JP4035020B2 - Terminal equipment connection control system and connection control method in PHS network, PHS base station apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a terminal device connection control system in a PHS network, a terminal device connection control method in a PHS network, and a PHS base station apparatus in which a connection method between terminal devices and base stations constituting the PHS network system is improved. About.
[0002]
[Prior art]
Conventionally, a PHS mobile station (hereinafter referred to as a terminal device or PS), a PHS base station connected to the terminal device via PHS communication, and a center for connecting and managing the base station via a public network A PHS network system is provided. In this network, when a base station receives a call channel assignment request (link channel establishment request: SCCH) for a call from a terminal device, the base station assigns a call channel, and a link channel assignment ( SCCH) information was transmitted to the terminal device. In this transmission, the transmitted link channel assignment (SCCH) information can be transmitted only at a timing defined by a predetermined superframe configuration. That is, in the base station, a broadcast channel (BCCH), a general call channel (PCH), and a dedicated cell channel (SCCH) are periodically and repeatedly transmitted in a predetermined order. Such a logical control channel configuration is referred to as a superframe configuration. I'm calling. Accordingly, when connection control of a terminal device is performed using a logical control channel having such a superframe configuration, as shown in FIG. 5, a link channel establishment request (at a broadcast channel (BCCH) or general call channel (PCH) transmission timing) ( SCCH) is received and link channel assignment (SCCH) is to be transmitted, it is necessary to wait until the next SCCH can be transmitted, and a waiting time for link channel assignment (SCCH) transmission of about 100 ms × 8 at the maximum. Would occur.
[0003]
[Problems to be solved by the invention]
As described above, in the conventional PHS network system, a waiting time for connection by the superframe configuration occurs. For this reason, there is a problem that the response of the link channel assignment (SCCH) response of the base station is delayed with respect to the link channel establishment request (SCCH) from the terminal device.
[0004]
Accordingly, the present invention has been made in consideration of the above circumstances, and has been made possible to solve the above problems and shorten the transmission waiting time that occurs at the time of link channel assignment transmission, thereby speeding up the response response of the base station. It is an object to provide a terminal device connection control system in a network, a terminal device connection control method in a PHS network, and a PHS base station apparatus.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides means for transmitting a logical control channel (LCCH) at predetermined intervals according to a superframe structure, and means for storing that a link channel establishment request (SCCH) has been received from a terminal device; , A means for confirming whether a link channel establishment request has been received when transmitting BCCH / PCH / SCCH, and a channel for dedicated cell (stealing) instead of (stealing) such information at the timing of transmitting BCCH / PCH. SCCH) information, that is, means for transmitting link channel allocation information.
[0006]
According to such a configuration, even when a link channel establishment request (SCCH) is received at the BCCH / PCH transmission timing in the link channel allocation (SCCH) transmission at the time of connection, the BCCH transmitted at that timing is received. By stealing / PCH, link channel assignment (SCCH) can be transmitted immediately and there is no need to wait until the next SCCH transmission timing, thereby shortening the connection time.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0008]
FIG. 1 is a diagram schematically showing the overall configuration of the PHS network system of the present embodiment. This network system includes a PHS mobile station (terminal equipment: PS) 100, a base station 200 that is wirelessly connected to the PS 100, and a center 400 that is connected to the base station 200 via a public network 300 and manages and controls the base station 200. It is comprised from.
[0009]
Here, the PS 100 has a function as a PHS terminal device for performing PHS wireless communication, and the base station 200 has a function for performing PHS wireless communication with the PS 100 in a predetermined area and predetermined communication with the center 400. It is. When a link channel establishment request (SCCH) is received from PS 100, a communication channel is selected and link channel assignment (SCCH) is transmitted to PS 100.
