narrow band radio channel and the database 2 accordingly makes setup request between the broad band radio base station 4 and a terminal equipment 5 to assign the outgoing broad band radio channel to the terminal equipment 5 and sets a call between the terminal equipment 5 and the database 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication terminal connected to a network via a bidirectional narrow band wireless channel and a downlink wide band wireless channel provided by a wireless base station connected to the network. A communication system for receiving desired data from the server via the downlink wideband wireless channel by communicating with the server via the bidirectional narrowband wireless channel.

[0002]

2. Description of the Related Art Recently, PHS (Personal Ha)
The service of the ndy phone system) was started, and the digital mobile communication has been receiving more attention.

In this PHS wireless communication protocol, when a call is connected, the physical slot for transmitting a call connection request message is the same as the physical slot for transmitting information after the call is connected to the communication phase. It is a thing. Specifically, RCR STD-28 which is the standard of PHS
It is specified in detail in.

That is, when the wireless communication terminal makes a call, the wireless communication terminal first performs random access on a random access channel physically different from the communication channel and transmits a link channel establishment request.

The nearest radio base station transmits a link channel assignment message to the radio communication terminal in response to the request. Specifically, a radio frequency for communication and a slot number of a physical slot are assigned to the radio communication terminal.

After that, the radio communication terminal establishes a physical layer link in the assigned physical slot. Specifically, the link establishment is confirmed by transmitting and receiving a short burst using a physical slot allocated between the wireless communication terminal and the wireless base station.

When the physical link is established in this way,
Next, the link of the data link layer of the control channel is established. Specifically, LAPDC (Link Acce)
ssProcedure for Digital C
The data link is connected by a protocol called "ordless". After that, a call setup message is sent from the wireless communication terminal to the wireless base station to perform necessary negotiation, and then the call is set up.

Next, in order to start communication in the same physical slot, the data link layer of the control channel is disconnected, and then the communication phase starts.

As described above, the call connection method for wireless communication in which the call setup and communication are transmitted in the same physical slot is suitable for the case of immediate connection such as voice communication.

[0010]

On the other hand, in addition to the bidirectional wireless channel of the conventional PHS, the service area is PHS.
A wideband wireless channel that is narrower than the two-way wireless channel but is sufficiently high speed is added, and the wireless communication terminal is connected to the network through the upper and lower bidirectional narrowband wireless channels and the downstream wideband wireless channel, and the database on the network is connected. Has proposed a system for transmitting a still image, a moving image or the like to a wireless communication terminal via a broadband wireless channel.

In such a system, the uplink radio channel from the radio communication terminal to the radio base station is low speed and the downlink radio channel from the radio base station to the radio communication terminal is high speed, so that the radio communication terminal fetches information. The time is very short. Therefore, when performing communication in such a system, it is not always necessary to make an immediate connection.

Further, a receiver that receives a high speed wireless channel consumes more power than a receiver that receives a low speed wireless channel (narrow band wireless channel). From this, too, in the communication in which the uplink radio channel is low speed and the downlink radio channel is high speed, the standby connection is preferable to the immediate connection.

However, in the conventional call setting for wireless communication as described above, the call setting must be separately performed for the low-speed uplink wireless channel and the high-speed downlink wireless channel. Therefore, the receiver for receiving the high-speed downlink wireless channel has to be in a power-on state from the time of call setting, which causes a problem that it consumes a lot of power. That is, the burden on the battery is increased and it is difficult to reduce the size of the wireless communication terminal.

On the other hand, in order to disconnect the wireless channel set by the above-described call setting procedure, first, the wireless communication terminal transmits a disconnection message to the wireless base station, the call is released, and then the call is released. , Data link (Layer 2)
Finally, the wireless resource is released, that is, the wireless channel is disconnected.

However, a system in which one line is formed by the low-speed bidirectional wireless channel as described above, and one line is further formed by the upstream wireless channel and the high-speed downstream wireless channel Then, if the radio channel of either line is disconnected, there arises a problem that the low speed downlink radio channel or the high speed downlink radio channel cannot be disconnected.

Therefore, the present invention has been made in view of the above problems, and call setting and call disconnection of a wireless communication terminal connected to a network via a narrow band wireless channel in the upper and lower directions and a downstream wide band wireless channel. It is an object of the present invention to provide a wireless communication system in which the receiver can be efficiently used, the power consumption of the receiver of the wideband wireless channel provided in the wireless communication terminal can be reduced, and the wireless communication terminal can be downsized.

