JP2002204263A - Gateway device in radio communication system and its data transmitting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a receiver of mail and other data to enjoy the merit or a charge in the time periods system by selecting the receiving time and also to distribute and equalize traffic within the range of the selection while observing strictly the selection in a radio communication system. SOLUTION: Data including a desired receiving time is received from each mobile station, the received data including the desired receiving time is stored being made to correspond to the mobile station of its transmission source, and transmission is controlled so as to perform data transmission to the mobile station whose desired receiving time is stored at the desired receiving time. Also, the desired receiving time can be set not only in each mobile station but also in each prescribed data meeting various conditions.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a radio communication system, and more particularly to a radio communication system having a gateway function for transmitting data at a reception time desired by a user.

[0002]

2. Description of the Related Art A packet communication system will be described as an example of a conventional wireless communication system for the sake of convenience of description of a packet switching type wireless communication system in an embodiment of the present invention. First,
The outline of the packet communication system will be described with reference to FIG. FIG. 9 is a conceptual diagram showing an example of a general PDC mobile packet communication system.

[0003] As shown in the figure, a general PDC mobile packet communication system 901 has at least a packet gateway relay processing function (Mobile Gateway Func).
MGF) 902 and a packet subscriber system switching function (Mobile Packet processin).
g Function (MPF) 903 and the base station (B
base station (BS) 904 and a mobile station (M
obile Station; MS) 905 and a gateway function (Gate Way Function; G)
WF) 906 and NSP / Intranet 907.

[0004] The MGF 902 has a gateway function for connecting a PDC mobile packet communication system and an external network.

[0005] MPF903 is composed of MGF902 and BS90.
4 and has a function of performing packet exchange.

[0006] The BS 904 has a function of transmitting and receiving wireless packets to and from the MS 905 located in the area.

[0007] The GWF 906 connects the PDC mobile packet communication system 901 and the NSP / intranet 907.

Next, a data flow in such a packet communication system and a general billing system will be described with reference to FIG.

For example, when sending a mail from MS _A 1001 to a mail address of NSP / intranet 907, the mail passes through route (1). That is, by the time the MS _A 1001 reaches the NSP / intranet 907, the BS
904, MPF903, MGF902, and GWF90
Go through 6 in order. In this case, the communication fee is charged to the subscriber of MS _A 1001.

Next, MS _A 1001 to MS _B 1002
When sending an e-mail to, the mail passes through the route (2). That is,
By the way, from MS _A 1001 to MS _B 1002,
BS904, MPF903, MGF902, GWF90
6, MGF902, MPF903, and BS904 in order. In this case, the communication fee is G from MS _A 1001
Up to WF, the subscriber of MS _A 1001 is charged and GWF
To MS _B 1002 are charged to the subscriber of MS _B 1002.

Next, when mail is transmitted from NSP / intranet 907 to MS _B 1002, route (3)
Pass through. That is, NSP / intranet 907 to MS
Before reaching _B 1002, GWF906, MGF9
02, MPF 903, and BS 904 in this order. In this case, the communication fee is charged to the subscriber of MS _B 1002.

As described above, in the transmission and reception of mails and other data in a packet communication system, unlike the conventional fixed-line telephone call in which charging to the caller is principle,
The charge from the mobile station to the nearest GWF is borne by the mobile station subscriber in both transmission and reception.

[0013] Recently, on the premise of the above-described billing system, service providers that provide a service for providing a difference in communication fee depending on a time zone have appeared. That is, for example, a fee system in which the communication fee is relatively high in a time zone with heavy traffic and relatively low in a time zone with low traffic is adopted or is being studied.

[0014] Such a charge system is advantageous not only for service users who are given various charge options, but also for the service provider side to be able to distribute and equalize traffic. is there.

[0015]

However, in the above-mentioned conventional wireless communication system in which the fee up to the nearest GWF is charged regardless of transmission / reception, a service for transmitting mail or other data is required. The user can select the transmission time by transmitting at an arbitrary time, and can enjoy the merits of the above time-based fee system, but the recipient of the mail or other data can set the reception time. There remains a problem that the user cannot make a selection and cannot fully enjoy the merits of the above fee structure.