[0010]
As shown in FIG. 2, the base station 200 controls the antenna 210 for performing wireless communication with the PS 100, the wireless unit 220 that is connected to the antenna 210 and controls communication with the PS 100, and controls the entire base station 200. A control unit 230 formed of a microcomputer or the like and a memory 240 for storing various control programs and various data referred to by the control unit 230 are provided. Thus, the control unit 230 includes an LCCH transmission control unit 232, an SCCH reception control unit 234, a confirmation unit 246, and an SCCH transmission control unit 248. The LCCH transmission control unit 232 performs logical control at 100 ms intervals according to the superframe configuration. It has a function of transmitting a channel (LCCH), and transmits the LCCH via the radio unit 220 and the antenna 210. Further, the SCCH reception control unit 234 has a function of storing a link channel establishment request (SCCH) from the PS 100 received via the antenna 210 and the radio unit 220 in the memory 240. Further, the confirmation unit 236 confirms whether or not a link channel establishment request (SCCH) has been received by referring to the memory 240 when BCCH (broadcast channel) / PCH (simultaneous call channel) / SCCH (link channel allocation) is transmitted. A function for confirming whether a link channel establishment request is received from the PS 100 with reference to the memory 240 when a logical control channel (LCCH) is transmitted via the antenna 210 and the radio unit 220. is there. Then, the SCCH transmission control unit 232 steals the BCCH / PCH at the timing of transmission and transmits the link channel assignment (SCCH), that is, when transmitting the SCCH through the radio unit 220 and the antenna 210. The confirmation unit 236 confirms the reception of the link channel establishment request and when the BCCH / PCH transmission timing is reached, steals the BCCH / PCH to be transmitted, and instead uses the link channel allocation (SCCH). It has the function to transmit. The logical control channel (LCCH) of the base station 200 is a radio signal transmitted from the base station 200 in a call waiting state from the PS 100, and is composed of a synchronization state, a synchronization signal, etc. for each channel. It is. Even in a standby state where there is no call, this channel information is always transmitted.
[0011]
FIG. 3 shows a superframe configuration that constitutes a logical control channel transmitted by the antenna 210 and the radio unit 220 at intervals of 100 ms. In the figure, what is shown on the left side is an existing super frame configuration, and what is shown on the right side is the super frame configuration in the present embodiment. According to this figure, for example, when the link channel establishment request (SCCH) is received at the timing A, the existing method transmits the link channel assignment (SCCH) at the timing B. However, in this embodiment, the link channel assignment can be transmitted at the timing b in response to the link channel establishment request (SCCH) received at the timing a. Thus, as shown in FIG. 3, the present embodiment has a superframe configuration indicating that SCCH transmission is possible at any timing.
[0012]
The operation and action of the above configuration will be described with reference to the flowchart shown in FIG.
[0013]
First, it is determined whether a link channel establishment request (SCCH) is currently received via the antenna 210 and the wireless unit 220 (step S402). If a link channel establishment request (SCCH) has been received (YES in step S402), the link 240 establishment request (SCCH) has been received and stored in the memory 240 (step S404). Then, the count is performed every 100 ms (step S406), and the LCCH transmission controller 232 transmits the LCCH. Thus, it is determined whether the timing of the LCCH to be transmitted is BCCH (step S408).
[0014]
Next, the confirmation unit 236 determines whether the link channel establishment request (SCCH) has been received (step S410). If the link channel establishment request (SCCH) has been received (YES in step S410), the BCCH is stolen (step S412). The SCCH transmission control unit 238 transmits link channel assignment (SCCH) (step S414). If the link channel establishment request (SCCH) has not been received (NO in step S410), BCCH transmission processing is performed as it is (step S416), and the process proceeds to step S402.
[0015]
If the LCCH timing transmitted in step S408 is not BCCH (NO in step S408), it is determined whether the LCCH timing is PCH (step S418). If it is the PCH transmission timing (YES in step S418), the confirmation unit 236 determines whether the link channel establishment request (SCCH) has been received (step S420). As a result of the determination, if the link channel establishment request (SCCH) has been received (YES in step S420), PCH steal processing is performed (step S422), and the SCCH transmission control unit 238 performs link channel allocation (SCCH) Transmission is performed (step S424).
[0016]
If it is determined in step S420 that the link channel establishment request (SCCH) has not been received (NO in step S420), the PCH transmission process is performed as it is (step S426), and the process proceeds to step S402. Become. If it is not the PCH transmission timing in the determination process in step S418 (NO in step S418), it is determined whether it is the SCCH transmission timing (step S428), and if it is the SCCH transmission timing (in step S428). YES), the process proceeds to step S424, and a link channel assignment (SCCH) is transmitted. If it is not the SCCH transmission timing (NO in step S428), the process proceeds to step S402.
