JP3850842B2 - Wireless communication system - Google Patents

Description

  The present invention relates to a wireless communication system in which a mobile station device and a base station device communicate with each other wirelessly, and in particular, the intermittent reception operation performed by the mobile station device is stopped to shorten, for example, the time required for call connection. Regarding technology.

For example, the Multi Channel Access (MCA) radio system for airports, which has an important mission of ensuring the safety of aircraft in the airport area and the comfort of users, is the Radio Industry Association (ARIB). Is standardized as an airport digital mobile communication system (ARIB STD T-87).
This standard is characterized by a short call connection time.
With reference to FIG. 4, an example of the flow of processing up to the call connection defined in this standard is shown.
In the call connection method of this example, two mobile station apparatuses 1 and 2, two base station apparatuses 1 and 2, and one line control apparatus will be described as an example.

(1) The mobile station apparatuses 1 and 2 in the standby state perform an intermittent reception operation in order to realize a long-time operation by battery operation.
(2) The mobile station apparatus 1 that performed the transmission operation stops the intermittent reception operation.
(3) Then, the mobile station apparatus 1 transmits a connection request to the base station apparatus 1.
(4) The base station apparatus 1 transmits a connection request to the line control apparatus.
(5) The line control device determines the received connection request. In this determination process, it is determined whether the caller number is normal, whether the callee number is normal, and in which base station device the callee is registered.
(6) Then, the line control device transmits a connection response and a radio channel designation to the base station device 1 that is the transmission source, and the mobile station device that is the call destination (in this example, the mobile station device 2) A connection response and a radio channel designation are transmitted to the base station device (in this example, the base station device 2) that has registered the location.
(7) These base station apparatuses 1 and 2 transmit a connection response and radio channel designation to the mobile station apparatuses 1 and 2, respectively.
(8) Then, each of these base station apparatuses 1 and 2 activates a communication channel.
(9) The mobile station apparatuses 1 and 2 that have received the connection response and the radio channel designation stop the intermittent reception operation when the intermittent reception operation is being performed (in the case of the mobile station apparatus 2 in this example).
(10) Then, these mobile station apparatuses 1 and 2 activate the communication channel.
(11) Thereby, the call connection is completed, and a call state is established between the mobile station apparatuses 1 and 2 via the base station apparatuses 1 and 2 and the line control apparatus.

JP 2003-284131 A ARIB STD-T87 "Airport Digital Mobile Communication System", Japan Radio Industry Association

However, in the call connection method as shown in FIG. 4, for example, the base station devices 1 and 2 transmit connection responses and radio channel designations to the mobile station devices 1 and 2 through a paging channel (PCH). Therefore, when the mobile station device 2 as the call destination is intermittently receiving, the mobile station device 2 sends the connection response and radio channel designation received from the line control device from the base station device 2 through the simultaneous call channel (PCH). It is necessary to wait for a long time (for example, up to 280 msec) before it can be transmitted to. For this reason, the mobile station apparatus 2 that is the call destination can receive the connection response and the radio channel designation (the determination processing time in the line control apparatus + the simultaneous call channel (PCH) transmission waiting time in the base station apparatus 2). (For example, a maximum of 280 msec)). For example, when a call connection within 1 sec is targeted, such a simultaneous call channel (PCH) transmission waiting time (for example, 280 msec at the maximum) becomes a very large value.
The present invention has been made in view of such a conventional situation, and in a configuration in which a mobile station device and a base station device communicate wirelessly, the intermittent reception operation performed by the mobile station device is stopped, for example, It is an object of the present invention to provide a wireless communication system or the like that can shorten the time required for call connection.

In order to achieve the above object, in the wireless communication system according to the present invention, the following processing is performed in a configuration in which a mobile station apparatus and a base station apparatus communicate with each other wirelessly.
That is, in the mobile station apparatus, the intermittent reception operation executing means executes the intermittent reception operation in the standby state. A connection request signal wireless transmission unit wirelessly transmits a connection request signal with another mobile station device as a call destination to the base station device. The intermittent reception stop signal receiving means receives the intermittent reception stop signal transmitted wirelessly from the base station apparatus. In response to the intermittent reception stop signal receiving means receiving the intermittent reception stop signal, the continuous reception operation executing means stops the intermittent reception operation by the intermittent reception operation executing means and executes the continuous reception operation. The call destination connection response signal receiving means receives a connection response signal for the call destination wirelessly transmitted from the base station apparatus. The call execution means executes a call with another mobile station apparatus that is a transmission source in response to reception of the connection response signal by the call destination connection response signal reception means.
In the base station apparatus, the connection request signal receiving means receives a connection request signal transmitted by radio from the mobile station apparatus. When the call connection processing means wirelessly transmits an intermittent reception stop signal to the mobile station apparatus after receiving the connection request signal by the connection request signal receiving means, and then accommodates the mobile station apparatus to be called In this case, a connection response signal for the call destination is wirelessly transmitted to the mobile station apparatus that is the call destination.

