JP2003102065A - Communication changeover method for wireless terminal station - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication changeover method for a wireless terminal station that realizes wireless communication between wireless terminal stations in a service area of a base station without giving effect on other wireless communication. SOLUTION: In order to attain direct communication between wireless terminal stations (mobile bodies) 202, 203 even in a service area 200 of a base station 201 in a TDMA digital wireless system, the base station 201 uses an idle slot of the TDMA system to detect a transmission level (f3 ) for direct communication between the wireless terminals, when the transmission level of the direct communication between the wireless terminals reaches a prescribed level or more, the direct communication of the wireless terminal station is automatically shifted to communication using a communication carrier (f2 , F2 ) not giving effect on other communication via the base station by utilizing an idle slot of the TDMA system or an idle time of press-to-talk.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system in a so-called TDMA digital radio system, and more particularly to a radio terminal which enables direct communication between mobile radio terminal stations within a service area. The present invention relates to a station communication switching method.

[0002]

2. Description of the Related Art A so-called digital wireless communication system in which digital communication is performed between a plurality of wireless terminal stations (mobile units) using wireless communication is generally a service area in which wireless communication is possible (hereinafter referred to as a service area). Is configured by one or a plurality of base stations and a plurality of wireless terminal stations. The communication system between wireless terminal stations in such a digital wireless communication system can be generally classified into the following three modes.

<Mode 1> This is two wireless terminal stations (mobile units) existing within the service area of one base station.
Is a communication mode in which mutual wireless communication is performed via the base station. More specifically using the attached figures,
As shown in FIG. 5, the service area 50 of the base station 502 is shown.
In this mode, the two wireless terminal stations 504 and 505 existing in 0 communicate with each other via the base station 502.

<Mode 2> A case where one wireless terminal station existing in the service area of one base station performs wireless communication with another wireless terminal station existing in a dead zone in the same service area. In the mode, by providing the forward base station in this dead zone, the wireless communication between the two wireless terminal stations is performed through the base station and the forward base station (the base station and the forward base station are connected by wire). Is to do. More specifically, referring to the attached drawings, as shown in FIG. 6, in this mode 2, one wireless terminal station 504 existing in the service area 500 of the base station 502,
Another wireless terminal station 505 existing in the dead zone 501 of the service area 502 is
Further, by providing the forward base station 503, the base station 502 and the forward base station 503 are connected by wire, and thus, the base station 502 and the forward base station 503 connected by these wires are connected to each other. It is a mode for performing wireless communication with.

<Mode 3> This is a communication mode in which two wireless terminal stations existing outside the service area of one base station perform direct wireless communication with each other without going through the base station. More specifically, as shown in FIG. 7, in this mode 3, the service area 500 of the base station 502 is used.
Two wireless terminal stations 504 and 505 existing outside perform direct wireless communication with each other without going through the base station 502.

In the communication mode between the wireless terminal stations described above, communication between the base station and the wireless terminal station (hereinafter, referred to as communication between the base station and the wireless terminal station) is a so-called multiple communication. On the other hand, communication between wireless terminal stations (hereinafter, referred to as communication between wireless terminal stations-wireless terminal stations) is mainly based on the simplex method. However, even in the above-mentioned wireless terminal station-wireless terminal station communication, direct wireless communication by the restoration method is also possible by allocating a plurality of communication channels to one communication.

By the way, as a communication method between such digital wireless terminal stations, in recent years, in particular, so-called TDMA (Time D
ivision Multiple Access) method is adopted. This method divides a single frequency into a plurality of frames at regular time intervals, further divides each frame into a plurality of slots, and allocates each channel to slots at the same position of each frame. It is a wireless communication system that realizes multiplexing.

Also in this TDMA communication, the base station-radio terminal station communication and the forward base station-wireless terminal station communication are performed, as in the various modes in the wireless communication between the wireless terminal stations described above. Then, again, the duplex system is basically used, whereas in the communication between wireless terminal stations-wireless terminal stations, mainly, for example, as shown in FIG.
Communication between these wireless terminal stations 504 and 505 is based on a simplex system. However, also here, as described above, by assigning a plurality of communication channels to one communication even between these wireless terminal stations-wireless terminal stations, the wireless communication can still be directly performed by the duplex system. It is possible to do

By the way, in such a digital radio system, not only when the radio terminal station is outside the service area of the base station as shown in FIG. 7, but also inside the service area of the base station, Direct communication between these wireless terminal stations has been proposed, and
Strongly desired.