The present invention has been proposed to solve such a problem, and enables a recipient of mail or other data to select a reception time so as to be able to enjoy the advantages of a time zone-based fee system. It is another object of the present invention to provide a wireless communication system that strictly adheres to the above selection and also distributes and equalizes traffic within the range.

[0017]

According to a first aspect of the present invention, there is provided a gateway apparatus for a wireless communication system, comprising: transmitting means for transmitting data at different times for each destination mobile station; and a desired reception time for a predetermined mobile station. And transmission control means for controlling the transmission means so that data transmission to the predetermined mobile station is performed at the desired reception time.

According to this configuration, since the user of the mobile station can receive data addressed to the own station at an arbitrary time, the user of the receiving mobile station can also enjoy the advantage of the time-based fee system. become able to.

[0019] In the gateway apparatus according to a second aspect of the present invention, in the first aspect, the transmission control means may include: a receiving unit that receives data including a desired reception time from each mobile station; A configuration including a storage unit that stores data including the reception time in association with the mobile station of the transmission source is adopted.

According to this configuration, the user of the receiving mobile station can easily set the desired reception time in the gateway device, and can more conveniently enjoy the advantage of the time-based fee system. .

[0021] In the gateway device according to a third aspect of the present invention, in the first or second aspect, the data including the desired reception time includes predetermined information in at least one of a transmission data and a header of the transmission data. A desired data classification condition for classifying transmission data addressed to the own station into a predetermined data type on the condition that the data is transmitted, and an individual desired reception time for each data type classified according to the condition. The means has a data classification processing unit for classifying the transmission data into the predetermined data type, and adopts a configuration in which the classified transmission data is transmitted at the individual desired reception time corresponding to the predetermined data type.

[0022] In the gateway device according to a fourth configuration of the present invention, in the third configuration, the predetermined information may include a data size, a mail address of an e-mail transmission source, a domain included in the e-mail address, and an e-mail subject. , Any character or character string in the body of the e-mail, the presence or absence of an e-mail attached file, and the file type of the e-mail attached file.

According to these configurations, data can be classified according to various conditions that can be set arbitrarily, and the classified data can be received at any time, thereby improving user convenience. .

A gateway device according to a fifth configuration of the present invention, in any one of the first to fourth aspects, adopts a configuration in which the desired reception time is an arbitrary time within a desired time range.

According to this configuration, when setting the desired reception time, the user can specify a range such as "between 4 o'clock and 6 o'clock", so that it is not necessary to specify a specific time.

When the user is requested to specify a specific time, many users are asked to enter "4:00" for ease of setting.
It is assumed that "00 minutes" for each hour such as "minutes" is specified. In such a case, if an attempt is made to meet the user's request for reception, there is a concern that the traffic may increase immediately at each time. If the time specification requested to the user is a range specification, the system can monitor the traffic situation and send it when the traffic is the least available within the above range, and can distribute and level the traffic. it can.

According to a sixth aspect of the present invention, in the gateway apparatus according to the fifth aspect, the transmission control means monitors traffic within a predetermined period consisting of a plurality of continuous predetermined unit times for each predetermined unit time. A traffic monitoring unit that performs the above-mentioned monitoring, based on the monitoring result, disperses the desired reception time within a predetermined unit time as much as possible, and reduces an arbitrary time within the desired time range so that the maximum value of traffic within the predetermined unit time decreases. A configuration further having a transmission time scheduling unit to be determined is adopted.

In this configuration, the "predetermined unit time" is, for example, "one hour", and the "predetermined period" is, for example, "1 hour".
Day (24 hours) ".

According to this configuration, the gateway device:
The monitoring results of the traffic are totaled for each predetermined unit time (for example, one hour). For example, assuming that the predetermined unit time is 1 hour and the start time is 4 o'clock, the total traffic between 4 o'clock and 5 o'clock is the total traffic between 5 o'clock and 6 o'clock. ... will be counted.

