JPH0654363A - Rising system for mobile communication system - Google Patents

Abstract

(57) [Summary] [Object] The present invention provides a start-up method of a mobile communication system capable of preventing control carriers transmitted from a plurality of line control devices from interfering with each other when the system is started up. With the goal. [Structure] Each of a plurality of line control devices cable-connected to an exchange is provided with a control carrier search means and a control carrier transmission control means, and at start-up, the control carrier search means transmits from another line control device. The control carrier transmission control means detects the idle transmission timing at which the control carrier is not retrieved, and the control carrier transmission control means detects the idle transmission timing at the time t of one frame when the line control device transmits / receives a transmission / reception signal in time division , After the time t × N multiplied by the number N of line control devices, the control carrier is transmitted at idle transmission timing and at a period of time t × N, so that the plurality of line control devices transmit control carriers at different transmission timings. To configure.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a start-up method for a TDMA-TDD type mobile communication system. TDMA-
The TDD system divides communication data into a plurality of slots in a time division manner, and assigns different frequencies to each slot to divide into a control slot and a communication slot, and a control carrier is transmitted in the control slot for communication. The communication is performed by transmitting a call signal in the slot.

[0002] In recent years, the demand for mobile communication using mobile phones and the like adopting such a system has rapidly increased, and the number of line control devices serving as base stations forming one communication system has also increased.

When the number of line control devices increases, the communication areas of the respective devices increase in number, so it is necessary to prevent the control carriers from interfering with each other when the mobile communication system is started up.

[0004]

2. Description of the Related Art In a mobile communication system, a control carrier is transmitted to a mobile wireless device such as a mobile phone from a plurality of line control devices cable-connected to a line switch when the mobile communication system is started up. When sending it,
The exchange notifies each line control device of the transmission timing of the control carrier so as not to interfere with the control carrier transmitted from another line control device.

[0005]

By the way, when notifying the transmission timing as described above, it is necessary for the exchange side to recognize the communication area of each line control device. This is easy when there are few line controllers connected to the exchange, but it becomes difficult as the line controllers increase.
The transmission timing of the control carrier cannot be set properly,
When the communication area of the line control device wraps, there is a problem that the control carrier causes interference at the wrap portion.

The present invention has been made in view of the above circumstances, and it is possible to prevent the control carriers transmitted from a plurality of line control devices from interfering with each other when the system is started up. The purpose is to provide a startup method.

[0007]

FIG. 1 shows a diagram for explaining the first principle of the present invention. In Figure 1, 1 is a switching system, 2 exchange a plurality of line controller 2 ₁ that is cabled to 1,
2 ₂ , ..., 2 _N.

A plurality of line control devices 2 ₁ , 2 ₂ , ..., 2 _N
Of each of the transmission and reception means 3 for transmitting and receiving a transmission and reception signal via the antenna and the control carrier transmitted from another line control device, which is input via the transmission and reception means 3, Control carrier search means 4 for detecting and outputting an empty transmission timing that is not searched
From the idle transmission timing output from the control carrier search means 4, the line control devices 2 ₁ , 2 ₂ cable-connected to the exchange 1 at the time t of one frame in which the line control device transmits / receives the transmission / reception signals in time division. , ..., 2 _N after the time t × N multiplied by the number N of control carriers, the control carrier transmission control means 5 for transmitting the control carrier via the transmission / reception means 3 at idle transmission timing and at a cycle of time t × N. It is configured.

Further, when the control carrier search means 4 searches for a control carrier transmitted from another line control device, it is carried out at time t intervals of one frame in which the line control device transmits / receives a transmission / reception signal in a time division manner. Preferably.

FIG. 2 shows a diagram for explaining the second principle of the present invention. FIG 2 is different from the configuration of FIG. 1, the exchange 1, a plurality of line controller 2 _1, 2 _2, ..., a sequence number transmitting unit 6 for delivering a sequence number to 2 _N is provided, the control carrier transmission control The means 4 is configured to search in the order of the sequence numbers transmitted from the sequence number transmitting means 6 when the control carrier transmitted from another line control device is searched.

[0011]

[Action] In FIG. 1 described above, the line control apparatus indicated by reference numeral 2 ₁ a first line controller, the line controller shown in two ₂ second line controller, ..., the line controller shown in 2 _N first N line controller.

The first to N-th line control devices 2 ₁ , 2 ₂ , ...
The respective control carriers output from 2 _{N are referred} to as first to Nth control carriers. In addition, the first to N-th line control devices 2 ₁ , 2
₂ , ..., 2 _N transmit and receive signals respectively transmitted and received via antennas, as shown in FIG.
One slot, ie "1"-"4" and "1 '"-
It is divided into "4 '".