In response to this proposal, however, as described above, in the prior art, direct communication between a plurality of (for example, two stations) wireless terminals is performed by these wireless terminal stations 504 as shown in FIG. And the radio waves transmitted by 505 are base stations 5.
02 does not reach directly, that is, service area 5
It was limited only when used outside of 00. Also,
On the other hand, therefore, in this service area 500, the radio communication via the base station 502 was not interfered with by the radio waves transmitted from the radio terminal stations 504 and 505.

Further, in the above case, it is possible to judge whether or not the wireless terminal station exists within the service area of the base station by receiving the control channel transmitted from the base station when the wireless terminal station is powered on. In this case, if it is within the service area, on the other hand, if the control channel cannot be received, it is determined to be outside the service area. More specifically,
In the former case, the user of such a wireless terminal station switches the communication mode changeover switch provided in the wireless terminal station owned by itself to the wireless communication mode via the base station, while in the latter case, This switch was switched to the direct communication mode between wireless terminal stations.

[0012]

As described above, for a digital wireless system, not only when the wireless terminal stations are outside the service area of the base station, but also when these wireless terminal stations are within the service area of the base station. It is desired that these wireless terminal stations can directly communicate with each other even when they exist. However, in the above-described conventional digital wireless system, the following problems occur when direct communication is possible between wireless terminal stations even when these wireless terminal stations exist within the service area of the base station. The occurrence of points was pointed out and it was impossible to realize it.

Specifically, for example, in FIG. 8 attached, reference numeral 801 denotes a base station, 800 denotes a service area of the base station 801, and 802, 803, 804, 80.
Reference numerals 5 respectively indicate wireless terminal stations. In addition, in FIG. 9 attached, reference numeral 900 denotes a power spectrum of an upstream communication carrier from the wireless terminal station 802 or 803, 902 denotes a power spectrum of a downstream communication carrier from the base station 801 to the wireless terminal station 802 or 803, Is a wireless terminal station 8
The power spectrum of the direct communication between 04 and 805,
Reference numeral 903 shows an upstream carrier band, and reference numeral 904 shows a frequency band of a downstream carrier. That is, in general,
Uplink communication carriers and downlink communication carriers used for wireless communication via the base station are set to different frequency bands, and these carrier bands are several M apart from each other.
They are separated by a frequency of Hz.

Here, as shown in FIG. 9, the communication carrier 901 used for direct communication between wireless terminal stations is close to the communication carrier 900 (f ₁ ) used for wireless communication performed via the base station. Consider the case of setting the frequency (f ₃ ). Then, in the state in which the communication mode is set to the direct communication mode between the wireless terminal stations, the wireless terminal stations 804 and 805 are arranged from the outside of the service area 800 to the inside thereof, as indicated by an outlined arrow in FIG. When moving to the base station 801, the base station 801 receives the reception channel 900 of its own station.
Since the wireless communication between the wireless terminal stations is performed by the communication carrier 901 (f ₃ ) close to (f ₁ ), a radio wave larger than the receiving carrier 900 (f ₃ ) of the own station exists. The difference between the two is, for example, ARIB “Narrowband Digital Communication System (TDMA) Standard (RCRS).
As defined by "TD-39)", when the channel selectivity exceeds 42 dB, mutual channels interfere with each other due to adjacent channel leakage, etc., and it becomes difficult to receive a desired wave and communication cannot be established. It had the first problem.

Next, as described above, the communication carrier 901 is provided outside the service area 800 of the base station 801.
In the case where the wireless terminal stations 804 and 805, which were directly communicating between the wireless terminal stations using (f ₃ ), move to the inside of the service area 800 of the base station 801, the communication mode The switching will be described.

