JP2002112345A - Multiple address communication system between mobile terminal stations, and computer-readable recording medium stored with program therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance the throughput of communication and to stabilize and uniformarize the communication between local mobile terminal stations. SOLUTION: An optional mobile terminal station 29 or the like confirming the absence of a local control station due to carrier sensing declares that the mobile terminal station 29 acts like a control station for TDMA communication. When the station making the declaration receives no reply from mobile terminal stations in a local communication area over a prescribed time, the station making the declaration terminates its communication and releases the communication space. When a control station or the like for a 1st local communication receives a 2nd local communication, the control station revises a channel (frequency) of the 1st local communication or integrates the 1st local communication into the 2nd local communication. Furthermore, the control station adjusts a transmission level of each station on the basis of transmission level information from an opposite station and reception level information of present station. A mobile terminal station 21 in the communication area of which a local control station 11 exists transmits a communication start request to the control station 11.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multiple access communication system in which a plurality of mobile terminal stations (such as a mobile phone and a mobile phone) selectively use a radio line under the control of a local control station. In particular, a multiple access communication system such as TDMA (Time Division Multiple Access) used for communication between mobile terminal stations, and CSMA (Carrier Sense Mult).
It combines the advantages of the iple Access) communication method.

In general, in multiple access communication between mobile terminal stations whose positional relationship changes from moment to moment, the management of each mobile terminal station in the entire communication area is improved, and the communication throughput is reduced. Therefore, it is desirable to provide equal communication opportunities for each mobile terminal station, and the present invention meets this demand.

[0003]

2. Description of the Related Art Conventional communication methods between mobile terminal stations include: TDMA (Time Division Multiple Access), FDMA (Frequency Division Multiple Access), and CSMA (Carrier Sense Multiple Access). is there.

FIG. 24 is an explanatory diagram showing the relationship between a fixed control station and a mobile terminal station in a conventional TDMA communication system (for example, a mobile phone). Reference numeral 71 denotes a fixed control station.

FIG. 25 is an explanatory diagram showing the relationship between a frame (communication unit) of a general TDMA communication system and slots constituting the frame.

[0006] A frame is composed of one control slot and n data slots. For example, the frame time is 10 ms, and the slot time is 1 ms. Each slot is composed of, for example, 100 bytes of data, and the head of each slot is slot synchronization information.

[0007] The control slot information includes control slot synchronization information (code UW1: unique word) and slot allocation information SC. The data slot information includes data slot synchronization information (code UW2: unique word) and transmission / reception data. Since UW1 and UW2 are different, control code information and data slot information can be identified by this code.

[0008] The basic contents of the slot assignment information are: which mobile terminal station (including control station) uses which data slot; and performs transmission or reception.

The fixed control station 71 transmits control slot information (control slot synchronization information) as a reference on the time axis in its own communication area at a fixed cycle, and the mobile terminal station receiving the information transmits control slot information using the control slot information. Communication is performed using the designated data slot.

The fixed control station 71 issues an instruction in the control slot information that, for example, the data slot number used for communication (transmission or reception) by the mobile terminal station having the terminal code a is “3”.

The control slot information itself is, of course, received by all mobile terminal stations, but it is the mobile terminal station of terminal code a that performs transmission / reception according to the information.

The mobile terminal station with the terminal code n receives the data slot of "3" when the instruction content from the fixed control station 71 is "reception", and receives the data slot when the instruction content is "transmission". And transmits it to the fixed control station 71.

As described above, in the case of the TDMA communication system, each of the mobile terminal stations synchronizes on the time axis with reference to the control slot information transmitted by the fixed control station 71 at a constant cycle.

On the other hand, in the CSMA communication system, a plurality of mobile terminal stations perform communication by searching for an idle time while performing carrier sense with each other without having a control station.

[0015]

In the conventional multiple access mode between mobile terminal stations, for example, in a TDMA communication system, the control station manages the communication time of each mobile terminal station, so that collision of communication data is small. However, there is a problem that it is difficult to arrange control stations in order to increase the overall communication efficiency of the target area.

Further, in the case of the CSMA communication system, although there is an advantage that it is not necessary to consider the installation of a control station, as the number of mobile terminal stations increases, the communication throughput becomes extremely poor due to carrier collision. Further, there is a problem that it is difficult to equalize the communication opportunities of each mobile terminal station due to the variation in the communication frequency.

Therefore, in the present invention, any mobile terminal station declares a local control station of the multiple access communication system by carrier sense, and cancels this declaration according to the communication situation, so that the local mobile terminal can be canceled. An object of the present invention is to improve the throughput of communication between stations and to stabilize and equalize communication.

Further, the transmission level of each station (control station, mobile terminal station) in the local communication area is adjusted based on the transmission level information from the partner station and the reception level information of the own station,
Further, the control station calculates and transmits the transmission level adjustment information of the mobile terminal station from the reception level information and the like, and the mobile terminal station adjusts the transmission level based on the adjustment information, thereby obtaining the optimum communication level environment. The purpose is to secure it.