  Therefore, when there is a connection request, the intermittent reception operation performed by the mobile station device can be stopped, and for example, the time required until the call connection can be shortened. Specifically, for example, when a connection request with a mobile station device serving as a call destination is generated from a mobile station device serving as a transmission source, an intermittent reception stop signal is wirelessly transmitted from the base station device. Switching the reception operation state of the other mobile station device from the intermittent reception operation state to the continuous reception operation state, thereby promptly notifying the connection response signal for the call destination from the base station device to the other mobile station device. Thus, a call between the certain mobile station apparatus and the other mobile station apparatus can be quickly established.

Here, as a standby state of the mobile station apparatus, for example, a general standby state is used, and as an example, a state where transmission or reception for a call is not performed is used.
In addition, as the intermittent reception operation of the mobile station apparatus, various modes of operation may be used. For example, an operation of performing reception processing at a predetermined cycle is used.
Also, as the continuous reception operation of the mobile station apparatus, various modes of operation may be used. For example, an operation that always performs reception processing (continuously in time) is used.
Further, the continuous reception operation executing means of the mobile station device, for example, stops the intermittent reception operation for a predetermined period in response to reception of the intermittent reception stop signal, executes the continuous reception operation, and then again The intermittent reception operation is executed by the intermittent reception operation execution means.
Further, the call connection processing means of the base station apparatus wirelessly transmits a connection response signal for the call destination to the mobile station apparatus serving as the call destination when the mobile station apparatus serving as the call destination is accommodated. Even when the mobile station apparatus as the call destination is not accommodated, a mode in which a connection response signal for the call destination is wirelessly transmitted may be used.
In addition, when the base station device accommodates the mobile station device, for example, the mobile station device exists in the communicable area (service area) of the base station device, or the mobile station device identification information is received by the base station device. A case is used in which one or more conditions are satisfied, such as being managed and the location of the mobile station device being registered by the base station device.

The radio communication system according to the present invention includes a line control apparatus that communicates with a base station apparatus, and performs the following processing.
That is, in the base station apparatus, the connection request signal transmitting means transmits a connection request signal to the line control apparatus in response to reception of the connection request signal by the connection request signal receiving means. The intermittent reception stop signal receiving means receives the intermittent reception stop signal transmitted from the line control device. The call destination connection response signal receiving means receives a connection response signal for the call destination transmitted from the line control device. The call connection processing means wirelessly transmits the intermittent reception stop signal to the mobile station apparatus in response to the reception of the intermittent reception stop signal by the intermittent reception stop signal reception means, and then receives the call destination connection response signal. In response to receiving the connection response signal for the call destination by the means, the connection response signal for the call destination is wirelessly transmitted to the mobile station apparatus.
In the line control device, the connection request signal receiving means receives the connection request signal transmitted from the base station device. In response to the connection request signal received by the connection request signal receiving means, the call connection processing means transmits an intermittent reception stop signal to the base station apparatus, and executes a determination process related to the received connection request signal, Based on the execution result of the determination process, a connection response signal for the call destination is transmitted to the base station apparatus.

Therefore, in the line control device, the intermittent reception operation of the mobile station device is stopped and switched to the continuous reception operation, and the determination process related to the connection request signal is executed. Therefore, the processing time can be improved. For example, the time required for call connection can be shortened.
Here, between the base station apparatus and the line control apparatus, for example, communication may be performed by wire or may be performed by radio.
Various processes may be used as the determination process related to the connection request signal executed by the line control device. For example, the process for determining the number information of the source mobile station apparatus in the connection request, the connection request The process of determining the number information of the mobile station apparatus that is the call destination in FIG.
Various timings may be used as the timing for transmitting the intermittent reception stop signal by the call connection processing means of the line control device and the timing for starting the execution of the determination process related to the connection request. For example, the intermittent reception stop signal At the same time or almost at the same time as the transmission of the signal, the timing for starting the execution of the determination process after transmitting the intermittent reception stop signal, or the intermittent reception stop immediately after the execution of the determination process is started Signal transmission timing can be used.

Also, various signals may be used as the connection request signal transmitted from the mobile station apparatus to the base station apparatus and the connection request signal transmitted from the base station apparatus to the line control apparatus. The same signal may be used as the connection request signal, or different signals may be used.
Various signals may be used as the intermittent reception stop signal transmitted from the line control device to the base station device and the intermittent reception stop signal transmitted from the base station device to the mobile station device, for example, The same signal may be used as these intermittent reception stop signals, or different signals may be used.
Also, various signals may be used as the connection response signal transmitted from the line control device to the base station device and the connection response signal transmitted from the base station device to the mobile station device, for example, The same signal may be used as the connection response signal, or different signals may be used.
Further, for example, a radio channel designation signal for designating a radio channel to be used for a call may be transmitted together with the connection response signal.