[0017]

A wireless communication system of the present invention includes a narrow band wireless base station which provides narrow band wireless channels having the same bandwidth in both upper and lower directions, and a downlink having a wider band than the narrow band wireless channel. A broadband wireless base station that provides a broadband wireless channel is connected to a network so that they can communicate with each other, and a wireless communication terminal uses the bidirectional wireless channel and the downlink broadband wireless channel to connect the narrowband wireless base station and the narrowband wireless base station. In a wireless communication system that communicates with a network via a broadband wireless base station,
The wireless communication terminal, when starting communication, has a physical layer, a data link layer, and a 3
Layer link is established, the bidirectional narrowband wireless channel with which the wireless link has been established requests a new uplink narrowband wireless channel and downlink wideband wireless channel connection, and the downlink wideband wireless channel is allocated. Then, by establishing links between the physical layer, the data link layer, and the third layer of the uplink narrowband radio channel and the downlink wideband radio channel, the wireless communication terminal and the server can be connected without using the downlink wideband radio channel. You can set up calls between them.

Further, the radio communication system of the present invention comprises a narrow band radio base station which provides narrow band radio channels having the same bandwidth in the upper and lower directions and a downlink wide band radio channel having a wider bandwidth than the narrow band radio channel. A broadband wireless base station to be provided is connected to a network so that they can communicate with each other, and a wireless communication terminal uses the bidirectional wireless channel and the downlink wideband wireless channel to perform the narrowband wireless base station and the broadband wireless base station. In a wireless communication system that communicates with a network via a wireless communication terminal, the wireless communication terminal, when terminating the communication, disconnects a three-layer link established by an upstream narrow band wireless channel and a downstream wide band wireless channel and then narrows both upper and lower sides. By disconnecting the third layer of the band wireless channel, the data link layer, and the physical layer, the downlink wideband wireless channel It allows cleavage of a call between the wireless communication terminal and the server without using the Le.

Further, the radio communication system of the present invention comprises a narrow band radio base station which provides a narrow band radio channel having the same bandwidth in the upper and lower directions and a downlink wide band radio channel having a wider bandwidth than the narrow band radio channel. A broadband wireless base station to be provided is connected to a network so that they can communicate with each other, and a wireless communication terminal uses the bidirectional wireless channel and the downlink wideband wireless channel to perform the narrowband wireless base station and the broadband wireless base station. In a wireless communication system that communicates with a network via a wireless communication terminal, the wireless communication terminal, when terminating communication, has a three-layer link established by an upstream narrowband wireless channel and a downstream wideband wireless channel, and an upper and lower bidirectional narrowband wireless communication. After disconnecting the three layers of the channel at the same time, the data link layer and physical layer of the upper and lower bidirectional narrow band wireless channels By cutting the link, it enables the cutting of a call between the wireless communication terminal and the server without using the downstream broadband radio channel.

Therefore, according to the wireless communication system of the present invention, the call setting and the call disconnection of the wireless communication terminal connected to the network can be efficiently performed through the narrow band wireless channel in the upper and lower directions and the downstream wide band wireless channel.
It is possible to reduce the power consumption of the receiver of the wideband wireless channel provided in the wireless communication terminal, and it is possible to downsize the wireless communication terminal.

The call control method of the present invention provides a narrow band wireless base station for providing a narrow band wireless channel in both up and down directions to a wireless communication terminal and a downlink wide band wireless channel having a wider bandwidth than the narrow band wireless channel. A broadband wireless base station and a server are connected to a network so that they can communicate with each other, and a wireless communication terminal that connects to the network via the bidirectional narrowband wireless channel and the downlink broadband wireless channel is the server and the bidirectional. In the call control method between the wireless communication terminal and the server in a communication system in which desired data is received from the server via the downlink wideband wireless channel by performing communication via a narrowband wireless channel, The communication terminal establishes a call with the narrowband wireless base station to perform bidirectional narrowband wireless communication. Channel is established and a call setup request is made to the server using the bidirectional narrow band radio channel, and in response to the request, the server calls the broadband radio base station for a call between the radio communication terminals. By assigning the downlink wideband wireless channel to the terminal and setting up a call between the wireless communication terminal and the server, the wireless communication terminal and the wireless communication terminal without using the downlink wideband wireless channel. Call setup with the server can be performed.

Further, the call control method of the present invention provides a narrow band wireless base station that provides a narrow band wireless channel in both directions up and down to a wireless communication terminal and a downlink wide band wireless channel having a wider bandwidth than the narrow band wireless channel. A broadband wireless base station and a server that are provided are connected to a network so that they can communicate with each other, and a wireless communication terminal that connects to the network through the bidirectional narrowband wireless channel and the downlink broadband wireless channel is the server and the In a call control method between the wireless communication terminal and the server in a communication system in which desired data is received from the server via the downlink wideband wireless channel by performing communication via a bidirectional narrowband wireless channel, The wireless communication terminal calls the server using the bidirectional narrowband wireless channel. A disconnection request is issued, and in response to this request, the server requests the broadband wireless base station to disconnect the call with the wireless communication terminal and releases the downlink broadband wireless channel assigned to the wireless communication terminal. And releasing the call between the wireless communication terminal and the server, and thereafter releasing the call between the wireless terminal and the narrowband wireless base station, disconnecting the data link, and releasing the wireless resource. Thus, the call between the wireless communication terminal and the server can be disconnected without using the downlink wideband wireless channel.