As described above, in the conventional wireless communication, as shown in FIG. 7, the direct communication between the wireless terminal stations is limited to the outside of the service area of the base station 502. The wireless terminal stations 504 and 505 are
When moving from outside the service area 500 of the base station 502 to inside the service area 500, the direct communication between these wireless terminal stations is once terminated, and thus the communication mode changeover switch provided in each wireless terminal station. The user must manually switch from the direct communication mode between the wireless terminal stations to the wireless communication mode via the base station. Furthermore, after that, each wireless terminal station must newly establish wireless communication via the base station 502. Therefore, the communication between the wireless terminal stations 504 and 505 has the second problem that the communication must be interrupted once.

Therefore, an object of the present invention is to enable direct communication between a plurality of wireless terminal stations even within the service area of a base station, and in particular, between such wireless terminal stations. A communication switching method for wireless terminal stations, which solves the first and / or second problems that occur when performing direct communication, and is thereby capable of realizing direct communication between wireless terminal stations in practice. Its purpose is to provide.

[0018]

In order to achieve the above object, according to the present invention, inside and outside a service area of a base station of a TDMA digital radio system,
In a communication switching method of a wireless terminal station that enables direct communication between a plurality of wireless terminal stations, a transmission level of direct communication between the wireless terminal stations is detected, and a transmission level of direct communication between the wireless terminal stations is There is provided a wireless terminal station communication switching method which automatically shifts the direct communication of the wireless terminal station to the communication via at least the base station when a predetermined level or more is reached.

Further, according to the present invention, in the communication switching method for wireless terminal stations described above, the plurality of wireless terminal stations perform direct communication between wireless terminal stations within the service area of the same base station. And the transmission level of the direct communication between the wireless terminal stations reaches or exceeds the predetermined level, the communication carrier used for the direct communication between the wireless terminal stations is changed to the wireless communication via the base station. Are relocated to the upstream communication carrier and the downstream communication carrier used for the above, and further, the communication carrier is relocated using an empty slot of the TDMA system between the base station and the wireless terminal station. is there.

Further, according to the present invention, in the above-mentioned communication switching method for wireless terminal stations, between the wireless terminal stations in a state where the plurality of wireless terminal stations exist in the service areas of different base stations, respectively. If the direct communication between the wireless terminal stations reaches the predetermined level or more, the wireless terminal station is set to the idle time of the press talk between the wireless terminal stations. By using
The direct communication between the wireless terminal stations is shifted to the communication via the base station. And according to the present invention, further, each of the plurality of wireless terminal stations,
When the direct communication between the wireless terminal stations is performed in a state where the wireless terminal stations exist in the service areas of different base stations, and the transmission level of the direct communication between the wireless terminal stations reaches or exceeds the predetermined level, the wireless communication is performed. The communication carriers used for the direct communication between the terminal stations are respectively relocated to the upstream communication carrier and the downstream communication carrier used for the wireless communication via the base station in the service area in which the respective wireless terminal stations exist. Then, the rearrangement of the communication carriers is performed by allocating an empty slot of the TDMA method between one of the different base stations and the wireless terminal station that has already established communication with the one base station. This is done by using it.

Further, according to the present invention, in the communication switching method for a wireless terminal station described above, the base station is
The communication level of direct communication between the plurality of wireless terminal stations is detected by utilizing an empty slot of the DMA system.

That is, according to the present invention, in a TDMA digital radio system, an empty slot or
By utilizing the idle time for switching press talk transmission / reception, the above-mentioned problems are solved, and thus direct communication between wireless terminal stations within the proposed base station service area is realized. .

More specifically, in the present invention, in order to solve the first and second problems, an empty slot generated during direct communication between wireless terminal stations in each wireless terminal station, or a wireless terminal station In the press talk method used in direct communication between terminals, one wireless terminal station switches from ON to OFF,
The communication carrier f used for direct communication between wireless terminal stations is used by using the time until the other is switched from OFF to ON.
_By rearranging ₃ in the upstream communication carrier f ₂ and the downstream communication carrier F _{2 used} for wireless communication via the base station (transition work to the wireless communication via the base station), the communication mode is automatically switched. Wireless communication without interrupting ongoing direct communication between wireless terminal stations, and without affecting wireless communication between wireless terminal stations via other base stations within the service area of the base station. The present invention realizes a wireless communication system capable of performing communication.