Then, the transmission time scheduling section according to the present configuration transmits, for each predetermined unit time, transmission data destined for the mobile station having the desired reception time within the unit time as distributed as possible within the unit time. Thus, the maximum traffic in the unit time can be reduced.
At the time of the above-mentioned dispersion, the transmission time distribution which is temporally distributed as much as possible is achieved under the constraint that the desired time range of each desired reception time is always respected.

[0031] In the gateway apparatus according to a seventh aspect of the present invention, in the sixth aspect, the transmission control means may further comprise: after the transmission time scheduling unit completes the scheduling for one predetermined unit time, the transmission control means may determine the one predetermined unit time and A time sequence generation unit that generates a predetermined unit time sequence consisting of the next predetermined unit time following the above, further comprising a scheduling control unit, the transmission time scheduling unit, based on the monitoring result by the traffic monitoring unit, The desired reception time is distributed as much as possible in the predetermined unit time sequence, and the arbitrary value within the desired time range is determined so that the maximum value of traffic in the entire predetermined unit time sequence is reduced. After the scheduling for one predetermined unit time sequence is completed, the one predetermined unit time sequence and the next predetermined unit The new scheduling unit generates a new predetermined unit time sequence, and the scheduling control unit monitors a predetermined unit time number included in the new predetermined unit time sequence. A configuration is adopted in which the column generation unit stops generating a new predetermined unit time sequence.

In this configuration, the “predetermined unit time” is, for example, “1 hour”, and the “predetermined period” is, for example, “1 hour”.
Day (24 hours) ", and the predetermined unit time is 4
If starting from time, the first predetermined unit time refers to one hour from 4:00 to 5:00, the subsequent predetermined unit time refers to one hour from 5:00 to 6:00, and these two consecutive predetermined times The "predetermined unit time sequence" formed from the unit time is 4
It means 2 hours from hour to 6 o'clock. Further, the “predetermined unit time number” in the present configuration is, for example, 24, and according to the above example, it means that the process is terminated when the length of the predetermined unit time sequence reaches 24 hours.

According to this configuration, for example, for the entire day of traffic, traffic can be dispersed to the maximum extent under the constraint that the user's desired reception time is satisfied. Can be enjoyed, traffic concentration associated therewith can be prevented, and traffic can be dispersed.

[0034] In the gateway device according to an eighth aspect of the present invention, in the sixth or seventh aspect, the transmission time scheduling section may be configured so that the transmission time interval is within the predetermined unit time or in the predetermined unit time sequence. A configuration in which scheduling is performed so as to be uniform is adopted.

According to this configuration, if the range in which traffic is dispersed and the amount of data to be transmitted within the range are determined,
Distributed processing can be easily executed.

According to a ninth aspect of the present invention, in the gateway apparatus according to any one of the first to fourth aspects, the desired reception time is a predetermined time elapsed from a time at which the gateway apparatus receives data to be transmitted. A configuration that is a later time is adopted.

According to this configuration, it is possible to simplify setting of a desired reception time for data that is known in advance from the transmission source to be transmitted on a regular basis.

[0038] The gateway device according to a tenth aspect of the present invention is the gateway device according to the ninth aspect, wherein the predetermined time is set to zero,
The transmission control means is configured to control the transmission means so as to transmit the data to be transmitted to the mobile station as soon as the data to be transmitted by the gateway device is received.

According to this configuration, when the user does not want a particular desired reception time or receives data that does not require a particular desired reception time, the user can set a desired reception time as before without setting the desired reception time. Data can be received immediately.

A wireless communication system according to an eleventh aspect of the present invention employs a configuration including the gateway device according to any one of the first to tenth aspects.

According to this configuration, the system management side can provide a service having a time-based fee system that can benefit the user of the receiving station, and also strictly adheres to the wishes of the user. , It is possible to achieve maximum traffic dispersion.

A data transmission method of a gateway device in a wireless communication system according to a twelfth aspect of the present invention receives data including a desired reception time from each mobile station and transmits the data including the received desired reception time. A method is employed in which data is stored in association with the original mobile station and data transmission to the mobile station in which the desired reception time is stored is performed at the desired reception time.