[0019]

The present invention solves this problem as follows. (1) In a multiple access communication system between a plurality of mobile terminal stations, when a mobile terminal station requesting communication confirms the absence of a local control station based on carrier sense, the mobile terminal station has its own communication area. Operates as a control station. (2) In the above (1), the carrier sense time is set to 1
Set a random time equal to or longer than the frame time. (3) In the above (1) and (2), when the local control station does not receive a response from another mobile terminal station to its own communication for a predetermined time, the control station ends the communication and releases the space. I do. (4) In the above (1) to (3), when the mobile terminal station in the first local communication receives the second local communication on the same channel as the mobile terminal station, the mobile terminal station issues a channel change request to its own. Send to control station.

According to the present invention, as described in (1) above, the mobile terminal station, which has confirmed the absence of a local control station by carrier sense, declares itself to operate as the control station in the multiple access communication. In this way, the improvement of communication throughput and the equalization of communication, which are the advantages of the multiple access communication, are ensured, and the arrangement of control stations is made more efficient. The present invention is applicable to TDMA, FDMA, and the like.

Note that "carrier sense" originally refers to detecting the reception level of a carrier. In this specification, this term is also used to include the detection of slot synchronization information described later.

Also, as described in (2) above, by setting the carrier sense time at random, the first and second mobile terminal stations in the other communication area start carrier sense at the same time. In this case, the control station declaration is prevented from being repeated.

As described in the above (3), when there is no response from the mobile terminal station in the local communication area to the control station for a predetermined time, the communication is terminated and the space is released, so that the communication resources can be used. We are trying to use it effectively.

Further, as described in (4) above, a channel change request is transmitted from the mobile terminal station (of the first local communication) that has received the second local communication to its own control station, and the communication between the two terminals is performed. Communication is stabilized by preventing interference.

Further, in order to stabilize and improve the communication efficiency and to effectively use the communication resources, the following steps are performed: a control station of the first local communication receives the channel change request; If it is received, the channel of the first local communication is changed, or the first local communication is temporarily terminated.-The once terminated first local communication is integrated into the second local communication. Or

Further, in order to secure an optimum communication level environment, each station in a local communication area (control station, mobile terminal station)
Or the local control station calculates the transmission level adjustment information of the mobile terminal station from this reception level information and transmits it. However, the mobile terminal station performs transmission level adjustment based on this adjustment information.

The present invention is directed to a multiple access communication system between mobile terminal stations having such features, and further, the mobile terminal station, which has confirmed the absence of a local control station by carrier sense, performs the multiple access communication by itself. The present invention also covers a recording medium storing a program for declaring that it operates as a control station.

[0028]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIGS. 1 to 22, 1
Nos. 1 to 13 perform carrier sense for one or more frames to confirm that there is no other local communication control station in the communication area of the own station, that is, that no control slot information is received, and determine a local control station. Declared mobile terminal stations (mobile telephones), 21 to 30 are mobile terminal stations other than the local control station, 40 is a mobile terminal station, 41 is an antenna, and 42 is UW detection (control slot synchronization information UW1 and data slot synchronization information UW2). Data transmission / reception means 43, which also has functions of carrier identification (detection of carrier reception level) and carrier detection (detection of carrier reception level), sets transmission / reception timing, transmission level / channel frequency, starts control station declaration,
Communication control means for controlling various communication operations such as stop;
Is a timer for monitoring the time related to control station declaration and communication start / stop, 45 is a data input / output unit for inputting / outputting various communication data (communication start request, communication destination, transmission / reception contents, etc.), and 46 is a channel changer. Frequency control means 47, transmission level adjustment means 47 for performing the processing of FIGS. 19 to 22, etc., reception level detecting means 48 for the processing of FIGS. 19 to 22, etc., and 50 an external connection such as a personal computer or car navigation system. , Respectively.

FIG. 1 is an explanatory diagram showing the concept of a communication system between mobile terminal stations using a local control station.
Mobile terminal station 27 in communication area of local control station 12
Exists in the communication area of the local control station 13;
Mobile terminal stations 23, 24, 25, 26, 28 and 29
There is no local control station that manages the communication status, indicating the communication status. The control stations 11, 12, and 13 are also mobile terminal stations.

Here, when a local control station exists in the communication area of the own station, for example, the mobile terminal station 21 is connected to the control station 11
The communication is performed in accordance with the control slot information from.

When there is no local control station in the communication area of the own station, for example, when the mobile terminal station 29 wants to start communication, it declares the role of the local control station.

FIG. 2 is an explanatory diagram showing the contents of control slots and data slots in a frame. The frame time, slot time, number of slots, data slot information, and the like are the same as those of the related art (see FIG. 25).