[0024]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the accompanying drawings. First, FIG. 1 shows a communication switching method of a wireless terminal station in a digital wireless system according to an embodiment of the present invention. In addition,
In this embodiment, the TDMA is used as the communication method.
This is a method that automatically switches the communication mode if it interferes with other communication in the service area of the base station during direct communication between wireless terminal stations. is there. The relationship between communication bands in the digital wireless system according to the present embodiment is shown in FIG.
As shown in.

In general, as shown in FIG. 1, the base station 201 constituting the digital radio system is always in the service area 200 of the radio terminal stations 202 and 20.
A control channel is being transmitted to control channel 3 using the control carrier (F ₁ ). On the other hand, each wireless terminal station (mobile)
By receiving the control channel, the 202 and 203 judge whether or not the control channel itself exists inside the service area 200 of the base station 201. In this case, the direct communication between the wireless terminal stations 202 and 203 is the simplex method as described above, and the mutual communication between them is what is called press-to-tal communication.
k) method.

By the way, in the digital radio system adopting the above-mentioned TDMA system, an empty slot is generated when the radio terminal stations are directly communicating with each other. Therefore, in the present invention, by utilizing this empty slot, it is possible to receive the control channel transmitted from the base station even during direct communication between the wireless terminal stations, thereby defining the communication level. When it detects that the level has exceeded the level, it switches the direct communication between wireless terminal stations to wireless communication between wireless terminal stations via the base station automatically and without interrupting the communication. is there.

That is, as shown in FIG. 1A, when the wireless terminal stations 202 and 203 are present within the service area 200 of the base station 201, the respective wireless terminal stations 202 and 203 are By receiving (RX) the control channel transmitted on the downlink control carrier (F ₁ ) from the base station 201 in one slot of the TDMA system, for example, the third slot (slot number “2”), The synchronization between the base station and the wireless terminal station is established. At this time, in these wireless terminal stations 202 and 203, slots other than the slot receiving the control channel described above (in the above example, the slot of the slot number “2” of the control carrier F ₁ ) are vacant. It has become a slot.

Therefore, in this state, or in the case where one or both of the wireless terminal stations exist outside the service area of the base station, when the direct communication between the wireless terminal stations is performed, The 202 uses the communication carrier (f ₃ ) to call by using the wireless terminal station 203 in the empty slot, for example, the slot with the slot number “1”, and directly communicates between the wireless terminal stations 202 and 203. Perform (TX, RX). Even during this period, the wireless terminal stations 202 and 203 continue to receive the control channel (control carrier (F ₁ )) transmitted from the base station 201 via the slot of the slot number “2”. .

On the other hand, the base station 201 described above has an empty slot (for example, a control carrier (F ₁ )) of the control channel (for example,
The slot of the slot number “3” in the figure) is used to grasp the strength of the radio wave of the wireless communication in the service area 200. That is, the base station 201 detects the strength of the radio wave (in this case, the communication carrier (f ₃ )) used for the radio terminal station communication between the radio terminal stations 202 and 203, and the radio wave is detected. When the strength reaches a level that affects other wireless communication in this service area 200, this base station 201 causes the communication level of wireless terminal-to-wireless terminal communication in the control channel (control carrier (F ₁ )) to be equal to or higher than the specified level. It is added (control information) and transmitted to the wireless terminal stations 202 and 203.

On the other hand, the wireless terminal station 2 which has received the information indicating that the communication level of the wireless terminal station communication has exceeded the specified level
02 uses the empty slot (not shown) of the downlink control carrier (f ₁ ), for example, the slot having the slot number “0” to make a call request to the base station 201.

In response to this, when there is an empty carrier in the base station 201, for example, the control carrier (F ₁ ) and the third slot (slot (CCH) of the slot number “2”) are used. ) Is used to accept the call from the wireless terminal station 202, and
Using another vacant slot of the control carrier (F ₁ ), for example, the slot with the slot number “0”, the other wireless terminal station 203 is inquired about the report of the communication form and the availability of communication.

In response to such an inquiry, when the other wireless terminal station 203 can communicate, for example,
It reports to the base station 201 that it can communicate using the control carrier (F ₁ ) and its slot number “0”. Upon receiving this report, the base station 201 makes a communication channel activation request to the wireless terminal station 202.