The radio communication system according to the present invention has the following configuration.
That is, wireless communication between a base station apparatus and a mobile station apparatus is performed using a frame of a general call channel (PCH) for calling the mobile station apparatus from the base station apparatus and other frames.
The intermittent reception operation executing means of the mobile station apparatus that is executing the intermittent reception operation receives only the frame of the general call channel (PCH).
The call connection processing means of the base station apparatus wirelessly transmits an intermittent reception stop signal to the mobile station apparatus that is performing the intermittent reception operation using a frame of the simultaneous call channel (PCH).
The call connection processing means of the base station apparatus wirelessly transmits a connection response signal to the call destination using a frame other than the frame of the simultaneous call channel (PCH) to the mobile station apparatus whose execution of the intermittent reception operation is stopped.

Therefore, by stopping the intermittent reception operation of the mobile station apparatus that is executing the intermittent reception operation for receiving only the frame of the general call channel (PCH) and executing the continuous reception operation, it is possible to perform the operation other than the frame of the general call channel (PCH). It is possible to notify the connection response signal for the call destination from the base station apparatus to the mobile station apparatus using the frame, and thereby, for example, it is possible to shorten the time required until the call connection.
Here, in the wireless communication between the base station apparatus and the mobile station apparatus, frames of various channels may be used. For example, in addition to the broadcast channel (PCH) frame, the broadcast channel (BCCH) A frame, a dedicated zone signaling channel (SCCH) frame, or the like can be used.
Various frames may be used as a frame used to transmit a connection response signal from the base station apparatus to the mobile station apparatus whose execution of the intermittent reception operation has been stopped. For example, a general call channel (PCH) As a frame other than the above, a dedicated channel signaling channel (SCCH) frame or the like can be used. For example, when the timing is good, a paging channel (PCH) frame may be used. A frame having a good timing among the frame of the paging channel (PCH) and the frame of another predetermined channel is used.

The radio communication system according to the present invention has the following configuration.
That is, the image capturing unit captures an image of a predetermined area. The intermittent reception operation stop region specifying unit specifies a region in which the execution of the intermittent reception operation by the mobile station apparatus that is executing the intermittent reception operation is stopped based on the image pickup by the image pickup unit. The intermittent reception operation stop control means controls to stop the execution of the intermittent reception operation by the mobile station apparatus executing the intermittent reception operation only for the mobile station apparatus existing in the area specified by the intermittent reception operation stop area specifying means. To do.
Therefore, the intermittent reception operation by the mobile station apparatus is stopped only for the area specified based on the image capturing and switched to the continuous reception operation. Thus, for example, only the necessary area is connected to the call connection. Can be shortened.

Here, the image capturing unit can be configured using, for example, one or a plurality of cameras.
In addition, one or a plurality of various regions may be used as a region for capturing an image by the image capturing unit.
In addition, as an image captured by the image capturing unit, for example, a moving image may be used, or a still image may be used.
In addition, the intermittent reception operation stop area specifying unit may be, for example, an image captured by the image capturing unit, a processing result such as output or analysis of the image, or various operations performed by a person viewing the image (for example, a monitor). Alternatively, one or a plurality of regions are specified based on one or more such as an imaging mode such as an operation when an image is captured by the image capturing unit.
Further, the intermittent reception operation stop area specifying unit specifies, for example, a communicable area (service area) of one or a plurality of base station apparatuses as an area.
In addition, the intermittent reception operation stop control means, for example, controls so that the intermittent reception stop signal is wirelessly transmitted from only one or a plurality of limited base station devices, thereby enabling communication of these base station devices ( The execution of the intermittent reception operation is stopped only for the mobile station apparatus that is executing the intermittent reception operation in the service area.
Further, as the image capturing means, the intermittent reception operation stop area specifying means, and the intermittent reception operation stop control means, each may be provided in various places, for example, the image capturing means is provided in the base station apparatus, It is possible to provide the intermittent reception operation stop region specifying means and the intermittent reception operation stop control means in the base station apparatus and the line control apparatus, or these means may be provided in other apparatuses. As an example, each of the plurality of cameras constituting the image capturing means is provided in each of the plurality of base station apparatuses, and the base station apparatus in which the intermittent reception operation stop area specifying means first specifies the camera and then the camera is provided. It is also possible to use a mode in which a communicable area (service area) is specified as an area.

In the mobile station apparatus calling method in the wireless communication system according to the present invention, the mobile station apparatus that is executing the intermittent reception operation is called from the base station apparatus side as follows.
That is, after the intermittent reception operation by the mobile station device performing the intermittent reception operation is stopped by the intermittent reception stop signal transmitted wirelessly from the base station device side, the execution of the intermittent reception operation is stopped from the base station device side. A call signal (call signal) is transmitted to the mobile station apparatus that is the call destination, and the mobile station apparatus is called.
Accordingly, when the mobile station apparatus is called, the intermittent reception operation performed by the mobile station apparatus can be stopped, and for example, the time required for the call can be shortened. Specifically, for example, when the mobile station apparatus is called, the base station apparatus transmits an intermittent reception stop signal to change the reception operation state of the mobile station apparatus that is the call destination from the intermittent reception operation state. By switching to the continuous reception operation state, it becomes possible to quickly call a mobile station device as a call destination from the base station device side.
Here, various signals may be used as a call signal, for example, a connection response signal for a call destination.