The control slot information includes: control slot synchronization information (UW1: unique word) slot allocation information (SC1 to SCn: n is the number of data slots) channel change information of a local control station (CC) local control Station transmission level information (TL) Control station change information (CB), etc., and is transmitted from a local control station at a cycle of a frame time TF.

The slot allocation information is, as described above,
It includes data indicating which mobile terminal station (control station) should use which data slot to transmit or receive.

The data slot information includes: data slot synchronization information (UW2: unique word); This UW2 is the UW1 of the control slot information.
Since both codes are different from each other, both slot synchronization information can be reliably discriminated.

The transmission / reception data of the data slot information is in the uplink direction (mobile terminal station → local control station). Uplink communication data Slot assignment request Channel change request Control station change request Transmission output level information TL ′ And so on.

[0037] Further, as the data in the downlink direction (local control station → mobile terminal station), it includes: downlink communication data; transmission level adjustment information for the mobile terminal station (see FIG. 21).

FIG. 3 shows the overall configuration of the mobile terminal station (part 1).
FIG. When the mobile terminal station 40 responds to the local control station as a so-called slave station, the mobile terminal station 40 receives a frame (control slot information, etc.) from the control station located in the communication area of the mobile station, The communication data, which is the output of 45, is transmitted through the communication control unit 43 and the data transmitting / receiving unit 42,
The data is transmitted in the data slot specified by the control slot information from the control station.

When the mobile terminal station 40 requests the local control station to start communication, an entry request which is an output of the data input / output means 45 is:
Via the communication control means 43 and the data transmission / reception means 42, the data is transmitted in a free data slot specified by the control slot information from the control station, and the control slot information from the control station is waited for.

When the mobile terminal station 40 declares a local control station, it is necessary to confirm that there is no control station in the communication area of the mobile station by carrier sense of the data transmission / reception means 42. Is transmitted via the communication control means 43 and the data transmission / reception means 42, and waits for a response from another mobile terminal station located in its own area.

When the mobile terminal station 40 operates as a control station: transmitting communication data (control slot information, etc.) output from the data input / output means 45 via the communication control means 43 and the data transmitting / receiving means 42; Receives communication data from another mobile terminal station located in the communication area of the own station at a predetermined timing (time interval between UW1 and UW2).

FIG. 4 is an explanatory diagram (part 1) showing a procedure for declaring a control station of a mobile terminal station by carrier sense, the contents of which are as follows. This step is performed by
A mobile terminal station that wants to start communication. (s11) Carrier sense is performed for a fixed time equal to or longer than TF (TF: one frame time), and the process proceeds to the next step. (s12) It is determined whether a control slot has been detected, that is, whether control slot synchronization information UW1 has been received. If “YES”, the flow shifts to the communication start request process in FIG. If so, go to the next step. (s13) The transmission of the control slot information is started at the cycle of the frame time TF, and the process proceeds to the next step. (s14) Wait for the response of the mobile terminal station for the specified time, and proceed to the next step. (s15) Whether there is a response from the mobile terminal station, that is, the data slot synchronization information UW2 from the mobile terminal station,
Control slot synchronization information UW1 transmitted in step (s13)
It is determined whether or not it has been received in the TS cycle with reference to the following. If “YES”, proceed to the next step; if “NO”, proceed to step (17). (s16) Start communication with the mobile terminal station. (s17) Stop transmission of control slot information, and execute step (s
Return to 11). As a result, a local communication space is opened.

FIG. 5 is an explanatory diagram (part 2) showing a control station declaration procedure based on carrier sense of the mobile terminal station, and the contents are as follows.

The difference from FIG. 4 is that the carrier sense time in step (s21) is set randomly. That is, the mobile terminal station starts the control station declaration procedure and proceeds to step (s
When there is no response of 14) or when another control slot is received, the start timing of step (s23) is avoided by setting the duration of carrier sense at random. (s21) Carrier sense is performed for a random time equal to or longer than TF (TF: 1 frame time), and the process proceeds to the next step. (s22) Determine whether a control slot has been detected, that is, whether slot synchronization information UW1 has been received.
If "YES", the process proceeds to the communication start request process in FIG.
If “NO”, proceed to the next step. (s23) The transmission of the control slot information is started in the cycle of the frame time TF, and the process proceeds to the next step. (s24) Wait for the response of the mobile terminal station for the specified time, and proceed to the next step. (s25) Whether there is a response from the mobile terminal station, that is, data slot synchronization information UW2 from the mobile terminal station,
Control slot synchronization information UW1 transmitted in step (s23)
It is determined whether or not the signal has been received at the TS cycle based on the reference. If “YES”, the process proceeds to the next step. If “NO”, the process proceeds to step (s27). (s26) Communication with the mobile terminal station is started. (s27) Stop transmitting the control slot information, and execute step (s
Return to 21). As a result, a local communication space is opened.

After steps (s17) and (s27), it may be determined whether or not to perform carrier sense again. This determination follows, for example, an instruction from the external connection device 50.