Further, the call control method of the present invention provides a narrow band wireless base station for providing a narrow band wireless channel in both up and down directions to a wireless communication terminal and a downlink wide band wireless channel having a wider bandwidth than the narrow band wireless channel. A broadband wireless base station and a server that are provided are connected to a network so that they can communicate with each other, and a wireless communication terminal that connects to the network through the bidirectional narrowband wireless channel and the downlink broadband wireless channel is the server and the In a call control method between the wireless communication terminal and the server in a communication system in which desired data is received from the server via the downlink wideband wireless channel by performing communication via a bidirectional narrowband wireless channel, The wireless communication terminal uses the bidirectional narrow band wireless channel to perform the narrow band wireless base station. Request to disconnect the call to the station, and in response to this, the narrowband wireless base station releases the call to the wireless communication terminal, requests the server to disconnect the call, and responds to this request. The server requests the broadband wireless base station to disconnect the call with the wireless communication terminal to release the downlink broadband wireless channel assigned to the wireless communication terminal, and the wireless communication terminal and the server. Between the wireless communication terminal and the narrowband wireless base station by disconnecting the data link and releasing the wireless resources, thereby releasing the call without using the downlink wideband wireless channel. A call can be disconnected between the wireless communication terminal and the server.

Therefore, according to the call control method of the present invention, the call setting and call disconnection of the wireless communication terminal connected to the network can be efficiently performed through the narrow band wireless channel in the upper and lower directions and the downstream wide band wireless channel. It is possible to reduce the power consumption of the receiver of the wideband wireless channel provided in the wireless communication terminal, and it is possible to downsize the wireless communication terminal.

[0025]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described with reference to the drawings.

FIG. 1 schematically shows the overall configuration of the wireless communication system according to this embodiment.

In FIG. 1, the network 1 includes a database 2, a narrow band wireless base station 3, and a wide band wireless base station 4.
Are connected so that they can communicate with each other. In the following description, the narrow band wireless base station and the wide band wireless base station may be collectively referred to as a wireless base station or simply a base station.

The narrow band wireless base station 3 is a narrow band wireless with a low wireless transmission speed (for example, several tens Kbps to several Mbps) in both directions, up and down with respect to a wireless communication terminal (hereinafter simply referred to as a terminal) 5. A channel is provided to control the connection of the terminal 5 to the network 1.

The broadband wireless base station 4 provides the terminal 5 with a broadband wireless channel at a high wireless transmission rate (for example, 10 Mbps) in the downlink direction (direction from the wireless base station to the terminal) to connect the terminal 5 to the network. The control to connect to 1 is performed.

The radio communication terminal 5 is a narrow band radio transmitter / receiver 2
3 and a wideband radio receiver 24, and using these,
The narrow band wireless base station 3 and the wide band wireless base station 4 are connected to the network via a wireless channel provided by the narrow band wireless base station 3 and the wide band wireless base station 4.

FIG. 2 shows the configuration of the terminal 5. In FIG. 2, the terminal 5 includes an antenna 21 and a narrowband wireless transceiver 2 for transmitting and receiving data to and from the narrowband wireless base station 3 via a bidirectional wireless channel.
3, an antenna 22 and a broadband wireless receiver 24 for receiving data from the broadband wireless base station 4 via a downlink wireless channel, and an operation unit 25 as a user interface for the user to operate to input various instructions. ,
Narrow band wireless transceiver 23 or wide band wireless receiver 24
The input / output unit 2 for outputting voice, image and data received by the user or inputting voice, image and data desired by the user.
8. Further, the control unit 26 is connected to the narrow band wireless transmitter / receiver 23, the wide band wireless receiver 24, the operation unit 25, and the input / output unit 28, and controls the overall operation. In general, the wideband wireless receiver 24 that receives a wideband wireless channel consumes more power than the narrowband wireless transceiver 23 that receives a narrowband wireless channel.

The database 2 is a narrow band radio base station 3,
It is a server that provides data to the terminal 5 in response to a request from the terminal 5 as a client connected to the network 1 by a wireless channel provided from the broadband wireless base station 4. When the terminal 5 makes a data transmission request to the database 2 via the narrow band wireless channel in the upstream direction (direction from the terminal to the wireless base station), the network 1,
The database 2 is adapted to perform data transmission to the terminal 5 via the network 1 and the downlink wideband radio channel.

Further, in order to support a predetermined communication protocol between the terminal 5 and the wireless base station, the terminal 5 and the wireless base station respectively have a layer 1 compliant with the OSI model.
~ The hierarchical structure of Layer 3 is applied. Here, for example, one that conforms to the hierarchical structure in PHS is applied. That is, the function of layer 1 (L1) guarantees the transmission of a bit string using a communication line made of a physical medium, and defines the used frequency, the transmission output, the modulation / demodulation method and the access method. The layer 2 (L2) function is higher than the layer 1 and realizes transparent and highly reliable data transmission between nodes using the bit string transmission function provided by the layer 1. The function of layer 3 uses the data transfer function provided by layer 2 to transfer data between end-to-end devices. Call control function (CC) at the time of making and receiving calls, radio management function (RT), connection change (MM) when moving between base stations, and management of each function of layer 1, layer 2, CC, RT, MM (LM) ) Etc.