  As described above, according to the wireless communication system and the like according to the present invention, in a configuration in which a mobile station device and a base station device communicate wirelessly, the mobile station device performs an intermittent reception operation in a standby state and calls Executes intermittent reception operation in response to reception of an intermittent reception stop signal transmitted wirelessly from the base station apparatus by wirelessly transmitting a connection request signal with the other mobile station apparatus to the base station apparatus To perform a continuous reception operation, and in response to receiving a connection response signal for a call destination wirelessly transmitted from the base station device, to perform a call with another mobile station device that is a transmission source, In the base station device, after receiving the connection request signal transmitted wirelessly from the mobile station device, the base station device wirelessly transmits an intermittent reception stop signal to the mobile station device, and then calls the connection response signal for the call destination. For example, when there is a connection request, the intermittent reception operation performed by the mobile station device is stopped when the connection request is made, and, for example, the time required for the call connection can be shortened. it can.

Embodiments according to the present invention will be described with reference to the drawings.
FIG. 1 shows a configuration example of an airport digital mobile communication system according to the present embodiment to which the present invention is applied.
The airport digital mobile communication system according to the present embodiment includes a portable wireless terminal device 1, an in-vehicle wireless terminal device 2, a plurality of base station devices (radio devices) 11 and 12, an interface device 13, and the like. A line control device 14, a wired terminal connection device 15, a plurality of wired terminal devices 21 and 22, a dynamic regrouping terminal device 23, an operation management device 24, and a monitoring camera device 31.
Here, the base station apparatuses 11 and 12 are connected to the interface apparatus 13. The interface device 13, the line control device 14, and the wired terminal connection device 15 are connected to each other. The plurality of wired terminal devices 21 and 22 are connected to the wired terminal connection device 15, and the dynamic regrouping terminal device 23, the operation management device 24, and the monitoring camera device 31 are connected to the line control device 14.
The configuration of the system is not limited to this example, and various types may be used. For example, the number of wireless terminal devices 1 and 2 and the number of base station devices 11 and 12 may be various numbers. May be used.

An example of schematic operation | movement performed in the airport digital mobile communication system which concerns on a present Example is shown.
Each base station apparatus 11, 12 manages the wireless terminal apparatuses 1, 2 existing in its own communicable area (service area) and communicates with the wireless terminal apparatuses 1, 2 by radio.
Each base station device 11, 12 communicates with the line control device 14 and the wired terminal connection device 15 via the interface device 13.
Each of the wired terminal devices 21 and 22 communicates with the line control device 14 and the like via the wired terminal connection device 15.
The dynamic regrouping terminal device 23 performs dynamic regrouping processing.
The operation management device 24 performs various management in the operation of the system.
The monitoring camera device 31 captures an image of a predetermined location and transmits the captured image to the operation management device 24 or the like.

In the airport digital mobile communication system according to the present embodiment, for example, all airport workers such as aircraft pilots, other crew members, aircraft maintenance personnel, and office workers are wireless terminal devices (for example, wireless All vehicles, such as automobiles, that have terminal devices 1) and are used in airport operations are equipped with wireless terminal devices (for example, wireless terminal device 2). And, for example, it is possible to make a call with a wireless terminal device between arbitrary workers such as between an administrator existing in the management center and an external worker.
In the airport digital mobile communication system according to the present embodiment, for example, an arbitrary grouping of aircraft pilots, other crew members, aircraft maintenance personnel, and office workers is performed. Then, an arbitrary group can be designated and broadcasted simultaneously from all higher-level devices to all wireless terminal devices belonging to the predetermined group, or from ordinary terminal devices to all wireless terminal devices belonging to the predetermined group. Can be delivered simultaneously.
Further, in the airport digital mobile communication system according to the present embodiment, there are respective wireless terminal devices 1 and 2 using, for example, a global positioning system (GPS) or a sector configuration of a base station device. It is possible to specify the location (position).

With reference to FIGS. 2A, 2B, and 2C, an example of the intermittent reception operation performed by the wireless terminal devices 1 and 2 that are mobile station devices is shown.
FIG. 2A shows a configuration example of a frame of a control channel transmitted wirelessly from the base station apparatuses 11 and 12, and FIG. 2B shows a mobile station that has stopped the intermittent reception operation. An example of the reception state in the devices 1 and 2 is shown, and FIG. 2C shows an example of the reception state in the mobile station devices 1 and 2 performing the intermittent reception operation.
As shown in FIG. 2 (a), in the control channel transmitted from the base station apparatuses 11 and 12, the superframe period (720 msec = 40 msec × 18) is based on a frame of 18 msec. Data is sent.
The superframe is composed of four broadcast channel (BCCH) frames, two paging channel (PCH) frames, and seven dedicated signaling channels for individual zones (SCCH). ) Frame, two simultaneous call channel (PCH) frames, and three dedicated zone signaling channel (SCCH) frames.