Regarding the random time (the number of frames) for performing the carrier sense, the number of frames based on the output of the random number generator is used, or history information such as the communication frequency of the own station and the number of control station declarations is held. The number of frames based on the history information may be used, or the number of frames based on the position information of the declaration station may be used.

The upper limit M of the number of frames of the carrier sense is determined by calculation of M = C ⁿ (C: a constant of 2 or more, n: the number of collisions of consecutive control slots) in each mobile terminal station.

By the way, the first and second mobile terminal stations, which are partially overlapped with each other but are separated from each other by a distance that cannot receive each other, declare a local control station, respectively. May have a third mobile terminal station.

The third mobile terminal station receives control slot information from the first and second local control stations. On the other hand, local control stations cannot detect collision of control slots with each other.

In such a case, the third mobile terminal station clearly starts operating as a local control station,
Steps (s12) and (s2) in the second local control station
By guiding the result of 2) to "YES",
You may make it avoid collision of the carrier of a 1st, 2nd local control station.

FIG. 6 is an explanatory diagram showing a mode when a mobile terminal station in a local communication area starts communication.

In this case, first, a mobile terminal station that wants to start communication puts a communication start request with its own terminal station code in an empty data slot of the first frame (arbitrary frame) and transmits it. Upon receiving this, the local control station sends a data slot assignment indicating that a data slot (arbitrary free data slot) has been assigned to the mobile terminal station that has requested communication start in the control slot of the next frame, and transmits it. The communication start request source starts communication using the data slot specified by the data slot assignment information.

The above-described frame processing is performed only on a frame having an empty data slot. Further, the carrier frequency of the upstream frame and the carrier frequency of the downstream frame may be different.

FIG. 7 shows the overall configuration of the mobile terminal station (part 2).
FIG. The frequency control means 46 used in the processing of FIGS. 8 to 12 and the like is added to the mobile terminal station of FIG.

FIG. 8 is an explanatory view showing a mode of preventing interference between the first and second local communications. The control station of the first local communication and the mobile terminal station control the second local communication. FIG. 7 shows a state of channel change (frequency change) when a station or a mobile terminal station is detected.

In this case, in the first frame (arbitrary frame), the control station A of the first local communication communicates with the control slot synchronization information UW1 or the data slot synchronization information UW1 of the second local communication.
2 in the second frame, the control station A transmits the channel change information CC as its own control slot information in the second frame, and control in the third frame. The station A and each mobile terminal station of the first local communication receiving the channel change information CC operate the frequency control means 46 to change its own channel frequency.

It is to be noted that the mobile terminal station of the first local communication transmits control slot synchronization information UW1 of the second local communication.
Alternatively, even when the data slot synchronization information UW2 is detected due to a difference in timing with the slot synchronization information of the control station A (for the first local communication), a channel change request is issued in the data slot used by the mobile terminal station. Control station A
, The channel can be changed in the same manner in the procedure after the second frame.

FIG. 9 is an explanatory diagram showing a processing procedure of the control station A in the channel change of FIG. 8, and the contents are as follows. Note that the control station A is communicating on the first channel (frequency f1). (s31) It is determined whether or not control station slot synchronization information of another local communication, that is, control slot synchronization information UW1 at a timing different from its own synchronization information is detected.
If “ES”, proceed to the next step, and if “NO”, repeat this determination. The detection target at this time may be the data slot synchronization information UW2. (s32) Channel change information CC for changing to the second channel (frequency f2) is transmitted in its own control slot, and the process proceeds to the next step. (s33) The transmission channel of the own station is changed to the second channel.

FIG. 10 is an explanatory diagram showing the processing procedure of the mobile terminal station under the control of the control station A in FIG. 9, and the contents are as follows. Note that this mobile terminal station is communicating on the first channel (frequency f1). (s41) It is determined whether or not the channel change information CC in the control slot information has been received at the communication timing of the control station A that manages its own station. If “YES”, proceed to the next step and proceed to “NO”. If so, repeat this determination. (s42) Change its own transmission channel to the second channel.

FIG. 11 is an explanatory diagram showing a processing procedure of the control station A when the channel is changed in FIG. 8 (different from FIG. 8,
This is the case where the mobile terminal station under the control of the control station detects another local communication area), and the contents are as follows. Note that the control station A is communicating on the first channel (frequency f1). (s51) At its own communication timing, determine whether a channel change request in the data slot information has been received from the mobile terminal station, and if YES, proceed to the next step,
If “NO”, repeat this judgment. (s52) Channel change information CC for changing to the second channel (frequency f2) is transmitted in its own control slot, and the process proceeds to the next step. (s53) Change the transmission channel of the own station to the second channel.