Of these slots, "1" and "1 '"
Is a slot for transmitting and receiving control carriers. For example, it is assumed that the first line control device 2 ₁ first transmits the first control carrier at the timing T1 shown in FIG. 3 and at the cycle of time t × N [ms] when the system is started up.

In this case, if the control carrier search means 4 of the second line control device 2 ₂ searches at the timing T1, the first control carrier is searched, so that the time t [ ms], the search is performed at the next timing T2.

In this case, since the control carrier is not detected, the timing T2 becomes an idle transmission timing. That is, the idle transmission timing T2 is detected and output to the control carrier transmission control means 5.

The control carrier transmission control means 5 starts its own second control carrier at a cycle of time t × N [ms] from a timing T2 ′ which is time t × N [ms] away from the input idle transmission timing T2. It transmits via the transmitting / receiving means 3.

Similarly, the control carrier is transmitted from the N-th line control device 2 _N. For example, if the control carrier search means 4 of the N-th line control device 2 _N detects the idle transmission timing TN, the control carrier transmission control means 5
Is a timing TN ′ (not shown) which is time t × N [ms] away from the time when the idle transmission timing TN is detected.
Thus, the Nth control carrier of its own is transmitted via the transmitting / receiving means 3 at a cycle of time t × N [ms].

As described above, each line control device 2 ₁ , 2 ₂ ,
If the 2 _N transmits the control carrier when the system is started up, the control carrier can be transmitted at a timing different from the timing at which another line control device transmits the control carrier. It will not interfere with each other.

Further, according to the configuration of the second principle, the control carrier searching means 4 of each of the line control devices 2 ₁ , 2 ₂ , ..., 2 _N.
Is performed according to the sequence number sent from the sequence number sending means 6 of the exchange 1, so that, for example, the first and N-th line control devices 2 ₂ and 2 _N are transferred from the first line control device 2 _1. As a result of simultaneous reception of the transmitted first control carriers and the control carrier search means 4 searching at the same timing, the timing is an empty transmission timing, and the first and N-th line control devices 2 ₂ , 2 _N The control carrier is not transmitted at the same timing.

[0020]

As described above, according to the present invention,
When the mobile communication system is started up, the control carriers transmitted from the plurality of line control devices can be prevented from interfering with each other.

[Brief description of drawings]

FIG. 1 is a diagram illustrating the first principle of the present invention.

FIG. 2 is a second principle explanatory diagram of the present invention.

FIG. 3 is a diagram for explaining control carrier transmission timing.

[Explanation of symbols]

1 exchange 2 ₁ , 2 ₂ , ..., 2 _N line control device 4 control carrier search means 5 control carrier transmission control means 6 sequence number transmission means

Claims (3)

[Claims] 1. A plurality of line control devices (2 ₁ , 2 ₂ , ..., Cable-connected to a switch (1) at system startup.
2 _N ), in a start-up method of a mobile communication system in which control carriers are transmitted to a large number of mobile wireless devices at fixed time intervals, each of the plurality of line control devices (2 ₁ , 2 ₂ , ..., 2 _N ) In addition, by searching for a control carrier that is input via the transmitting / receiving means (3) for transmitting / receiving a transmission / reception signal and transmitted from another line control device, an empty transmission timing at which the control carrier is not detected is detected. From the control carrier search means (4) for outputting by transmitting and the idle transmission timing output from the control carrier search means (4), at the time t of one frame in which the line control device transmits / receives a transmission / reception signal in a time division manner, The number N of line controllers (2 ₁ , 2 ₂ ,…, 2 _N ) cable-connected to (1)
A control carrier transmission control means (5) for transmitting a control carrier through the transmission / reception means (3) at the idle transmission timing and at the time t × N period after the time t × N multiplied by At the start-up of the line control device (2 ₁ ,
2 ₂ , ..., 2 _N ) are set to transmit control carriers at different transmission timings, and a start-up method for a mobile communication system. 2. The control carrier search means (4) searches the control carrier transmitted from the other line control device at time t intervals of the one frame. The system for starting up a mobile communication system according to claim 1. 3. The exchange (1) is provided with a sequence number sending means (6) for sending a sequence number to the plurality of line control devices (2 ₁ , 2 ₂ , ..., 2 _N ), and the control carrier transmission is performed. The mobile communication system according to claim 1 or 2, characterized in that the control means (4) searches for control carriers transmitted from the other line control device in the order of the sequence numbers. Startup method.