Here, the broadcast channel (BCCH) is a unidirectional channel for transmitting (transferring) information on the channel structure, information on the system, and the like from the base station apparatuses 11 and 12 to the mobile station apparatuses 1 and 2.
The general call channel (PCH) is a one-way channel for transmitting (transferring) general call information from the base station apparatuses 11 and 12 to the mobile station apparatuses 1 and 2.
The dedicated zone signaling channel (SCCH) is a bidirectional channel for the base station apparatuses 11 and 12 and the mobile station apparatuses 1 and 2 to transmit (transfer) information to each other.
As shown in FIG. 2 (b), the mobile station apparatuses 1 and 2 that have stopped the intermittent reception operation are always in a reception state of reception on (ON), and all superframes (that is, all frames). Receive.
In addition, call signals from the base station apparatuses 11 and 12 are transmitted (transferred) through the general call channel (PCH).
As shown in FIG. 2 (c), the mobile station apparatuses 1 and 2 in the intermittent reception operation receive on ((the time width is 80 msec = 40 msec × 2), respectively) when the paging channel (PCH) frame is received. ON), and at other timing (each time width is 280 msec = 40 msec × 7), the reception is turned off (OFF), and only the frame of the general call channel (PCH) is received. Thus, in the mobile station apparatuses 1 and 2 during the intermittent reception operation, the reception operation is limited only to the paging channel (PCH), and the reception operation of 80 msec / reception operation stop of 280 msec is repeatedly performed. Increase battery operation time.

A first embodiment of the present invention will be described.
With reference to FIG. 3, an example of the flow of processing up to call connection performed in the airport digital mobile communication system of this example is shown.
In the call connection method of this example, two mobile station apparatuses 1 and 2, two base station apparatuses 1 and 2, and one line control apparatus will be described as an example. In this example, for example, the two wireless terminal devices 1 and 2 shown in FIG. 1 correspond to the two mobile station devices 1 and 2 shown in FIG. 3, and the two base station devices (radio devices) shown in FIG. ) 11 and 12 correspond to the two base station apparatuses 1 and 2 shown in FIG. 3, and one line control apparatus 14 shown in FIG. 1 corresponds to one line control apparatus shown in FIG.

(1) The mobile station apparatuses 1 and 2 in the standby state perform an intermittent reception operation.
(2) The mobile station apparatus 1 that performed the transmission operation stops the intermittent reception operation. In this example, the mobile station device 1 is a transmission source and the mobile station device 2 is a call destination.
(3) Then, the mobile station apparatus 1 wirelessly transmits a connection request to the base station apparatus 1 in which the own apparatus 1 is accommodated in the communicable area (service area) and the location is registered.
(4) The base station apparatus 1 transmits a connection request to the line control apparatus in response to receiving the connection request from the mobile station apparatus 1.
(5) The line control apparatus that has received the connection request first transmits an intermittent reception stop signal to all the base station apparatuses 1 and 2 to be managed.
(6) Next, the line control apparatus determines the received connection request. In this determination processing, for example, it is determined whether or not the caller number is normal, whether or not the callee number is normal, and in which base station apparatus the callee is registered.
(7) Further, the base station apparatuses 1 and 2 that have received the intermittent reception stop signal from the line control apparatus respectively transmit the intermittent reception stop signal to all the mobile station apparatuses 1 and 2 that are registered and managed. Is transmitted wirelessly.

(8) The mobile station apparatuses 1 and 2 that have received the intermittent reception stop signal stop the intermittent reception operation when performing the intermittent reception operation (in the case of the mobile station apparatus 2 in this example). Thus, all frames are received for a certain time.
Here, various times may be used as the time for the mobile station apparatus 2 that stops intermittent reception by the intermittent reception stop signal to receive all the frames. In addition, it is preferable to use a standard time value required for reliably transmitting the radio channel designation.
Further, in this example, since the intermittent reception operation as shown in FIGS. 2A, 2B, and 2C is performed, an intermittent reception stop signal is transmitted from the base station apparatus 2 to the mobile station apparatus 2. At the time of transmission, it takes a maximum time of 280 msec until the mobile station apparatus 2 performing the intermittent reception operation receives the intermittent reception stop signal. At this time, the line control apparatus performs a determination process. . For this reason, in this example, compared with the processing procedure as shown in FIG. 4, for example, (time for determination processing in the line control device) and (waiting for transmission of the general call channel (PCH) in the base station device 2) Time), and the efficiency is improved.