As described above, the call setting and call disconnection control are executed by the layer 3 function. Generally, in the wireless part (between a wireless communication terminal and a wireless base station), in the case of call setup, a link from layer 1 to layer 2 needs to be established prior to that, while in the case of call disconnection, after call disconnection. , Layer 1
Need to release layer 2 from. In the communication system configured as shown in FIG. 1, the narrow band wireless base station 3, the database 2, and the wide band wireless base station 4 are the network 1
Can communicate with each other via. Therefore, the call setup and call disconnection control between the broadband wireless base station 4 and the terminal 5 can be performed using the resources (layer 1 to layer 2) of the network 1.

Next, with reference to FIG. 3, an outline of a call setting control method between the terminal 5 and the database 2 will be described. In the following description, the steps A1 to A8 are
Corresponding to the reference numerals in FIG.

(A1) When the terminal 5 receives a predetermined instruction input from the user through the user interface (U I / F), the terminal 5 makes a call setting request to the narrowband wireless base station 3 by random access. To send.

(A2) In response to this request, the narrow band wireless base station 3 allocates a vacant physical slot (wireless channel) to the terminal 5.

(A3) After that, a radio channel link is established through this assigned physical slot (layer 1 link establishment), and a control channel data link layer (layer 2) link is established. Call setup is done at layer 3. As a result, a bidirectional narrow band wireless channel is established between the narrow band wireless base station 3 and the terminal 5.

(A4) Next, a call is set up with the database 2 using the established bidirectional narrow band wireless channel.

First, the terminal 5 makes a call setup request with the database 2 through the previously established upstream narrow band wireless channel. The call setup request message reaches the database 2 via the network 1.

(A5) The database 2 transmits, via the network 1, a message for reserving (allocating) a band of a downlink wideband radio channel to the wideband radio base station 4 with the terminal 5.

(A6) In response to this, the broadband wireless base station 4 reserves the bandwidth of the broadband wireless channel and sends a reservation response message to the database 2 via the network 1.

(A7) Upon receipt of the reservation response message, the database 2 transmits the call setting response message to the terminal 5 via the network 1, the narrow band wireless base station 3, and the downlink narrow band wireless channel.

(A8) By the above procedure, data can be transmitted from the database 2 to the terminal 5 via the downlink wideband wireless channel from the broadband wireless base station 4 to the terminal 5.

Next, a more detailed call connection control method between the terminal 5 and the database 2 will be described with reference to FIGS.

Here, in the assumed communication system, the narrow band wireless base station in FIG. 1 constitutes a PHS, and by adding a downlink wide band wireless channel (for example, 10 Mbps) to this PHS, the network 1 Data such as desired texts and images can be downloaded at high speed from the database 2 above. In addition,
In the following description, the steps S1 to S8 will be described with reference to FIGS.
Corresponds to the sign of.

(S1) As shown in FIG. 4, the terminal 5
When there is a data download request from a user via a user interface (U I / F) such as a provided key input operation unit, first, a bidirectional narrow band wireless channel link is established.

That is, the terminal 5 transmits a link channel establishment request message to the narrowband wireless base station 3 by random access. At that time, the uplink control channel (SCCH) on the control physical slot is used. In response to this request, the narrowband wireless base station 3 allocates a vacant wireless channel (communication physical slot) to the terminal 5 and transmits a link channel allocation message notifying the result to the terminal 5. At that time, the downlink control channel (SCCH) on the control physical slot is used.

Next, the terminal 5 establishes a physical layer (layer 1) link in the assigned physical slot. Specifically, link establishment is confirmed by sending and receiving short bursts (synchronous bursts, idle bursts) using physical slots allocated between the wireless communication terminal 5 and the narrow band wireless base station.

As described above, a bidirectional narrowband wireless channel physical layer link is established between the narrowband wireless base station 3 and the terminal 5.

(S2) Next, as shown in FIG. 5, the data link of the control channel is established. That is, the terminal 5 sends the data link setting request message (SAB
ME) is transmitted to the narrowband wireless base station 3 in the physical slot previously assigned, and in response thereto, the narrowband wireless base station 3 transmits a data link setting confirmation response message (UA) to the terminal 5, The control channel data link has been established.