According to this method, the user of the receiving mobile station can easily set the desired reception time in the gateway device and receive data addressed to the own station at an arbitrary time. Users will also be able to enjoy the benefits of the hourly fee structure.

[0044] In a data transmission method for a gateway apparatus according to a thirteenth aspect of the present invention, in the twelfth aspect, the data including the desired reception time may be a transmission data addressed to its own station which is classified into a predetermined data type. Data classification information, individual desired reception time for each classified data type,
The desired data classification information is read from the data including the desired reception time, the transmission data addressed to the mobile station is classified into a predetermined data type based on the read desired data classification information, and the desired reception time is determined. A method is adopted in which the individual desired reception time is read from the included data, and the classified transmission data is transmitted at the individual desired reception time corresponding to each of the predetermined data types.

According to this method, data can be classified according to various conditions that can be set arbitrarily, and the classified data can be received at any time.
User convenience is improved.

The data transmission method of a gateway device according to a fourteenth aspect of the present invention is the data transmission method according to the thirteenth aspect, wherein, when the desired reception time is an arbitrary time within a desired time range, a plurality of continuous predetermined unit times The predetermined reception time is monitored at every predetermined unit time, and based on the monitoring result, the desired reception time is distributed as much as possible within the predetermined unit time, and the maximum value of the traffic within the predetermined unit time is reduced. Then, a method of determining an arbitrary time within the desired time range is adopted.

[0047] In a data transmission method for a gateway device according to a fifteenth aspect of the present invention, in the fourteenth aspect, the transmission control step comprises the step of: A predetermined unit time sequence including the next predetermined unit time is generated, and the desired reception time is dispersed as much as possible in the predetermined unit time sequence based on the traffic monitoring result, and the maximum value of the traffic in the entire predetermined unit time sequence is calculated. As it goes down,
An arbitrary time within the desired time range is determined, and after the scheduling for one predetermined unit time sequence is completed, a new predetermined unit time sequence consisting of the one predetermined unit time sequence and the next predetermined unit time is generated. A method of monitoring a predetermined unit time number included in the predetermined unit time sequence and stopping generation of a new predetermined unit time sequence when the predetermined unit time number reaches the predetermined number is adopted.

According to this method, the traffic can be dispersed as much as possible, for example, for each hour of traffic or for the entire day of traffic, under the constraint that the desired reception time of the user is satisfied. Of users can enjoy the advantages of the hourly fee system, prevent the accompanying concentration of traffic, and distribute traffic.

[0049] In the data transmission method for a gateway device according to a sixteenth aspect of the present invention, in the fourteenth or fifteenth aspect, the transmission time interval is uniform within the predetermined unit time or the predetermined unit time sequence. Take the method.

According to this method, if the range in which traffic is dispersed and the amount of data to be transmitted within the range are known,
Distributed processing can be easily executed.

[0051] In a data transmission method for a gateway device according to a seventeenth aspect of the present invention, in the twelfth or thirteenth aspect, the desired reception time elapses a predetermined time from a time at which the gateway device received data to be transmitted. Take the method that is later time.

According to this method, setting of a desired reception time for data or the like that is known in advance from the transmission source to be transmitted on a regular basis is simplified.

[0053] In a data transmission method for a gateway device according to an eighteenth aspect of the present invention, in the seventeenth aspect, the predetermined time is set to zero, and the data is transmitted to the mobile station as soon as the gateway device receives the data to be transmitted. The method for controlling the transmission step is adopted.

According to this method, if the user does not want a particular desired reception time or receives data that does not require a particular desired reception time, the user can set the desired reception time as usual without setting the desired reception time. Data can be received immediately.

[0055]

Embodiments of the present invention will be described below with reference to the accompanying drawings. The same components are denoted by the same reference numerals throughout the drawings.

The present invention is applicable to both packet-switched systems and circuit-switched systems. In the following embodiments, a packet communication system is assumed as an example. Note that the positioning and basic role of the gateway device according to the present invention in a wireless communication system or a network are the same as in the case of the conventional system already described using the packet communication system as an example. Detailed description of the configuration and functions is omitted. This means
Even in the case of a circuit switching type system, the configuration of the communication system outside the gateway device does not affect the function of the present invention.