(9) Upon completion of the determination process, the line control apparatus transmits a connection response and radio channel designation to the base station apparatus 1 that is the source of the connection request, and the mobile station apparatus 2 that is the call destination registers the location. A connection response and radio channel designation are transmitted to the base station apparatus (in this example, the base station apparatus 2).
(10) Receiving the connection response and the radio channel designation, the base station apparatuses 1 and 2 respectively connect the connection response and the radio channel designation to the call source mobile station apparatus 1 and the call destination mobile station apparatus 2. Send.
(11) Then, these base station apparatuses 1 and 2 activate the communication channel.
At this time, in this example, since the mobile station apparatuses 1 and 2 have stopped the intermittent reception operation, the connection response and the radio channel designation from the base station apparatuses 1 and 2 to the mobile station apparatuses 1 and 2 (PCH) can be used for transmission, for example, it is also possible to transmit using a dedicated zone signaling channel (SCCH), and there is no need to wait for the timing of the general call channel (PCH). .
(12) Further, the mobile station apparatuses 1 and 2 that have received the connection response and the radio channel designation from the base station apparatuses 1 and 2 activate the communication channel.
(13) As a result, the call connection is completed, and a call state is established between the mobile station apparatuses 1 and 2 via the base station apparatuses 1 and 2 and the line control apparatus.

As described above, in the intra-airport digital mobile communication system of the present example, for example, multi-channel access (MCA) including at least one base station device 11, 12 and a plurality of mobile station devices (wireless terminal devices) 1, 2. ) In a configuration in which the radio system is applied to a local radio system at an airport, each of the plurality of mobile station apparatuses 1 and 2 normally performs an intermittent reception operation in the intermittent reception mode, and the intermittent reception mode is received from the base station apparatuses 11 and 12. When the signal for stopping the transmission (intermittent reception stop signal) is distributed all at once, each of the mobile station apparatuses 1 and 2 receiving the intermittent reception stop signal stops the intermittent reception mode for a predetermined period of time. Always receive operation.
Further, in the airport digital mobile communication system of this example, in the normal intermittent reception mode, transmission from the base station apparatuses 11 and 12 is performed by the simultaneous call channel (PCH), and the base station apparatuses 11 and 12 are intermittent. When a signal for stopping the reception mode (intermittent reception stop signal) is broadcast all at once, communication between any mobile station apparatuses 1 and 2 is established within a predetermined time period, for example, by the dedicated channel for the individual zone (SCCH). It becomes possible to do.

Thus, in the paging method in the airport digital mobile communication system of this example, the base station apparatuses 11 and 12 transmit signals (intermittent reception stop signal) for stopping the intermittent reception operation of the mobile station apparatuses 1 and 2 to the base station. Intermittent reception of the mobile station apparatuses 1 and 12 from the station apparatuses 11 and 12 is stopped, and the mobile station apparatuses 1 and 2 that have stopped the intermittent reception operation are also notified of call information (in a frame other than the general call channel (PCH)). A call signal is transmitted to connect the call.
Specifically, when receiving a connection request, the line control device 14 performs determination processing after transmitting an intermittent reception stop signal to all the base station devices 11 and 12. Then, the base station apparatuses 11 and 12 wirelessly transmit an intermittent reception stop signal to all the mobile station apparatuses 1 and 2 using a general call channel (PCH), and then call information is transmitted in all frames for a predetermined time. Wireless transmission. Further, the mobile station apparatuses 1 and 2 that have received the intermittent reception stop signal immediately stop the intermittent reception operation, stop the intermittent reception operation for a predetermined time, and receive all frames. This shortens the call connection time.

Therefore, in the airport digital mobile communication system of this example, before the line control device 14 performs the determination process, the mobile station devices 1 and 2 transmit intermittent reception stop signals to all the mobile station devices 1 and 2. 2 is stopped, and then the connection response and the wireless channel designation are transmitted, whereby the call connection time can be shortened. Thereby, when calling the mobile station apparatuses 1 and 2 in the intermittent reception operation from the base station apparatuses 11 and 12, the call connection time can be shortened by improving the calling method. For example, the call connection time Can be set to about several hundred msec.
Here, since airports are particularly urgent for safety, it is effective to shorten the call connection time.
In this example, the airport is described as an example, but the system like this example may be applied to a place where an unspecified number of people gather, such as an amusement park or a sightseeing spot. Is possible.

In the mobile station apparatuses (wireless terminal apparatuses) 1 and 2 of the airport digital mobile communication system, which is the wireless communication system of this example, the function of the intermittent reception operation execution means, the function of the connection request signal wireless transmission means, the intermittent It has a function of a reception stop signal receiving means, a function of a continuous reception operation executing means, a function of a call destination connection response signal receiving means, and a function of a call executing means.
In the base station apparatuses 11 and 12 of the airport digital mobile communication system which is the wireless communication system of this example, the function of the connection request signal receiving means, the function of the call connection processing means, the function of the connection request signal transmitting means, The function of the intermittent reception stop signal receiving means and the function of the call destination connection response signal receiving means are provided.
Further, the line control device 14 of the airport digital mobile communication system, which is the wireless communication system of this example, has a function of a connection request signal receiving means and a function of a call connection processing means.

