JPH02219329A - Control channel comprising method mobile radio communication - Google Patents

Abstract

PURPOSE:To improve the use efficiency of a channel in mobile communication by searching a control channel with the lowest reception level out of all control channels by a base station, and setting a searched control channel as the control channel of its own station. CONSTITUTION:When the control channel of the base station 7 receives the interference of another base station, an antenna 18 receives the control channel of another base station, and inputs it to a control channel receiver 14 via an antenna shared apparatus 17. The receiver 14 receives all the control channels, and measures the reception levels of the channels, and accumulates their results in a controller 10 for frequency division multiple connection transiently. And the control channel with the lowest reception level out of all the control channels is selected. The controller 10 switches the frequency of a control channel transmitter 11 to that of a selected control channel, and switches the reception frequency of the receiver 14 to that of the control channel.

Description

Detailed Description of the Invention [Objective of the Invention] (Industrial Application Field) The present invention is directed to a control system in mobile communication that allows a base station to reliably and easily select a control channel to be used in mobile communication such as a cordless telephone. The present invention relates to a channel configuration method.

(Prior Art) Base stations for car telephones and the like, which are a type of mobile communication, are generally installed uniformly in one area within a service area. In contrast, cordless telephones are often installed by users based on their own convenience, and their installation locations are generally non-uniform. Furthermore, since cordless telephones do not communicate with each other, it is not possible to predetermine the frequencies used by individual cordless telephones in relation to their surroundings so as not to interfere with each other. Even if this is decided in advance, when a new cordless phone is installed, it is necessary to change the operating frequency of all cordless phones in the affected area.
This is because such a thing is impossible.

Conventional methods are used as a control channel configuration suitable for such cordless telephones. That is, one of several dozen channels allocated for cordless telephones is defined as a control channel, and call/receive control for all cordless telephones is performed via this one control channel. The connection device corresponding to the base station device of each cordless telephone does not always send out control channel radio waves, but only when necessary.
It is now possible for multiple cordless telephones, ie, multiple connected devices, to share a single control channel.

(Problem to be solved by the invention) However, in the past, there was only one control channel, so when cordless telephones, that is, connection devices are installed in high density, the control channel radio waves sent by each connection device will interfere with each other and become uncontrollable. A possible solution to this problem is to divide a plurality of cordless telephones into groups and allocate individual control channels to each group. However, due to the nature of cordless telephones, it is impossible to have equal numbers of cordless telephones in each group in a particular area. That is, with this method, there is a problem that a certain group of cordless telephones is concentrated too much in a certain area, making it difficult to control incoming and outgoing calls and making the use of control channels inefficient.

Therefore, when a plurality of control channels are used, the present invention eliminates the inefficiency of control channels caused by dividing them into groups and using each control channel independently as in the prior art, and improves the efficiency of their use. The purpose of the present invention is to provide a method for configuring control channels in mobile communications.

[Structure of the Invention] (Means for Solving the Problems) In order to solve the above problems, the present invention provides a system that uses a plurality of base station frequencies or time slots within the base station transmission band as control channel frequencies or time slots between a plurality of base stations. A control channel configuration method in mobile communication using frequencies or multiple time slots, wherein the base station searches for a control channel with the lowest reception level from among all the control channels, and uses the searched control channel for its own station. The purpose is to use it as a control channel.

(Operation) In the above configuration, a plurality of control channels are allocated to the mobile communication system, and each base station sequentially switches all control channels, monitors and receives the control channels being transmitted by other base stations, and Find a control channel with a received level and use it as a control channel.

Further, while using the control channel determined in this way, interference conditions may change if a new base station is installed in the surrounding area. Therefore, there is a possibility that the control channel being used is no longer the channel with the minimum interference level in the above sense. In such a case, the base station sequentially switches all control channels again during the time including the time when control channel transmission is stopped, monitors and receives the control channels being transmitted by other base stations, and selects the lowest reception level. Find the control channel for If this channel is different from the previously used control channel, the newly found control channel with the lowest interference level is used.

In this way, in the present invention, for example, in a mobile communication system such as a cordless telephone system that does not have a central control unit that controls base stations, the base stations are divided and individual control channels are assigned to each group as in the conventional technology. Instead, by using multiple control channels in common among multiple base stations, it becomes possible to use the control channels efficiently.

(Example) Embodiments of the present invention will be described below based on the drawings.

FIG. 1 and FIG. 2 are diagrams showing one embodiment.

In this embodiment, the control channel and the communication channel are FDM.
A (frequency division multiple access).

FIG. 1 shows an example of installation of a plurality of base station devices, in which 1 is a local exchange, 2.3.4.5 is a subscriber line, and 6.
7.8.9 is a base station device.