FIG. 12 is an explanatory diagram showing the processing procedure of the mobile terminal station under the control of the control station A in FIG. 11, and its contents are as follows. Note that this mobile terminal station is communicating on the first channel (frequency f1). (s61) It is determined whether or not control station slot synchronization information of another local communication, that is, control slot synchronization information UW1 at a timing different from its own synchronization information is detected.
If “ES”, proceed to the next step, and if “NO”, repeat this determination. The detection target at this time may be the data slot synchronization information UW2. (s62) A channel change request is inserted into its own data slot and transmitted, and the process proceeds to the next step. (s63) It is determined whether or not the channel change information CC is included in the control slot information received at the communication timing of the control station A, and if “YES”, proceed to the next step,
If “NO”, repeat this judgment. (s64) Set its own transmission channel to the second channel (frequency f
Change to 2).

FIG. 13 is an explanatory diagram showing a mode (part 2) for preventing interference between the first and second local communications. In this case, the control station A and the mobile terminal station for the first local communication are connected to the second local communication.
1 shows the unification of the control station when the control station B or the mobile terminal station of the local communication is detected.

In this case, in the first frame, the control station B transmits control slot synchronization information UW1 or data slot synchronization information UW2 of the first local communication using the same channel with its own slot synchronization information. The control station B detects the control station change information C in the second frame.
B. After transmitting the control slot information including B, the communication is temporarily terminated. In the third frame, the mobile terminal station of the old second local communication receiving the control station B and the control station change information CB
Transmits its own terminal station code and data slot allocation request in an empty data slot of the first local communication, and in the fourth frame, the control station A receiving the allocation request transmits data to the requesting station. The control slot information including the allocation result of the slot (arbitrary free data slot) is transmitted. As a result, the requesting source stations of the old second local communication (of course, the stations to which the data slots are assigned) also start communication as the mobile terminal stations of the first local communication.

Some of the old second local communication stations (control station and mobile terminal station) are stations which are not detected in the first frame and are located outside the area of the first local communication. There can be.

Since a station corresponding to this and wishing to communicate cannot enter the first local communication, the control station declaration processing shown in FIGS. 4 and 5 may be performed.

FIG. 14 is an explanatory diagram showing the processing procedure of the control station B in unifying the control stations of FIG. 13, and the contents are as follows. (s71) It is determined whether or not control station slot synchronization information of another local communication, that is, control slot synchronization information UW1 at a timing different from its own synchronization information is detected.
If “ES”, proceed to the next step, and if “NO”, repeat this determination. The detection target at this time may be the data slot synchronization information UW2. (s72) Transmit control station change information CB in its own control slot information, and proceed to the next step. (s73) Terminate the communication processing, that is, terminate transmission of control slot information and the like, and proceed to the next step. (s74) A request for data slot allocation is made to the control station A of the first local communication, that is, the terminal station code and the data slot allocation request of its own are transmitted in an empty data slot of the first local communication and transmitted. Proceed to step. (s75) Communication is performed in accordance with the control station A. That is, communication is performed using the data slot of the first local communication allocated by the control station A.

FIG. 15 is an explanatory diagram showing the processing procedure of the mobile terminal station under the control of the control station B in FIG. 14, and the contents are as follows. (s81) It is determined whether or not the channel change information CC is included in the control slot information received at the communication timing of the control station B. If “YES”, proceed to the next step,
If “NO”, repeat this judgment. (s82) Terminate the communication process, that is, terminate the use of the data slot allocated by the control station B, and proceed to the next step. (s83) In the same manner as in step (s74), the control station A of the first local communication is requested to allocate a data slot, and the process proceeds to the next step. (s84) Communication is performed in accordance with the control station A in the same manner as in step (s75).

FIG. 16 shows the processing procedure of the control station B in the unification of the control station in FIG. 13 (unlike FIG. 13, the mobile terminal station under the control of the control station detects another local communication area. FIG. 7 is an explanatory diagram showing a case), the contents of which are as follows. (s91) At its own communication timing, determine whether a control station change request in the data slot information from the mobile terminal station has been received, and if `` YES '', proceed to the next step,
If “NO”, repeat this judgment. (s92) The control station change information CB is transmitted in its own control slot, and the process proceeds to the next step. (s93) Terminate the communication processing, that is, terminate transmission of control slot information and the like, and proceed to the next step. (s94) In the same manner as in step (s74), a request is made to the control station A of the first local communication for data slot allocation, and the flow proceeds to the next step. (s95) As in step (s75), communication is performed in accordance with the control station A.

FIG. 17 is an explanatory diagram showing the processing procedure of the mobile terminal station under the control of the control station B in FIG. 16, and the contents are as follows. (s101) It is determined whether or not control station slot synchronization information of another local communication, that is, control slot synchronization information UW1 at a timing different from its own synchronization information is detected.
If “ES”, proceed to the next step, and if “NO”, repeat this determination. The detection target at this time may be the data slot synchronization information UW2. (s102) A control station change request is inserted into its own data slot and transmitted, and the process proceeds to the next step. (s103) It is determined whether or not the control slot change information CB is included in the control slot information received at the communication timing of the control station B. If “YES”, the process proceeds to the next step and proceeds to “N”.
If "O", repeat this determination. (s104) Terminate the communication processing, that is, terminate transmission of control slot information and the like, and proceed to the next step. (s105) As in step (s74), the control station A of the first local communication is requested to allocate a data slot, and the process proceeds to the next step. (s106) As in step (s75), communication is performed under control of the control station A.