(S3) In Layer 3, call setup is performed between the narrow band radio base station 3 and the terminal 5. That is, the call setup message is transmitted from the terminal 5 to the narrowband radio base station 3, and in response thereto, the call setup acceptance response message is transmitted from the narrowband radio base station 3 to the terminal 5. Then, the narrowband wireless base station 3 makes an authentication request to the terminal 5. After that, when the data link layer of the control channel is disconnected to start communication in the same physical slot (DIS
C), the communication phase is entered. By the above procedure, a bidirectional narrow band wireless channel is established between the narrow band wireless base station 3 and the terminal 5.

(S4) Next, as shown in FIG. 6, a calling message is transmitted from the narrow band wireless base station 3 to the terminal 5, and in response thereto, a response message is sent from the terminal 5 to the narrow band wireless base station 3. Sent.

(S5) The terminal 5 sets up a call with the database 2 using the narrow band wireless channel set up previously. That is, the terminal 5 transmits a call setup message addressed to the database.

(S6) When the database 2 receives the call setup message via the narrow band wireless channel, the narrow band wireless base 3, and the network 1, the wide band downlink reservation is made to the wide band wireless base station 4 via the network 1. Send a message.

(S7) Receiving this, the broadband wireless base station 4 confirms the reservation of the band declared in the above message, and then transmits the reservation response message to the database 2 via the network 1.

(S8) Upon receipt of this reservation response message, the database 2 transmits a call setting response message to the terminal 5 via the network 1, the narrow band base station 3, and the downlink narrow band wireless channel.

A call is set up between the terminal 5 and the database 2 by the above procedure for sending and receiving messages,
This means that the downlink wideband wireless channel is assigned to the terminal 5.

When transmitting data on the reserved downlink wideband wireless channel, the broadband base station 4 first notifies the terminal 5 via the network 1, the narrowband base station 3, and the downlink narrowband wireless channel. Then, the terminal 5 turns on the provided broadband wireless receiver 24 at the timing of receiving the notification, and receives the data transmitted via the broadband wireless channel.

As described above, the narrow band wireless base station 3, the database 2 and the wide band wireless base station 4 are connected to the network 1 so that they can communicate with each other, and the bidirectional narrow band provided by the narrow band wireless base station 3 is provided. When the terminal 5 connected to the network 1 via the broadband wireless channel and the downlink broadband wireless channel provided by the broadband wireless base station 4 communicates with the database 2 via the bidirectional narrowband wireless channel, the downlink from the database 2 is obtained. According to the call setup control method between the terminal 5 and the database 2 in the communication system that receives desired data via the wideband wireless channel, the terminal 5 first makes a call with the narrowband wireless base station 3. Between the terminal 2 and the database 2 by setting and using the bidirectional narrow band wireless channel established thereby. A call setup request is made, and in response, the database 2 makes a call setup request between the broadband radio base station 4 and the terminal 5 to the broadband radio base station 4 to send a downlink broadband radio to the terminal 5. By assigning a channel and setting up a call between the terminal 5 and the database 2, a call setup between the terminal 5 and the database 2 can be performed without using the downlink wideband wireless channel.

Next, with reference to FIG. 7, an outline of a call disconnection control method set between the terminal 5 and the database 2 will be described. The procedure for disconnecting a call from the terminal 5 side will be described here. In the following explanation,
The procedure from B1 to B8 corresponds to the reference numeral in FIG. 7.

(B1) When the terminal 5 receives a predetermined instruction input from the user via the user interface (U I / F), the terminal 5 sends the data to the database 2 via the bidirectional narrow band wireless channel, the network 1. Send a call disconnect request message.

(B2, B3) The database 2 which has received the disconnection request message first releases the downlink wideband wireless channel reserved in the wideband wireless base station 4.

(B4) Thereafter, the database 2 releases the call with the terminal 5. As described above, the call between the terminal 5 and the database 2 and between the terminal 5 and the broadband wireless base station 4 is released by the function of the layer 3.

(B5) Next, the terminal 5 transmits a request message for disconnecting the call with the narrow band base station 3.

(B6) In response to this, the call to the narrow band wireless base station 3 is released, and then the terminal 5 sends the data link (L
Disconnection 1) and disconnection of the physical channel (release of wireless resources). That is, layers 1 to 3 between the terminal 5 and the narrowband wireless base station 3 are released.

Next, the call disconnection control method set between the terminal 5 and the database 2 will be described in more detail with reference to FIG. In the following description, S11
The procedures from S19 to S19 correspond to the reference numerals in FIG.

(S11) First, in order to disconnect the call to the database 2, the terminal 5 sends a disconnection message to the narrow band wireless channel, the narrow band wireless base station 3, and the network 1.
To send via.

(S12) The database 2 which has received it transmits to the broadband base station 4 a message for releasing the downlink broadband wireless channel reserved at the time of call setup.

(S13) Upon receiving the reservation cancellation message, the broadband base station 4 cancels the reserved downlink broadband radio channel and sends a cancellation response to the database 2.

(S14) The database 2 informs that the reservation of the downlink wideband radio channel has been released by transmitting a release message to the terminal 5 via the network 1, the narrowband base station 3, and the downlink narrowband radio channel. .

