JPH05336020A - Radio communication system - Google Patents

Abstract

PURPOSE:To shorten the time till polling reply is finished by all mobile stations in response to a polling from a base station. CONSTITUTION:When a receiver 3 receives a polling request from the base station (not shown) via an antenna 4, the CPU 11 of a control section 1 of all mobile stations constituting the system sets the transmission frequency of a transmitter 2 to a synthesizer 6 immediately. Thus, when the CPU 11 of each mobile station comes to the order of polling reply from its own station, after the transmitter 2 is started and data read from a memory 12 are sent to the transmitter 2 via a MODEM 7. The CPU 11 has only to send the data and the polling reply time of the mobile station is shortened by a time for setting a transmission frequency and the base station collects the data from all the mobile stations in a short time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication system in which a base station and a plurality of mobile stations are connected by a wireless communication path, and more particularly to a transmission operation system of the mobile stations.

[0002]

2. Description of the Related Art Conventionally, in this type of wireless communication system, there is a system called AVM in taxi wireless communication. The base station of such a system collects data such as position information of each mobile station by a polling response from each mobile station obtained by issuing a polling request to each mobile station. Therefore, each mobile station is provided with a slot for transmitting polling response data. By the way, this slot includes a transmission frequency setting lock waiting time by the synthesizer (sometimes referred to simply as transmission frequency setting time) and a delay time at the time of transmission start-up (sometimes referred to as transmission start-up time). However, as shown below, it cannot be said that the transmission method is very time-efficient.

FIG. 3 is a diagram showing a polling response procedure of the mobile station in response to the polling request from the conventional base station. First, as indicated by S in the figure, the base station transmits a polling request (the solid line portion in the figure) to each of the mobile stations M-1 to M-3. This polling request is issued to each mobile station M-1 to M-3.
, The mobile station M-1 first starts the polling response operation at time 0. In this response transmission,
The transmission frequency setting time a for the synthesizer, the transmission rising time b, and the data transmission time c such as position information are required, and the polling response of the mobile station M-1 ends at time t. Next, the mobile station M-2 starts the polling response operation at time t. This response transmission also requires the synthesizer set time a, the transmission start time b, and the data transmission time c such as position information, and the polling response of the mobile station M-2 ends at time 2t. Finally, the mobile station M-3 starts the polling response operation at time 2t. This response transmission also requires a synthesizer set time a, a transmission start time b, and a data transmission time c such as position information, and the polling response of the mobile station M-3 ends at time 3t. Therefore, it takes a long time from the time 0 to the time 3t until all the mobile stations M-1 to M-3 finish the polling response transmission.

As described above, when it takes a long time to complete the polling response of each mobile station in response to the polling request from the base station, in the AVM system or the like, the base station causes each vehicle (each mobile station to It is troublesome to collect the data from (corresponding), and it becomes difficult to grasp the quick position of each vehicle and quickly dispatch the vehicle.

[0005]

As described above, in the conventional wireless communication system, when each mobile station responds to the polling request from the base station by polling, the frequency of transmission by the synthesizer is transmitted before the transmission of the target data. Since there is a set lock waiting time and a delay time at the start of transmission, it takes a long time to complete the transmission operation from the start to the end of the polling response operation, and the mobile station sequentially responds to the polling request by polling. If there are a large number of cells, it takes a long time for all the mobile stations to make a polling response, and it takes too much time for the base station to grasp the information, which delays the subsequent processing.

Therefore, the present invention eliminates the above-mentioned drawbacks and provides a wireless communication system capable of shortening the time until all mobile stations finish the polling response to the polling response from the base station. The purpose is to

[0007]

According to the present invention, when a base station sends a polling request, a plurality of mobile stations that receive the polling request sequentially send polling response data to the base station. The mobile station has a configuration in which each mobile station is provided with setting means for immediately setting the transmission frequency of its own station upon reception.

[0008]

In the wireless communication system of the present invention, the setting means of each mobile station performs the operation of setting the transmission frequency of its own station immediately after receiving the polling request. As a result, the mobile station having the second or subsequent data transmission order only performs the operation of transmitting the target data after the transmitter is activated when the transmission order comes. Therefore, the second and subsequent mobile stations can shorten the polling response transmission time by the time for setting the transmission frequency.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a mobile station of a wireless communication system of the present invention. Reference numeral 1 denotes a control unit that controls communication of the mobile station, and includes a CPU 11, a memory 12, and a timer 13. Reference numeral 2 is a transmitter that transmits data provided from the control unit 1 at a set frequency, 3 is a receiver that receives a high-frequency signal input from an antenna 4, 4 is an antenna that transmits and receives radio waves, and 5 is an antenna A switching unit for switching 4 to the transmitter 2 side or the receiver 3 side, 6 is the transmitter 2
Is a synthesizer for generating a reference signal for setting the transmission frequency of, and 7 is a modem for changing and demodulating data.