FIG. 18 is an explanatory diagram showing the overall configuration (part 3) of the mobile terminal station. The transmission level adjustment unit 47 and the reception level detection unit 48 used in the processing of FIGS. 19 to 22 and the like are added to the configuration of FIG. 3.

The transmission level adjusting means 47 executes step (s11
3), (s123), (s133), (s135), (s142), etc.

The (next) transmission level NSL in the step or the like is obtained by, for example, NSL = minimum reception level + (transmission level of communication partner−reception level of own station).

The minimum reception level is a minimum reception level required for communication. The transmission level of the communication partner is a level based on transmission level information TL, TL 'described later, and the reception level of the own station is transmission level information RL, R described later.
This is a level based on L '.

FIG. 19 is an explanatory diagram showing the procedure for adjusting the transmission level of the mobile terminal station, and the contents are as follows. This mobile terminal station is communicating. (s111) It is determined whether or not the transmission level information TL of the control station (in the control slot information) has been received at the timing of communication of the own control station, and if “YES”, proceed to the next step and proceed to the next step. If "NO", repeat this determination. (s112) The reception level information RL 'of the own station is obtained, and the process proceeds to the next step. (s113) The transmission level NSL of the own station is calculated and set based on the TL and RL '.

FIG. 20 is an explanatory diagram showing the procedure for adjusting the transmission level of the local control station. The contents are as follows. This control station is communicating. (s121) It is determined whether or not the transmission level information TL 'of the mobile terminal station (in the data slot information) has been received at the timing of its own communication, and if "YES", proceed to the next step and "NO". In this case, this determination is repeated. (s122) The reception level information RL of the own station is obtained, and the process proceeds to the next step. (s123) The transmission level NSL of the own station is calculated and set based on the TL 'and RL.

FIG. 21 is an explanatory diagram showing a procedure for adjusting the transmission level of the local control station to the mobile terminal station, and the contents are as follows. This control station is communicating. (s131) It is determined whether or not the transmission level information TL 'of the mobile terminal station (in the data slot information) has been received at the timing of its own communication, and if "YES", proceed to the next step and "NO". In this case, this determination is repeated. (s132) The reception level information RL of the own station is obtained, and the process proceeds to the next step. (s133) The transmission level NSL of the own station is calculated and set based on the TL 'and the RL. (s134) It is determined whether or not this RL is equal to or greater than the reference value. If "YES", the process returns to the step (s131). If "NO", the process proceeds to the next step. (s135) The transmission level adjustment information for the mobile terminal station under its management is calculated, and the process proceeds to the next step. (s136) The calculated transmission level adjustment information is transmitted in its own data slot information.

FIG. 22 is an explanatory diagram showing the procedure for adjusting the transmission level of the mobile terminal station under the control of the local control station in FIG. 21, and the contents are as follows. This mobile terminal station is communicating. (s141) It is determined whether or not the transmission level adjustment information (in the data slot information) has been received at the communication timing of its own control station, and if “YES”, proceed to the next step,
If “NO”, repeat this judgment. (s142) The transmission level NSL of the own station is calculated and set based on the received transmission level adjustment information.

As a result, the mobile terminal station reflects the received transmission level adjustment information on the current transmission level, thereby preventing the control station from losing received data.

It is optional whether the mobile terminal station of FIG. 22 uses the processing of step (s142) together with the transmission level adjustment processing of FIG.

FIG. 23 is an explanatory view showing an outline of a computer system which reads a program from a computer-readable recording medium and executes the program. Reference numeral 60 denotes a computer system, 61 denotes a main unit incorporating a CPU and a disk drive device, etc. Reference numeral 62 denotes a display for displaying an image according to an instruction from the main body 61, 63 a display screen, 64
Is a keyboard for inputting various information to the computer system 60, 65 is a mouse for specifying an arbitrary position on the display screen 63, 66 is an external database (line memory such as DASD), and 67 is an external database 66. Accessing modem, 68 is CD-ROM or floppy disk
A portable recording medium such as a (registered trademark) disc is shown.

The recording medium for storing the program may be any of: a database 66 on the program provider side (line destination memory); a portable recording medium 68; a RAM or a hard disk on the main body 61 side; It is loaded into the unit 61 and executed on its main memory.