(S15) In response to this, the terminal 5 transmits a release completion message to the database 2 via the narrow band base station 3 and the network 1, and between the terminal 5 and the database 2, the terminal 5 and the broadband wireless base station. The call to the station 4 is released.

(S16) Next, the bidirectional narrow band wireless channel is disconnected. First, the terminal 5 transmits a disconnection message to the narrowband base station 3.

(S17) Upon receiving the disconnection message, the narrow band base station 3 transmits a release message to the terminal 5.

(S18) Next, the terminal 5 transmits a release completion message to the narrowband base station 3 and the call between the narrowband base station 3 and the terminal 5 is released.

(S19) When the call is released, the terminal 5 disconnects the layer 2 link (data link). That is, for example, Disconnect (DI) which is one of the control messages of a protocol called LAPDC.
SC) is transmitted. On the other hand, the narrowband base station 3 uses the Unnumbered Acknowledge which is one of the control messages of a protocol also called LAPDC.
A message (UA) is transmitted, the data link is disconnected, and finally radio resources are released, that is, layer 1 is released.

Another example of the call disconnection control method set between the terminal 5 and the database 2 will be described with reference to FIG. The procedure for disconnecting a call from the terminal 5 side will be described here. In the following description, the procedure of C1 to C4 corresponds to the reference numeral in FIG.

(C1) The terminal 5 requests the narrowband wireless base station 3 to disconnect the call using the bidirectional narrowband wireless channel.

(C2) The narrow band wireless base station 3 is the terminal 5
When the disconnect request is received from the terminal 5, the terminal 5 and the narrowband wireless base station 3
, The call between the terminal 5 and the database 2 is released.
At that time, first, a call disconnection request is transmitted to the database 2.

(C3) In response to this, the database 2
Releases the link of the broadband wireless channel reserved for the broadband wireless base station 4.

(C4) Thereafter, the call between the terminal 5 and the narrow band radio base station 3 and between the terminal 5 and the database 2 is released.

(C5) Then, the data link between the terminal 5 and the narrowband radio base station 3 is disconnected (layer 2 released), and finally the physical channel is disconnected (layer 1 released).

Next, with reference to FIG. 10, the call disconnection control method set between the terminal 5 and the database 2 shown in FIG. 9 will be described in more detail. In the following description, the steps S21 to S29 correspond to the reference numerals in FIG.

(S21) The terminal 5 transmits a disconnection message to the narrowband base station 3.

(S22) The narrowband base station 3 which has received the disconnection message transmits the disconnection message to the database 2.

On the other hand, the database 2 which has received the disconnection message from the narrow band wireless base station 4 sends the reservation release message to the wide band base station 4 to release the wide band downlink wireless channel reserved by the wide band base station 4. Send to.

(S24) Upon receiving the reservation cancellation message, the broadband base station 4 cancels the reserved band and sends a cancellation response message to the database 2.

(S25) When the database 2 confirms that the downlink wideband radio channel has been released by the release response message, the database 2 transmits a release message to the narrowband base station 3.

(S26) Upon receiving the release message from the database 2, the narrow band base station 3 transmits the release message to the terminal 5.

(S27) The terminal 5, which has received the release message, transmits a release completion message to the narrowband base station 3.

(S28) Further, the narrow band radio base station 3
Sends a release completion message to the database 2.

By the above procedure, the call between the terminal 5 and the narrow band radio base station 3 and between the terminal 5 and the database 2 was disconnected.

(S29) Next, the terminal 5 disconnects the data link with the narrow band wireless base station 3. That is, for example, Disconnect (DI) which is one of the command messages of the protocol called LAPDC.
SC) is transmitted. On the other hand, the narrowband base station 3 uses the Unnumbered Acknownow which is one of the command messages of a protocol also called LAPDC.
edge (UA), disconnects the data link, and finally releases radio resources, ie layer 1
Is released.

As described above, in the call disconnection control method shown in FIG. 9 and FIG. 10, when the call disconnection request message is transmitted from the terminal 5 to the narrowband wireless base station 3, the narrowband wireless base station that receives the call disconnection request message is received. Since the station 3 releases the call between the terminal 5 and the narrowband wireless base station 3 and between the terminal 5 and the database 2, it is faster than the call disconnection control method shown in FIGS. 7 and 8. In addition, call disconnection control processing becomes possible.