Next, the operation of this embodiment will be described. When a polling request is transmitted from the base station, each mobile station having the configuration shown in FIG. 1 makes a polling response in the procedure shown in FIG. When a polling request is transmitted from the base station S shown in FIG. 2 (the solid line portion in the figure), each mobile station M-1 to M-1.
M-3 receives the polling requests all at once. Here, the reception and response operation of the mobile station M-1 will be described with reference to FIG. The polling request radio wave input from the antenna 4 is input to and received by the receiver 3 via the switching unit 5, and the received data is sent to the modem 7. The modem 7 demodulates the received data that is input and outputs this to the CPU of the control unit 1.
Output to 11. As a result, the CPU 11 starts the polling response operation at time 0 in FIG. 2, and first sets the transmission frequency for the polling response in the synthesizer 6. As a result, the synthesizer 6 supplies the transmitter 2 with a reference signal having a frequency such that the transmission wave of the set frequency is output from the transmitter 2. This transmission frequency setting requires a transmission frequency setting time a on the slot assigned to the mobile station M-1 shown in FIG. Next, the CPU 11 activates the transmitter 2. From this activation, the transmission start-up time b is required on the slot in FIG. 2 until the transmitter 2 rises and becomes ready for transmission. When the transmitter 2 is started up, the CPU 11 looks at the data transmission waiting time set in the memory 12 and goes into a waiting state for the time set in the memory 12. When the mobile station is M-1, the waiting time set in the memory 12 is 0, so C
When the transmitter 2 starts up, the PU 11 immediately reads out the data stored in another area of the memory 12 and outputs it to the modem 7. The modem modulates the input data and outputs it to the transmitter 2. The transmitter 2 puts the modulated data input from the modem 7 on the radio wave of the set frequency and sends it by sending it from the switching unit 5 to the antenna 4. This data transmission operation takes time c on the slot assigned to the mobile station M-1 in FIG.
After that, the polling response operation of the mobile station M-1 ends at time t ₁ .

By the way, the operation from receiving the polling request from the base station S to setting the transmission frequency in the synthesizer 6 is the same in the mobile stations M-2 and M-3 as in the mobile station M-1. Same as the case. Therefore, FIG.
As shown in FIG. 5, even in the mobile stations M-2 and M-3, when the transmission frequency setting time a elapses from time 0, the transmission frequency setting for each transmitter 2 ends. Here, the mobile station M
In the case of -2, when the setting of the transmission frequency is completed, the CPU 11 looks at the waiting time set in the memory 12 and finds that the time is W1 hour. Therefore, the CPU 11 waits for W1 time based on the time information from the timer 13 and then activates the transmitter 2 at time t _{1, and} before the transmitter 2 starts up, the mobile station M- of FIG.
It takes time b on the slot assigned to 2. CPU
When the transmitter 2 starts up, the device 11 reads the data from the memory 12 and sends the data to the modem 7 to start the operation of transmitting from the transmitter 2. The mobile station M-2 also takes c time for this transmission operation as in the above-described mobile station M-1, and eventually the polling response transmission of the mobile station M-2 ends at time t ₂ . The same applies to the mobile station M-3. In this case, after setting the transmission frequency to the synthesizer 6 and waiting for W2 hours, the CPU 11 starts the transmitter ₂ at time t ₂ . Therefore, the mobile station M-3 becomes a time t ₃ is to end the transmission polling response, hence all the poll response transmission of the mobile station M-1 to M-3 ends at this time t _3.

According to this embodiment, when the polling request is received from the base station S, all the mobile stations M-1 to M-3 simultaneously perform the operation of setting the transmission frequency of each mobile station.
It is sufficient for the mobile stations M-2 and M-3 whose data transmission order is the second or later to start from the activation of the transmitter 2 when the transmission order comes. Therefore, the transmission ends after starting the data transmission operation. It is possible to shorten the time required until the transmission frequency setting time “a” as compared with the conventional method, and thus the time for all the mobile stations M-1 to M-3 to finish the polling response can also be shortened. Therefore, at base stations such as taxi radios,
Data of all vehicles and the like can be collected in a shorter time than in the past, and quick dispatch can be made possible. In particular, in this example, the larger the number of mobile stations, the more remarkable the above effect.

[0013]

As described above, according to the wireless communication system of the present invention, in response to the polling response from the base station,
The time required for all mobile stations to finish the polling response can be shortened, and the base station can collect data from all mobile stations in a short time and quickly perform corresponding processing.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a mobile station of a wireless communication system of the present invention.

FIG. 2 is a diagram showing a polling response operation procedure of a plurality of mobile stations shown in FIG.

FIG. 3 is a diagram showing a polling response operation procedure of a plurality of mobile stations in a conventional wireless communication system.

[Explanation of symbols]

 1 ... Control unit 2 ... Transmitter 3 ... Receiver 4 ... Antenna 5 ... Switching unit 6 ... Synthesizer 7 ... Modem 11 ... CPU 12 ... Memory 13 ... Timer

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Shigemitsu Sugimoto 21-3-1, Asahigaoka, Hino-shi, Tokyo 21 Toshiba Communication Technology Co., Ltd.

Claims (1)

[Claims] 1. When the base station sends a polling request,
In the wireless communication system in which a plurality of mobile stations receiving this sequentially transmit polling response data to the base station,
A radio communication system, wherein each mobile station is provided with setting means for performing an operation of setting the transmission frequency of the local station immediately upon receiving the polling request.