In this way, the wireless terminal station 202 that has issued the call request and the wireless terminal station 203 that has received the activation request are automatically connected to the base station as shown in FIG. By using the upstream communication carrier (f ₂ ) and the downstream communication carrier (F ₂ ) which are not used and are vacant, the communication between them is established via the station 201.
That is, the communication carrier (f ₃ ) used for direct communication between the wireless terminal stations until then is changed to the communication carrier (f ₂ , which does not affect other communication in the service area 200).
It will be relocated to F ₂ ).

That is, according to this rearrangement,
Inside and outside the service area 200 of the base station 201,
The wireless terminal station 20 that was directly communicating between the wireless terminal stations
2, 203 are the communication carriers (f
₃) Signal strength is inside the service area 200
When it reaches a level that affects other wireless communication,
Inter-communication between wireless terminals (that is, the above-mentioned FIG.
Communication carrier of (a) (f ₃) Communication between wireless terminals
Wireless terminal via the base station 201 without interruption
It is possible to automatically switch to wireless communication between end stations
Become. That is, the service area 200 of the base station 201
For wireless communication between wireless terminals via other base stations within
Interference will be eliminated. further,
According to the above, within the service area 200 of the base station 201
, The wireless terminal stations 202 and 203 are not used
Free carrier (f₂, F₂) Automatically switches to
As a result, other wireless communication via the base station 201 is possible.
It does not affect the trust, and it is switched.
During operation, without interrupting the wireless communication
It is possible to maintain wireless communication as it is.

As described above, in the wireless terminal station switching communication system of the present invention, the first and second wireless terminal stations that are directly communicating between wireless terminals within the service area of the base station are If the first and second wireless terminal stations move closer to each other, the first and second wireless terminal stations judge that the transmission level is equal to or higher than a specified level from the transmission level information added to the control information constantly transmitted from the base station. Continuing by rearranging the communication carrier (f ₁ ) used for direct communication to the upstream communication carrier (f ₂ ) and the downstream communication carrier (F ₂ ) used for wireless communication via the base station. Wireless communication between the wireless terminal stations via the base station automatically without interrupting the direct communication between the wireless terminal stations and without affecting the wireless communication via other base stations within the service area of the base station. Switch to And it is characterized in Rukoto.

Further, in the communication mode switching method of the present invention, the communication carrier (f ₃ used in the direct communication between the wireless terminal stations is used by utilizing the empty slot generated in the direct communication between the wireless terminal stations. ) Is rearranged in an upstream communication carrier (f ₂ ) and a downstream communication carrier (F ₂ ) used for wireless communication between wireless terminal stations via a base station.

In the above description, in the digital wireless system, the wireless terminal stations 202 and 203, which are directly communicating with each other, are both outside the service area 200 of the base station 201 or both. 201 within the service area 200, and further, one of them is the base station 201.
Within the service area 200 of the base station 201
The case where these wireless terminal stations move into the service area 200 of the base station 201 in the state outside the service area 200 of 1 and further influence the wireless communication via the other base station 201 has been described. However, next, other states will be described with reference to the attached FIG.
In this other state, these wireless terminal stations move over the coverage areas of different base stations that make up the digital wireless system, for which:
The details will be described below.

First, in FIG. 2, reference numerals 602 and 6 are used.
Reference numeral 03 denotes different base stations, and reference numerals 600 and 601 denote service areas of the base stations 602 and 603, respectively. Further, reference numerals 604 and 605 in the figure
Is a wireless terminal station.

Here, first, as shown in FIG.
The wireless terminal station 604 exists in the service area 600 of one base station 602, and the wireless terminal station 6
04 receives the downlink control channel (F ₁ ) constantly transmitted from the base station 602 in the slot with the slot number “2” (RX) and establishes synchronization.

On the other hand, the wireless terminal station 605 exists outside the service areas 600 and 601 of the base stations 602 and 603, as is apparent from the figure. And now
It is called by the wireless terminal station 604, whereby direct communication is established between the wireless terminal stations by the communication carrier (f ₃ ) (in this example, the slot with the slot number “0”). Also in this case, as described above, the direct communication between the wireless terminal stations 604 and 605 is a simplex method, and the communication between these is so-called press-to-talk. ) Method.