(Supplementary Note 1) In a multiple access communication system between a plurality of mobile terminal stations, if a mobile terminal station requesting communication confirms the absence of a local control station based on carrier sense, the mobile terminal station will A multiple access communication method between mobile terminal stations, which operates as a control station of its own communication area. (Supplementary note 2) The multiple access communication method between mobile terminal stations according to Supplementary note 1, wherein the time of the carrier sense is set to a random time of one frame time or more. (Supplementary Note 3) If the local control station does not receive a response from another mobile terminal station for its own communication for a predetermined time,
3. The multiple access communication method between mobile terminal stations according to claim 1 or 2, wherein the control station terminates communication and releases space. (Supplementary note 4) When the mobile terminal station of the first local communication receives the second local communication of the same channel as the mobile terminal station,
4. The multiple access communication system between mobile terminal stations according to claim 1, wherein said mobile terminal station transmits a channel change request to its own control station. (Supplementary Note 5) When the control station or the mobile terminal station of the first local communication receives the second local communication of the same channel as the own, the control station transmits channel change information and changes its own channel. 5. A multiple access communication method between mobile terminal stations according to any one of claims 1 to 4, characterized in that: (Supplementary note 6) When the control station or the mobile terminal station of the first local communication receives the second local communication of the same channel as the own, the control station temporarily terminates its own communication. 5. A multiple access communication method between mobile terminal stations according to any one of supplementary notes 1 to 4. (Supplementary Note 7) After the control station of the first local communication has completed its own communication, the control station or the mobile terminal station transmits a communication start request to the control station of the second local communication. A multiple access communication method between mobile terminal stations according to claim 6, characterized in that: (Supplementary Note 8) The mobile terminal station sets its own transmission level based on its own transmission level information received from its own control station and its own reception level information. 8. A multiple access communication system between mobile terminal stations according to attachments 1 to 7. (Supplementary note 9) The local control station sets its own transmission level based on the transmission level information of the mobile terminal station received from the mobile terminal station under its control and the reception level information of the local station. 8. A multiple access communication method between mobile terminal stations according to any one of supplementary notes 1 to 7, characterized in that: (Supplementary Note 10) The local control station sets and transmits transmission level adjustment information for the mobile terminal station when reception level information of communication from the mobile terminal station under its control is equal to or less than a reference value. 8. A multiple access communication method between mobile terminal stations according to any one of supplementary notes 1 to 7, characterized in that: (Supplementary Note 11) The mobile terminal station sets its own transmission level as follows:
The reception level information for communication from the mobile terminal station to the local control station is set based on transmission level adjustment information set and transmitted by the mobile terminal station when the reception level information is equal to or less than a reference value. 8. A multiple access communication system between mobile terminal stations according to any one of 1 to 7. (Supplementary Note 12) In a recording medium storing a program used for multiple access communication between a plurality of mobile terminal stations, the program is used when a mobile terminal station requesting communication performs communication with a local control station in its area based on carrier sense. A non-transitory computer-readable program recording medium, characterized in that the mobile terminal station causes a computer to realize a function of starting communication as the control station when the absence of the mobile terminal station is confirmed.

[0083]

As described above, according to the present invention, the mobile terminal station, which has confirmed the absence of a local control station by carrier sense, declares itself to operate as the control station in the multiple access communication. While improving communication throughput and equalizing communication, which are the advantages of communication,
It is possible to improve the efficiency of the arrangement of the control stations.

Further, since the carrier sense time is set at random, the declaration of the control station can be made even when the first and second mobile terminal stations in the other communication area start carrier sense at the same time. Can be prevented from being repeated.

Further, when there is no response from the mobile terminal station in the local area to the control station for a predetermined time, the communication is terminated and the space is released, so that the communication resources can be effectively used.

Further, since a channel change request is transmitted from the mobile terminal station (of the first local communication) that has received the second local communication to its own control station, interference between the two communications is prevented while preventing communication between the two terminals. Stabilization can be achieved.

Further, when the control station of the first local communication receives the channel change request or when the control station of the first local communication receives the second local communication, the control station of the first local communication changes the channel of the first local communication, or The first local communication is temporarily terminated, or the first local communication once terminated is integrated into the second local communication, so that communication is stabilized and efficiency is improved, and communication is performed. Effective utilization of resources can be achieved.

Further, each station in the local communication area (control station, mobile terminal station)
The local control station calculates the transmission level adjustment information of the mobile terminal station from this reception level information by adjusting the transmission level of the mobile station based on the transmission level information from the partner station or the reception level information of the own station. Since the mobile terminal station performs transmission level adjustment based on this adjustment information, it is possible to secure an optimal communication level environment and prevent loss of received data at a local control station.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing the concept of a communication system between mobile terminal stations using a local control station according to the present invention.

FIG. 2 is an explanatory diagram showing the contents of a control slot and a data slot in a frame according to the present invention.

FIG. 3 is an explanatory diagram showing an overall configuration (No. 1) of a mobile terminal station according to the present invention.

FIG. 4 is an explanatory diagram (part 1) illustrating a procedure for declaring a control station of a mobile terminal station by carrier sense according to the present invention.

FIG. 5 is an explanatory diagram (part 2) illustrating a procedure for declaring a control station of a mobile terminal station by carrier sense according to the present invention.