As described above, the narrow band wireless base station 3, the database 2 and the wide band wireless base station 4 are connected to the network 1 so that they can communicate with each other, and the bi-directional narrow band provided by the narrow band wireless base station 3 is provided. When the terminal 5 connected to the network 1 via the broadband wireless channel and the downlink broadband wireless channel provided by the broadband wireless base station 4 communicates with the database 2 via the bidirectional narrowband wireless channel, the downlink from the database 2 is obtained. According to the call disconnection control method between the terminal 5 and the database 2 in the communication system that receives desired data via the wideband wireless channel, the terminal 5 calls the database 2 using the bidirectional narrowband wireless channel. The disconnection request for disconnecting the call from the broadband wireless base station 4 to the terminal 5 is issued to the database 2 in response to the request. To release the downlink wideband wireless channel assigned to the terminal 5 and release the call between the terminal 5 and the database 2, and then the terminal 5 communicates with the narrowband wireless base station 3. By releasing the call and releasing the layer 2 and the layer 1, the call disconnection between the terminal 5 and the database 2 can be efficiently performed without using the downlink broadband wireless channel.

According to the other call disconnection control method,
The terminal 5 makes a call disconnection request to the narrow band wireless base station 3 using the bidirectional narrow band wireless channel, and in response to this, the narrow band wireless base station 3 connects the terminal 2 and the narrow band wireless base station. The call to the station 3 is released, the disconnection request is sent to the database 2, and in response to this, the database 2
Requests the wideband wireless base station 4 to disconnect the call between the terminal 2 and the wideband wireless base station 4, and releases the downlink wideband wireless channel assigned to the terminal 5.
Release the call between the terminal 2 and the database 2 and then
By releasing Layer 2 and Layer 1 from the narrowband wireless base station 3, the terminal 5 can efficiently disconnect the call between the terminal 5 and the database 2 without using the downlink wideband wireless channel. .

As described above, according to the wireless communication system of the above embodiment, call setup and call disconnection can be performed without using the downlink wideband wireless channel.
Only when it is necessary to transmit desired data from the database 2 via the broadband wireless base station 4 and the broadband wireless channel in response to the request from the database 2, that is, for example, from the database 2 to the narrowband wireless base station 3 and the downlink narrowband. When the terminal 5 is notified of the data transmission via the wireless channel, the terminal 5 may turn on the wideband wireless receiver 24, so that the power consumption can be reduced, thereby reducing the battery size and wireless communication. The size of the terminal 5 can be reduced.

[0098]

As described above, according to the wireless communication system of the present invention, the call setting and call of the wireless communication terminal connected to the network via the narrow band wireless channel in the up and down bidirectional direction and the downlink wide band wireless channel. The disconnection can be performed efficiently, the power consumption of the wideband radio channel receiver provided in the wireless communication terminal can be reduced, and the wireless communication terminal can be downsized.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing an overall configuration of a wireless communication system according to an embodiment of the present invention.

FIG. 2 is a diagram schematically showing a configuration of a wireless communication terminal.

FIG. 3 is a diagram for explaining an outline of a call setting control method between a wireless communication terminal and a database (server).

FIG. 4 is a diagram for explaining details of a call setting control method between a wireless communication terminal and a database (server).

FIG. 5 is a diagram for explaining details of a call setting control method between a wireless communication terminal and a database (server).

FIG. 6 is a diagram for explaining details of a call setting control method between a wireless communication terminal and a database (server).

FIG. 7 is a diagram for explaining an outline of a call disconnection control method between a wireless communication terminal and a database (server).

FIG. 8 is a diagram for explaining details of a call disconnection control method between a wireless communication terminal and a database (server).

FIG. 9 is a diagram for explaining the outline of another call disconnection control method between a wireless communication terminal and a database (server).

FIG. 10 is a diagram for explaining the details of another call disconnection control method between the wireless communication terminal and the database (server).

[Explanation of symbols]

1 ... Network, 2 ... Database (server), 3 ...
Narrow band wireless base station, 4 ... Wide band wireless base station, 5 ... Wireless communication terminal, 21, 22 ... Antenna, 23 ... Narrow band transceiver, 24 ... Wide band receiver, 25 ... Operation part, 26 ... Control part, 28 ... Input / output section.

Front page continuation (72) Inventor Nobuyasu Nakajima 1 Komukai Toshiba-cho, Saiwai-ku, Kawasaki-shi, Kanagawa Toshiba Research & Development Center Co., Ltd. (56) Reference JP-A-7-46248 (JP, A) JP-A 6-204954 (JP, A) JP 4-225650 (JP, A) JP 4-225649 (JP, A) JP 9-64937 (JP, A) International Publication 95/034153 (WO, A1) ) (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 H04Q ⁷ /00-7/38

Claims (7)