In this state, as shown in FIG. 2 (b), the latter wireless terminal station 605 of the wireless terminal stations 604 and 605 which are directly communicating between the wireless terminal stations.
However, when the wireless terminal station 605 moves into the service area 601 of the base station 603, the wireless terminal station 605 can receive the control carrier (F ₂ ) constantly transmitted from the base station 603 (see FIG. See a)).

By the way, as described above, even in this state, the radio field intensity of the communication carrier (f ₃ ) which has been performing the inter-radio terminal station communication between the radio terminal stations 604 and 605 is the service area 600 of these areas. Or, within 601, when it becomes a level that affects other wireless communication,
The direct communication between the wireless terminal stations is automatically switched to the wireless communication between the wireless terminal stations via the base station. That is, each base station 602, 603
In the same way as above, the radio wave intensity of the wireless communication in the service area is grasped by using the empty slot of the control channel, and the intensity of the radio wave (communication carrier (f ₃ )) used for communication between the wireless terminal stations Has reached a level that affects other wireless communication within each service area, information that the communication level of wireless terminal-to-wireless station communication on the control channel (control carrier (F ₁ )) has exceeded the specified level. Is added and transmitted to each wireless terminal station. However, at this time,
Since synchronization has not yet been established between the base station 603 and the wireless terminal station 605, this wireless terminal station 605 only receives the control carrier (F ₂ ).

At this time, the communication performed by the wireless terminal station 605 with the wireless terminal station 604 existing in the service area 601 is carried out directly between these wireless terminal stations by the communication carrier (f ₃ ). The communication is performed by the above-mentioned press talk method.

Here, an example of direct communication between the wireless terminal stations according to the press talk system is shown in FIG. 4 attached. As is clear from this figure, for example, the mobile station 1 and the mobile station 2
When communication is performed between and, communication is performed while alternately switching ON and OFF of press talk. Since the wireless terminal station 605 directly communicates with the wireless terminal station 604 existing in the area of the service area 601 by this press talk method, the time indicated by reference numeral 400 in FIG. 4 ( During the period when the press talks of both the mobile station 1 and the mobile station 2 are OFF: idle time), no communication is performed between them.

Therefore, in the communication switching method of the present invention, by utilizing the idle time 400 in this press talk, the wireless terminal station 605 is connected to the base station 603 by the control carrier (F ₂ ) transmitted from the base station 603. Establish synchronization.
After that, the wireless terminal station 605, which has been able to establish synchronization with the base station 603, next turns its press talk from ON to OFF.
When switching to the other wireless terminal station 604, the transmission right release information transmitted by the wireless terminal station 604 is added with information indicating that communication via the base station 603 is possible and transmitted. Issue a command.

At this time, as is clear from the above, since the synchronization has already been established with the base station 602, the wireless terminal station 604 transmits the transmission output when the press talk is switched from OFF to ON. In addition to the right acquisition request (request immediately after the period indicated by reference numeral 400 in FIG. 4), information that enables communication via the base station 602 is further added, and this is transmitted to the wireless terminal station 605. , Base station 602
Also send to. Further, the transmission right acquisition release information output when the press talk is subsequently switched from ON to OFF (the press talk on the side of the mobile station 2 in FIG. 4 is switched from ON to OFF) further includes a wireless form. Switching information is added and transmitted.

After the above transmission operation is completed, the wireless terminal station 60
4 makes a call request to the base station 603 via the base station 602, while the base station 60 that has received this call request
At the same time as receiving the call origination to the wireless terminal station 604, the wireless communication terminal 3 inquires of the wireless terminal station 605 about the report of the communication form and the availability of communication.

[0048] At this time, the wireless terminal station 605, if the communication is possible, as shown in FIG. 2 (b), using a slot of the slot number "1" of the communication carrier (f _5), itself It reports to the base station 603 that communication is possible. As a result, this base station 603 makes a communication channel activation request to the wireless terminal station 604 via the other base station 602. Then, in response to the request for activation of the communication channel, the wireless terminal stations 604 and 605 automatically perform the upstream communication carriers (f ₄ , f ₅ ) and the downstream communication carriers (F ₄ , F ₅ ).
And can be used to switch to wireless communication between wireless terminal stations via the base stations 602 and 603, respectively. That is, the wireless terminal stations 604 and 605 are still connected to the base station (however, in this case, the wired base station 60 is connected without interrupting the ongoing wireless communication between the wireless terminal stations).
2 and 603) to switch to wireless communication between wireless terminal stations.