FIG. 6 is an explanatory diagram showing an aspect of the present invention when a mobile terminal station in a local communication area starts communication.

FIG. 7 is an explanatory diagram showing an overall configuration (part 2) of a mobile terminal station according to the present invention.

FIG. 8 is an explanatory diagram showing an aspect (part 1) of preventing interference between first and second local communications according to the present invention.

FIG. 9 is an explanatory diagram showing a processing procedure of the control station A in the channel change of FIG. 8 according to the present invention.

FIG. 10 is an explanatory diagram showing a processing procedure of the mobile terminal station under the control of the control station A in FIG. 9 of the present invention.

FIG. 11 is an explanatory view showing a processing procedure of the control station A in the channel change and the like of FIG. 8 according to the present invention (unlike FIG. 8, a mobile terminal station under the control of the control station is used in another local communication area; Is detected).

FIG. 12 is an explanatory diagram showing a processing procedure of the mobile terminal station under the control of the control station A in FIG. 11 of the present invention.

FIG. 13 is an explanatory diagram showing an aspect (part 2) of preventing interference between first and second local communications according to the present invention.

14 is an explanatory diagram showing a processing procedure of the control station B in the unification of the control station in FIG. 13 according to the present invention.

FIG. 15 is an explanatory diagram showing a processing procedure of the mobile terminal station managed by the control station B in FIG. 14 according to the present invention.

FIG. 16 is a flowchart illustrating the processing procedure of the control station B in the unification of the control station in FIG. 13 (unlike FIG. 13, the mobile terminal station under the control of the control station detects another local communication area). FIG.

FIG. 17 is an explanatory diagram showing a processing procedure of the mobile terminal station managed by the control station B in FIG. 16 according to the present invention;

FIG. 18 is an overall configuration of a mobile terminal station according to the present invention (part 3).
FIG.

FIG. 19 is an explanatory diagram showing a transmission level adjustment procedure of the mobile terminal station according to the present invention.

FIG. 20 is an explanatory diagram showing a transmission level adjustment procedure of a local control station according to the present invention.

FIG. 21 is an explanatory diagram showing a procedure for adjusting a transmission level of a local control station to a mobile terminal station according to the present invention.

FIG. 22 is an explanatory diagram showing a transmission level adjustment procedure of the mobile terminal station managed by the local control station in FIG. 21 according to the present invention.

FIG. 23 is an explanatory diagram showing an outline of a computer system for reading and executing a program from a computer-readable recording medium according to the present invention.

FIG. 24 is an explanatory diagram showing a relationship between a fixed control station and a mobile terminal station in a conventional TDMA communication system (for example, a mobile phone).

FIG. 25 is an explanatory diagram showing a relationship between a frame (communication unit) of a general TDMA communication system and slots constituting the frame.

[Explanation of symbols]

11 to 13: mobile terminal stations (car phones) that declare a local control station 21 to 30: mobile terminal stations other than the local control station 40: mobile terminal station 41: antenna 42: combined with functions of UW detection and carrier detection Data transmission / reception means provided 43: Communication control means 44: Timer 45: Data input / output means 46: Frequency control means for changing channels 47: Transmission level adjustment means 48: Reception level detection means 50: External connection such as a personal computer or car navigation system Apparatus 60: Computer system 61: Main body with built-in CPU, disk drive, etc. 62: Display 63: Display screen 64: Keyboard 65: Mouse 66: External database (line destination memory such as DASD) 67: Modem 68: CD A portable recording medium such as a ROM or a floppy disk 71: Constant control station

Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme Court II (Reference) H04Q 7/30 (72) Inventor Junji Tokaibayashi 1-2-25 Ichibancho, Aoba-ku, Sendai-shi, Miyagi Fujitsu Tohoku Digital F-term in the company of technology stock (reference)

Claims (5)

[Claims] In a multiple access communication method between a plurality of mobile terminal stations, when a mobile terminal station requesting communication confirms the absence of a local control station based on carrier sense, the mobile terminal station performs its own communication. A multiple access communication method between mobile terminal stations, which operates as a control station of a communication area. 2. The multiple access communication method between mobile terminal stations according to claim 1, wherein the carrier sense time is set to a random time equal to or longer than one frame time. 3. If the local control station does not receive a response from another mobile terminal station for its own communication for a predetermined period of time, the control station ends the communication and releases the space. Item 2. A multiple access communication method between mobile terminal stations according to item 1 or 2. 4. When the mobile terminal station of a first local communication receives a second local communication of the same channel as the mobile terminal station, the mobile terminal station transmits a channel change request to its own control station. 4. The multiple access communication method between mobile terminal stations according to claim 1, wherein 5. A recording medium storing a program used for multiple access communication between a plurality of mobile terminal stations, the program comprising: a mobile terminal station requesting communication; If you confirm the absence of
The mobile terminal station is for causing a computer to realize a function of starting communication as the control station by itself.
A computer-readable program recording medium characterized by the above-mentioned.