(57) [Claims] 1. A narrow band wireless base station providing a narrow band wireless channel, a wide band wireless base station providing a wide band wireless channel having a wider bandwidth than the narrow band wireless channel, and using the narrow band wireless channel, At least the wide band
First for setting up and disconnecting a call with a local radio base station
Setting request message and first disconnection request message
A wireless terminal that transmits the data and receives data transmitted using the wideband wireless channel for which the call is set , and a server device that causes the wireless terminal to download the data using the wideband wireless channel. The narrowband wireless base station, the wideband wireless base station, and the server device are connected to a predetermined network so that they can communicate with each other, the wireless terminal, the wireless terminal and the narrowband wireless base station. The narrowband wireless channel set up during the period of the first setting request message to the server device.
And the server device receives the first setting request message.
The wireless terminal to the broadband wireless base station.
And to set up the call between the broadband wireless base station and
The second setting request message, the broadband wireless base station sends the second setting request message.
Message is set up, the call is set up with the wireless terminal.
And, thereafter, the server device use the broadband radio channel
And download the data to the wireless terminal, and the terminal device is set between the broadband wireless base station and
The narrowband radio channel to disconnect the stored call.
The first disconnection request message to the server device
And the server device receives the first disconnection request message.
The wireless terminal to the broadband wireless base station.
A second disconnection for disconnecting said call set up between
Communication system characterized by transmitting request message
Mu. 2. A narrow band wireless base station providing a narrow band wireless channel, a wide band wireless base station providing a wide band wireless channel having a wider bandwidth than the narrow band wireless channel, and using the narrow band wireless channel, At least the wide band
First for setting up and disconnecting a call with a local radio base station
Setting request message and first disconnection request message
A wireless terminal that transmits the data and receives data transmitted using the wideband wireless channel for which the call is set , and a server device that causes the wireless terminal to download the data using the wideband wireless channel. The narrowband wireless base station, the wideband wireless base station, and the server device are connected to a predetermined network so that they can communicate with each other, the wireless terminal, the wireless terminal and the narrowband wireless base station. The narrowband wireless channel set up during the period of the first setting request message to the server device.
And the server device receives the first setting request message.
The wireless terminal to the broadband wireless base station.
And to set up the call between the broadband wireless base station and
The second setting request message, the broadband wireless base station sends the second setting request message.
Message is set up, the call is set up with the wireless terminal.
And, thereafter, the server device, the broadband radio channel
The data is downloaded to the wireless terminal using the terminal device, and the terminal device is set between the broadband wireless base station.
The narrowband radio channel to disconnect the stored call.
The first disconnection to the narrowband radio base station using
The request message is transmitted, and the narrowband radio base station transmits the first disconnection request message.
Second disconnection request to disconnect the call
A request message is transmitted to the server device, and the server device receives the second disconnection request message.
The wireless terminal to the broadband wireless base station.
A third disconnection for disconnecting the call set up between
A communication system characterized by transmitting a request message
Mu. 3. A narrow band wireless base station providing a narrow band wireless channel and a wide band wireless base station providing a wide band wireless channel having a wider bandwidth than the narrow band wireless channel are connected via a predetermined network. A wireless terminal that receives data provided from a server device using the wideband wireless channel, and sets up a call between the wideband wireless base station and the wireless terminal.
The first setting request message for
The second setting request message to be sent to
Transmission to the server device using the narrow band wireless channel
And a server device that has received the second setting request message.
And sends the first setting request message to the broadband wireless base station.
The call set up by sending to the
Transmitted from the server device using a broadband wireless channel
Receiving means for receiving the data, and a first means for disconnecting the call addressed to the broadband wireless base station.
1 disconnection request message is sent to the server device and the narrow band.
The first for transmitting to either one of the radio base stations
The disconnection request message 2 is sent to the server device and the narrow band.
The narrow band for either one of the
And a means for transmitting using a wireless channel . 4. A server device for downloading data to a wireless terminal, the server device comprising a narrow band wireless base station providing a narrow band wireless channel, and a wide band wireless channel having a wider bandwidth than the narrow band wireless channel. Is connected via a predetermined network to a broadband wireless base station that provides, and transmitted from the wireless terminal, the broadband wireless base station and
A first setting requirement for setting up a call with the wireless terminal.
To set up the call when receiving a solicitation message
A second setting request message is sent to the broadband wireless base station.
Means for sending said transmitted from the wireless terminal, for disconnecting the call
When the first disconnect request message is received, the call is disconnected.
A second disconnection request message for disconnecting the broadband
A means for transmitting to the line base station, and a server device. 5. A narrow band wireless base station for providing a narrow band wireless channel to a wireless terminal, wherein the narrow band wireless base station provides a wide band wireless channel having a wider bandwidth than the narrow band wireless channel. A base station and a server device that downloads data to the wireless terminal using the broadband wireless channel via a predetermined network, and the broadband wireless base station transmitted from the wireless terminal;
A first for disconnecting a call set up with the wireless terminal.
1 disconnection request message through the narrowband wireless channel.
And a means for receiving the first disconnection request message when the first disconnection request message is received.
Server for disconnecting the call to the broadband device
For sending a second disconnect request message addressed to the station
Send a third disconnection request message to the server device.
Narrowband radio base station, characterized by comprising means for signal, a. 6. The wideband radio channel is for transmitting the data.
Being a radio resource allocated for download
The communication system according to claim 1, wherein: 7. The wideband wireless channel is for transmitting the data.
The bandwidth allocated for the download
The communication system according to claim 1 or 2, which is characterized in that.