Further, FIG. 2 shows an example of the configuration of a base station device, and a base station device 7.
is shown as an example, and in the same figure, 10 is FDM
A control device, 11 is a control channel transmitter, 12.13
is a communication channel transmitter, 14 is a control channel receiver, 1
5.16 is a communication channel receiver, 17 is an antenna duplexer, and 18 is an antenna. The control channel receiver 14 is
A multi-channel receiver is used that can receive control channels from mobile stations (not shown) that are within the base station reception band, as well as control channels from other base stations that are within the base station transmission band.

Now, it is assumed that another base station device whose control channel of base station device 7 receives interference is a base station device 6.8.9. Control channel radio waves from other base station devices 6.8.9 are received by the antenna 18 and input to the control channel receiver 14 by the antenna duplexer 17. As mentioned above, in this embodiment, each channel is configured by frequency division, ie, FDMA, so that the base station transmission frequency band and the base station reception frequency band are separated by a so-called transmission/reception interval.

The control channel receiver 14 first sequentially switches and receives all control channels within the base station transmission band given to the system, and measures the reception level.

The measurement results are temporarily stored in the FDMA control device 10, and the control channel received at the lowest level is selected from all the control channels. The FDMA control device 10 thereafter switches the transmission frequency of the control channel transmitter 11 to the lowest reception level control channel, and also switches the reception frequency of the control channel receiver 14 to the frequency of the corresponding mobile station transmission control channel. let

In this way, each base station determines the control channel frequency in accordance with the relative position with respect to other base station devices in the vicinity. This has the advantage that when a new base station joins between existing base stations, such as a codeless telephone, the control channel to be used by the new base station can be determined rationally.

In addition, if many new base stations are installed between existing base stations while using a previously determined control channel, the interference conditions for the control channel at the existing base stations will change, causing The previously used control channel may no longer be optimal. Therefore, the above control channel selection operation may be repeated, for example, once a day.

When a communication request is generated through a determined control channel, the base station searches for an empty communication channel and sends a command to the mobile station to use this channel. At the same time, one of the communication channel transmitters 12.13 and one of the communication channel receivers 15.16 are each switched to that channel.

Next, FIGS. 3 and 4 show another embodiment of the present invention. In this embodiment, the control channel and the communication channel are configured by TDMA (time division multiple access).

The installation example of a plurality of base station apparatuses is configured almost the same as that shown in FIG. 1 in the above-mentioned embodiment. FIG. 3 shows an example of the configuration of a base station device using a base station device 70 corresponding to the base station device 7 in FIG. 1, and in the figure, one is a TDMA control device, 20 is a base station TDMA transmitter, 21 is a base station TDMA
FIG. 4, which is a receiver, is a diagram for explaining time slots of a transmission signal of the base station TDMA transmitter 20.
22 to 31. 22a and 23a are time slots.

22 to 31 correspond to one cycle of the time slot, and 22
a % 23 a is the first part of the next cycle.

Now, a case will be described in which, for example, time slots 22 to 25 are used as control channel time slots, and time slots 26 to 31 are used as communication channel time slots. The base station TDMA receiver 21 normally receives the frequency transmitted by the mobile station, but when selecting a control channel to be used, it switches to the frequency transmitted by the base station and receives the frequency. First, the level of radio waves from surrounding base stations is measured for time slots 22 to 25, and the TDMA control device 19 is notified of the results. In response to this, the TDMA control device 19 finds the time slot with the lowest reception level among the 22nd to 25th time slots. The TDMA control device 19 controls the TDMA transmitter 20 to transmit a control channel in the time slot of the lowest reception level.

When a communication request occurs through the control channel time slot determined in this way, the base station searches for an empty communication channel time slot from communication channel time slots 26 to 31 and requests the mobile device to use this time slot. Sends a command to use a slot. At the same time T
The DMA transmitter 20 and TDMA receiver 21 are controlled to transmit and receive in this time slot.

[Effects of the Invention] As explained above, according to the present invention, when a plurality of control channels are used in a cordless telephone or the like in which a central control device does not manage the channels used by each base station, The control channel to be used by each base station can be autonomously selected by the base station itself to provide the optimum conditions. Therefore, in contrast to the conventional technology, which separates individual base stations and uses one control channel for each group, the control channels are not used efficiently due to the imbalance between groups. , this problem can be solved and the efficiency of control channel usage can be significantly increased.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an example of installation of a base station device for realizing an embodiment of the control channel configuration method in mobile communication according to the present invention, and FIG. 2 shows the configuration of the base station device in FIG. 1. FIG. 3 is a block diagram showing the configuration of a base station apparatus for realizing another embodiment of the present invention, and FIG. 4 is a diagram for explaining time slots in the other embodiment. 6.7.8.9: FDMA base station device, 70
:TDMA base station device.

Claims (1)

[Claims] A method for configuring a control channel in mobile communications between a plurality of base stations, using a plurality of frequencies or a plurality of time slots within the base station transmission band as control channel frequencies or time slots, comprising: . A control channel configuration method in mobile communication, characterized in that the base station searches for a control channel with the lowest reception level from among all the control channels, and uses the searched control channel as its own control channel.