A second embodiment of the present invention will be described.
In the airport digital mobile communication system of this example, for example, in a call connection system as shown in FIG. 3, an intermittent reception stop signal is sent from the base station apparatuses 11 and 12 to the mobile station apparatuses (wireless terminal apparatuses) 1 and 2. When stopping the intermittent reception operation of the mobile station device 2 that is transmitting and performing the intermittent reception operation (the processes (5), (7), and (8) in FIG. 3), A region (area) where the intermittent reception operation of the mobile station apparatuses 1 and 2 is stopped is limited based on the image capturing mode and the like.
Specifically, the surveillance camera device 31 has a plurality of cameras, each camera is installed at various locations in the airport, and images of the respective locations are captured by the respective cameras. The image data captured by each camera is transmitted to, for example, the operation management device 24 via the line control device 14 and displayed on a screen (monitoring monitor) provided in the operation management device 24 or the like. . The monitor can know the state of various places where the camera is installed by looking at the image displayed on the screen.

For example, as shown in FIG. 3, when there is a transmission operation by a certain mobile station apparatus and a connection request arrives from the base station apparatus to the line control apparatus 14, the line control apparatus 14 A base station that transmits an intermittent reception stop signal to all or a specific part of base station apparatuses 11 and 12 based on an image captured by a camera, an imaging mode, and the like, and receives the intermittent reception stop signal All or a specific part of the devices 11 and 12 wirelessly transmit an intermittent reception stop signal to the mobile station devices 1 and 2.
In this case, the line control device 14 or the operation management device 24 has a region in which the intermittent reception operation of the mobile station devices 1 and 2 is stopped based on the image captured by the camera of the monitoring camera device 31 and the imaging mode. In particular, the intermittent reception stop signal is transmitted only to the mobile station apparatuses 1 and 2 existing in the specified area. As a method for realizing this, for example, a method of transmitting an intermittent reception stop signal only to a base station device corresponding to an area specified from the line control device 14 or an intermittent operation from the line control device 14 to all base station devices. When transmitting the reception stop signal, the base station device specified by the information includes the information specifying the base station device corresponding to the area specified in the intermittent reception stop signal. A technique for wirelessly transmitting to the devices 1 and 2 can be used.

In addition, a specific example will be given regarding what area is specified as an area for stopping the intermittent reception operation of the mobile station apparatuses 1 and 2.
In this example, the surveillance camera device 31 has a configuration having a plurality of cameras, but a configuration having only one camera may be used, for example.
As an example, an area currently captured by a predetermined camera or an area in the vicinity of the area is specified (limited) as an area where the intermittent reception operation of the mobile station apparatuses 1 and 2 is stopped.
As another example, the intermittent reception operation of the mobile station apparatuses 1 and 2 is stopped for the area currently being imaged by a predetermined camera or the communicable area (service area) of the base station apparatuses 11 and 12 existing in the vicinity of the area. It is specified (limited) as an area to be performed.
Here, as the predetermined camera, for example, when there is only one camera, the camera is used, and when there are a plurality of cameras, one or more preset cameras, One or more cameras capturing an image displayed on the monitor screen, an operation by a monitor watching the monitor screen, an automatic object detection result, or the like. Close-up operation based on one or more cameras whose imaging angle has been changed (for example, the head is shaken), an operation by a monitor watching the monitor screen, or an automatic object detection result One or two or more cameras can be used.
Further, the area for stopping the intermittent reception operation of the mobile station apparatuses 1 and 2 is not limited to this example, and various areas may be used. For example, time required for call connection when urgency is required It is preferable to use a region where it is desired to shorten the length.

As described above, in the airport digital mobile communication system of the present example, when the intermittent reception operation of the mobile station devices 1 and 2 that are performing the intermittent reception operation is stopped, the captured image, the image capturing mode, and the like by the monitoring camera device 31 Based on the above, the region where the intermittent reception operation of the mobile station apparatuses 1 and 2 is stopped is limited.
Accordingly, in the airport digital mobile communication system of this example, the monitoring camera device 31 is used to stop the intermittent reception operation of the mobile station devices 1 and 2 existing in the region only for the region expected to be particularly necessary. Accordingly, the call connection time can be shortened in the area, and for example, it is possible to quickly cope with safety and urgency.
Note that the surveillance camera device 31 of the airport digital mobile communication system, which is the wireless communication system of this example, has a function of an image capturing means.
Further, for example, the line control device 14 of the airport digital mobile communication system, which is the wireless communication system of this example, has a function of an intermittent reception operation stop region specifying means and a function of an intermittent reception operation stop control means.

Here, the configuration of the wireless communication system, the mobile station device, the base station device, the line control device, and the like according to the present invention is not necessarily limited to the above-described configuration, and various configurations may be used. The present invention can also be provided as, for example, a method or method for executing the processing according to the present invention, a program for realizing such a method or method, or a recording medium for recording the program. It is also possible to provide various devices and systems.
The application field of the present invention is not necessarily limited to the above-described fields, and the present invention can be applied to various fields.
Further, as various processes performed in the wireless communication system, mobile station apparatus, base station apparatus, line control apparatus, etc. according to the present invention, for example, in a hardware resource including a processor, a memory, etc., the processor is a ROM (Read Only Memory). A configuration controlled by executing a control program stored in () may be used, and for example, each functional means for executing the processing may be configured as an independent hardware circuit.
Further, the present invention can be grasped as a computer-readable recording medium such as a floppy (registered trademark) disk or a CD (Compact Disc) -ROM storing the control program, or the program (itself). The processing according to the present invention can be performed by inputting the program from the recording medium to the computer and causing the processor to execute the program.