According to the above, the service areas 600 and 6
Wireless terminal station 605 existing outside 01 and performing direct communication between wireless terminal stations with a wireless terminal station 604 existing in the service area 600.
After that, even if the user moves into the service area 601, the wireless communication is automatically switched to the wireless communication between the wireless terminal stations via the base station at a level that affects other wireless communication.
That is, other wireless communication performed via the base station 602 in the service area 600 and the service area 6
The communication between the wireless terminal stations via the base stations 602 and 603 becomes possible without affecting the wireless communication performed via the base station 603 in 01. Even in this case, the communication carrier (f ₃ ) used for the direct communication between the wireless terminal stations and the communication carriers (f ₄ , F ₄ , f _{5 for} the wireless communication via the base station are used by using the empty slots. , F ₅ ).

As described above, in the communication mode switching method of the present invention, the first wireless terminal station existing in the first service area of the first base station is located outside the first service area. When the second wireless terminal station moves into the second service area of the second base station while calling the existing second wireless terminal and performing direct communication between the wireless terminal stations by the press talk method. , The second wireless terminal station is the first
And the second wireless terminal station uses the time during which the press talk is switched from ON to OFF or from OFF to ON, respectively, and the second wireless terminal station receives the control carrier constantly transmitted from the second base station. And establishes synchronization with the second base station, and then the second wireless terminal station uses the transmission right release information when switching the press talk from ON to OFF to enable wireless communication via the second base station. A certain information is added and transmitted to the first wireless terminal station, and the first wireless terminal station transmits the wireless communication via the first base station to the transmission right acquisition request information when switching the breath talk from OFF to ON. Information that enables communication is added and transmitted to the second wireless terminal station, and the first wireless terminal station further includes the first and second transmission right release information when switching the breath talk from ON to OFF. Communication between wireless terminals via the base station of Information to be transmitted to the second wireless terminal station, and the first and second wireless terminal stations have wireless communication between the wireless terminal stations via the first and second base stations for which synchronization has been established, respectively. By switching to the wireless communication between the wireless terminal stations without interruption, and wireless communication via other base stations within the first and second service areas of the first and second base stations. Without affecting
It is characterized by automatically switching to communication between wireless terminal stations via a base station.

In the communication mode switching method of the present invention described above, as described above: (1) In the first service area where the first base station can maintain wireless communication, first and second When the wireless terminal station of is performing direct communication between wireless terminal stations, the control channel transmitted from the first base station is received using an empty slot, and the transmission level information added to the control channel is the specified level. As described above, the first and second wireless terminal stations establish synchronization with the first base station by using the empty slot, without interrupting ongoing direct communication between wireless terminal stations, and It is possible to automatically switch to communication between wireless terminal stations via the base station without affecting communication between other wireless terminal stations via the first base station.

(2) The first wireless terminal station exists within the first service area of the first base station, and the second wireless terminal station exists outside the first service area of the first base station. In this case, in the direct communication between the wireless terminal stations which receives the control channel transmitted from the first base station and calls the second wireless terminal station by the first wireless terminal station which has established the synchronization,
Second wireless terminal station moves into the second service area of the second base station, the second wireless terminal station sends a press talk.
When switching from N to OFF, it is reported to the first wireless terminal station that it is possible to switch to wireless communication via the second base station together with transmission right release information. Also, when the first wireless terminal station switches the press talk from OFF to ON, it can switch to the wireless communication via the first base station together with the transmission right request information for the second wireless terminal station. And switching the communication mode from the direct communication between the wireless terminal stations to the wireless communication via the first and second base stations when the press talk is switched from ON to OFF. The first and second wireless terminal stations are the first
By establishing the wireless communication via the wireless base station and the second base station, the continuous direct communication between the wireless terminal stations is not interrupted and other wireless communication in the first and second service areas is affected. It is possible to automatically switch to communication between wireless terminal stations via the first and second base stations without affecting.