[0017]
As described above, according to this embodiment, even when a link channel establishment request (SCCH) is received at the BCCH / PCH transmission timing in the link channel assignment (SCCH) transmission at the time of connection, transmission is performed at that timing. By stealing the BCCH / PCH, link channel assignment (SCCH) can be transmitted immediately. Therefore, it is not necessary to wait until the next SCCH transmission timing as in the prior art, and the connection time can be shortened.
[0018]
In addition, in the present embodiment, since the channel that appears earliest is replaced with SCCH and transmitted using other channels BCCH and PCH included in the superframe configuration, response response can be improved. . BCCH, PCH, and the like are synchronization signals and so on, and thus are not significantly affected even if one of them is replaced with another signal transmission.
[0019]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to shorten the transmission waiting time that occurs at the time of link channel assignment transmission, and to thereby accelerate the response response of the base station.
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing an overall configuration of a PHS network system according to an embodiment of the present invention.
FIG. 2 is a diagram showing a configuration of a base station according to the embodiment.
FIG. 3 is a view showing a super frame configuration according to the embodiment;
FIG. 4 is a flowchart showing a flow of operation / action processing according to the embodiment;
FIG. 5 is a diagram showing a conventional super frame configuration.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 ... PS (terminal device), 200 ... Base station, 220 ... Wireless unit, 230 ... Control part, 232 ... LCCH transmission control part, 234 ... SCCH reception control part, 236 ... Confirmation part, 240 ... Memory.

Claims (6)

A PHS network comprising a PHS terminal device that performs a PHS call, a PHS base station that communicates with the PHS terminal device located in the area, and a center that is connected to the PHS base station and manages and controls the PHS base station. In
The PHS base station
Transmission control means for transmitting logical control channel information that periodically repeats a broadcast channel, a paging channel and a dedicated cell channel in a predetermined order;
Receiving control means for receiving link channel establishment request information from the PHS terminal device and storing the information;
Confirmation means for confirming whether the reception control means has received the link channel establishment request information when transmitting the logical control channel information,
When the transmission control means confirms that the link channel establishment request information has been received, the dedicated cell channel is used instead of these information at the timing of transmitting the broadcast channel information or the general paging channel information. A terminal device connection control system in a PHS network, characterized by transmitting information. 2. The broadcast channel information or the paging channel information included in the logical control channel information is used to replace the earliest appearing channel information with the dedicated cell channel information. Terminal device connection control system in PHS network. A PHS network system comprising a PHS terminal device that performs a PHS call, a PHS base station that communicates with the PHS terminal device located in the area, and a center that is connected to the PHS base station and manages and controls the PHS base station In
The PHS base station
Transmit logical control channel information that periodically repeats broadcast channel, paging channel and dedicated cell channel in a predetermined order,
Receiving link channel establishment request information from the PHS terminal device and storing the information;
Confirming whether the reception control means has received the link channel establishment request information when transmitting the logical control channel information;
When confirming that the link channel establishment request information has been received, at the timing of transmitting the broadcast channel information or the simultaneous call channel information, the dedicated cell channel information may be transmitted instead of the information. A terminal device connection control method in a characteristic PHS network. 4. The broadcast channel information or simultaneous call channel information included in the logical control channel information is used to replace channel information that appears earliest with the channel information for dedicated cells. Terminal device connection control method in the PHS network. An apparatus provided in a PHS base station for connecting a PHS terminal device having a PHS call function located in an area,
This PHS base station
Transmission control means for transmitting logical control channel information that periodically repeats a broadcast channel, a paging channel and a dedicated cell channel in a predetermined order;
Receiving control means for receiving link channel establishment request information from the PHS terminal device and storing the information;
Confirmation means for confirming whether the reception control means has received the link channel establishment request information when transmitting the logical control channel information,
When the transmission control means confirms that the link channel establishment request information has been received, the dedicated cell channel is used instead of these information at the timing of transmitting the broadcast channel information or the general paging channel information. A PHS base station apparatus that transmits information. 6. The broadcast channel information or simultaneous call channel information included in the logical control channel information is used to replace channel information that appears earliest with the channel information for dedicated cells. PHS base station equipment.

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