It is a figure which shows the structural example of the digital mobile communication system in an airport which concerns on the Example of this invention. (A) is a figure which shows the structural example of the flame | frame of the control channel transmitted from a base station apparatus, (b) is a figure which shows an example of the receiving state at the time of intermittent reception operation | movement stop, (c) is an intermittent reception It is a figure which shows an example of the receiving state at the time of operation | movement. It is a figure which shows an example of the flow of a process until the telephone call connection in the airport digital mobile communication system which concerns on the Example of this invention. It is a figure which shows an example of the flow of a process until the telephone call connection in an airport digital mobile communication system.

Explanation of symbols

1, 2... Wireless terminal device 11, 12 Base station device 13 Interface device 14 Line control device 15 Wired terminal connection device 21 22 Wired terminal device 23・ Dynamic regrouping terminal equipment, 24 ・ ・ Operation management equipment, 31 ・ ・ Monitoring camera equipment,

Claims (2)

A wireless communication system in which a mobile station device and a base station device communicate wirelessly,
The mobile station device has intermittent reception operation execution means for performing intermittent reception operation in a standby state;
A connection request signal wireless transmission means for wirelessly transmitting a connection request signal with another mobile station device to be called to the base station device;
Intermittent reception stop signal receiving means for receiving an intermittent reception stop signal wirelessly transmitted from the base station device;
In response to receiving the intermittent reception stop signal by the intermittent reception stop signal receiving means, the continuous reception operation executing means for stopping the execution of the intermittent reception operation by the intermittent reception operation executing means and executing the continuous reception operation;
A call destination connection response signal receiving means for receiving a connection response signal for a call destination wirelessly transmitted from the base station device;
Call execution means for executing a call with another mobile station device as a transmission source in response to reception of the connection response signal by the call destination connection response signal reception means,
The base station device has a connection request signal receiving means for receiving a connection request signal wirelessly transmitted from the mobile station device;
After the connection request signal is received by the connection request signal receiving means, an intermittent reception stop signal is wirelessly transmitted to the mobile station apparatus. After that, if the mobile station apparatus to be called is accommodated, connection to the call destination A call connection processing means for wirelessly transmitting a response signal to a mobile station device as a call destination ,
The wireless communication system includes an image capturing unit that captures an image of a predetermined area;
Intermittent reception operation stop region specification for specifying the region for stopping the execution of the intermittent reception operation by the mobile station apparatus that is executing the intermittent reception operation based on the region captured by the image pickup means whose imaging direction or imaging angle has been changed Means,
Intermittent reception operation stop control means for controlling to stop the execution of the intermittent reception operation by the mobile station apparatus that is executing the intermittent reception operation only for the mobile station device existing in the area specified by the intermittent reception operation stop area specifying means; With
A wireless communication system.   A wireless communication system in which a mobile station device and a base station device communicate wirelessly,
  The mobile station device has intermittent reception operation execution means for performing intermittent reception operation in a standby state;
  A connection request signal wireless transmission means for wirelessly transmitting a connection request signal with another mobile station device to be called to the base station device;
  Intermittent reception stop signal receiving means for receiving an intermittent reception stop signal wirelessly transmitted from the base station device;
  In response to receiving the intermittent reception stop signal by the intermittent reception stop signal reception means, the continuous reception operation execution means for stopping the execution of the intermittent reception operation by the intermittent reception operation execution means and executing the continuous reception operation;
  A call destination connection response signal receiving means for receiving a connection response signal for a call destination wirelessly transmitted from the base station device;
  In response to receiving the connection response signal by the call destination connection response signal receiving means, a call execution means for executing a call with another mobile station device that is a transmission source,
  The base station device has a connection request signal receiving means for receiving a connection request signal wirelessly transmitted from the mobile station device;
  After the connection request signal is received by the connection request signal receiving means, an intermittent reception stop signal is wirelessly transmitted to the mobile station apparatus, and then the connection to the call destination is made when the mobile station apparatus to be called is accommodated. A call connection processing means for wirelessly transmitting a response signal to a mobile station device as a call destination,
  The wireless communication system includes an image capturing unit that captures an image of a predetermined area;
  An intermittent reception operation stop region specifying means for specifying a region for stopping the execution of the intermittent reception operation by the mobile station apparatus performing the intermittent reception operation based on the region imaged by the image pickup means that has been operated for close-up;
  Intermittent reception operation stop control means for controlling the mobile station apparatus that is executing the intermittent reception operation to stop execution of the intermittent reception operation only for the mobile station apparatus existing in the area specified by the intermittent reception operation stop area specifying means; With
  A wireless communication system.

Images