[0053]

As is apparent from the above detailed description, according to the communication switching method of the wireless terminal station of the present invention, the direct communication between the wireless terminal stations and the wireless terminal station and the communication via the base station are performed. By automatically switching to and from the communication as appropriate, there is no impact on other wireless communications or interruption of communication in the service area of the base station, which has been conventionally pointed out as a problem even within the service area of the base station. The excellent effect that direct communication between a plurality of wireless terminal stations can be realized practically is achieved.

[Brief description of drawings]

FIG. 1 is a diagram showing a communication switching method of a wireless terminal station in a digital wireless system according to an embodiment of the present invention.

FIG. 2 is a diagram showing a communication switching method of a wireless terminal station in another state in the digital wireless system of the present invention.

FIG. 3 is a diagram showing a relationship of communication bands in the digital wireless system.

FIG. 4 is a diagram showing a press talk method of direct communication between wireless terminal stations in the digital wireless system.

FIG. 5 is a diagram for explaining an example of communication mode 1 in the related art.

FIG. 6 is a diagram for explaining an example of communication mode 2 in the related art.

FIG. 7 is a diagram for explaining an example of communication mode 3 in the related art.

FIG. 8 is a diagram for explaining a problem in the conventional technique.

FIG. 9 is a diagram showing a power spectrum of a communication carrier for explaining problems in the conventional technique.

[Explanation of symbols]

200, 600, 601 Service area 201, 602, 603 Base station 202, 203, 604, 605 Wireless terminal station (mobile body) 305 Up carrier 306 Down carrier

Claims (7)

[Claims] 1. A communication switching method of a wireless terminal station, which enables direct communication between a plurality of wireless terminal stations inside and outside a service area of a base station of a TDMA digital wireless system, wherein: When the transmission level of direct communication is detected and the transmission level of direct communication between the wireless terminal stations reaches a predetermined level or higher, the direct communication of the wireless terminal station is automatically converted into communication via at least the base station. A method for switching communication of a wireless terminal station, characterized in that 2. The wireless terminal station communication switching method according to claim 1, wherein the plurality of wireless terminal stations perform direct communication between wireless terminal stations within a service area of the same base station, And, when the transmission level of the direct communication between the wireless terminal stations reaches or exceeds the predetermined level, the communication carrier used for the direct communication between the wireless terminal stations is used for the wireless communication via the base station. A communication switching method for a wireless terminal station, wherein the communication terminal is relocated to an upstream communication carrier and a downstream communication carrier. 3. The method of switching communication of a wireless terminal station according to claim 2, wherein the rearrangement of the communication carriers is performed,
A communication switching method for a wireless terminal station, characterized in that it is performed by using an empty slot of the TDMA method between the base station and the wireless terminal station. 4. The communication switching method for wireless terminal stations according to claim 1, wherein the plurality of wireless terminal stations are in direct communication between wireless terminal stations in a state in which they are within service areas of different base stations. And when the transmission level of the direct communication between the wireless terminal stations reaches or exceeds the predetermined level, the wireless terminal station is used for the idle time of the press talk between the wireless terminal stations. Then, the communication switching method of the wireless terminal station is characterized in that the direct communication between the wireless terminal stations is shifted to the communication via the base station. 5. The method for switching communication between wireless terminal stations according to claim 4, wherein the plurality of wireless terminal stations are in the service areas of different base stations and are directly communicated between the wireless terminal stations. And the transmission level of the direct communication between the wireless terminal stations reaches or exceeds the predetermined level, the communication carriers used for the direct communication between the wireless terminal stations are changed to the respective wireless terminals. A communication switching method for a wireless terminal station, characterized in that the wireless terminal station is relocated to an upstream communication carrier and a downstream communication carrier used for wireless communication via a base station in which the station exists. 6. The method of switching communication of a wireless terminal station according to claim 5, wherein the rearrangement of the communication carrier is performed.
The TD between one of the plurality of different base stations and the wireless terminal station that has already established communication with the one base station.
A method for switching communication of a wireless terminal station, characterized in that it is performed by using an empty slot of the MA method. 7. The communication switching method for a wireless terminal station according to claim 1, wherein the base station uses an empty slot of the TDMA method to directly communicate with the plurality of wireless terminal stations at a communication level. A communication switching method for a wireless terminal station, which is characterized by detecting