(Embodiment 1) First, a gateway device and a data transmission method thereof according to Embodiment 1 of the present invention will be described using FIG. 1 and FIG. FIG. 1 is a block diagram showing a schematic configuration of a gateway device according to Embodiment 1 of the present invention, and FIG. 2 is a block diagram showing Embodiment 1 of the present invention.
FIG. 6 is a sequence diagram showing a data transmission method according to the embodiment.

First, the configuration of the gateway device according to the present embodiment will be described with reference to FIG. The gateway device (GWF) 101 includes a data transmission / reception processing unit 102
, Reception time management section 103, desired reception time data holding section 104, transmission control section 105, transmission data holding section 1
06.

The data transmission / reception processing unit 102 has a capability of processing data transmission / reception to / from the outside of the apparatus and transmitting data at different times for each destination mobile station under the control of the transmission control unit 105.

The reception time management section 103 receives the desired reception time of the user of the mobile station from the receiving mobile station, and writes it in the desired reception time data holding section 104. The desired reception time data holding unit 104 holds the data reception time desired by the user of each mobile station in association with the mobile station.

[0061] Transmission control section 105 controls data transmission / reception processing section 102 so as to individually transmit data to be transmitted to mobile stations for each mobile station. At this time, the transmission control unit 105 accesses the desired reception time data holding unit 104, acquires desired reception time data for the mobile station of the destination to be transmitted from now on, and transmits the transmission data addressed to the mobile station to the desired reception time. The data transmission / reception processing unit 102 is controlled to transmit at the time.

The transmission data holding unit 106 includes the transmission control unit 1
05, and temporarily stores the data until the user's desired reception time of the destination mobile station of the data. The stored transmission data is read by the transmission control unit 105 at the desired time, and the data transmission / reception processing unit 102
Sent to

Next, an operation and a processing method according to this embodiment will be described with reference to FIG. Here, in order to simplify and explain the communication between the mobile stations, the illustration and description of the configuration and the network between the gateway device (GWF) and the mobile station (MS) are omitted.

First, data transmitted from the transmitting mobile station to the receiving mobile station is received by the data transmission / reception processing unit 102 of the gateway device via the NSP / intranet.

When the transmission data to the mobile station is received, the transmission control section 105 controls the desired reception time data holding section 1.
04, and it is determined whether a desired reception time is set for the destination mobile station.

If the desired reception time has been set, the transmission data is transmitted by the transmission control unit 105 to the transmission data holding unit 1.
06 and stored until the desired time. If the desired time has not been set, the transmission control unit 105 controls the data transmission / reception processing unit 102 so that the transmission data is immediately transmitted, and the transmission processing is performed.

As described above, the gateway device 101 can transmit data at the set desired reception time.
Therefore, by setting the desired reception time in the gateway device 101 in advance, the receiving-side mobile station can enjoy the advantage of the time-based fee system.

The desired reception time data transmitted from the mobile station is transmitted to the data transmission / reception processing unit 102 of the gateway 101.
Is received by the reception time management unit 103 and is associated with the mobile station and written into the desired reception time data holding unit 104.

As described above, according to the gateway apparatus and the data transmission method thereof according to the present embodiment, the user of the mobile station sets the desired reception time in the gateway apparatus in advance so that the mobile station user can set the desired reception time at the arbitrary time. Since the data can be received, the user of the receiving mobile station can also enjoy the advantage of the time-based fee system.

(Embodiment 2) Next, a gateway device and a data transmission method according to a second embodiment of the present invention will be described with reference to FIGS. FIG. 3 is a block diagram showing a schematic configuration of a gateway device according to Embodiment 2 of the present invention, and FIG. 4 is a schematic diagram conceptually showing a traffic distribution method according to Embodiment 2 of the present invention. is there.

This embodiment has essentially the same functions as those of the first embodiment, and additionally has a specific time (for example, 12: 0) for a desired reception time set by the user.
0) as well as a fixed period (from a certain time to a certain time; for example, 14:00 to 16:00).

In FIG. 3, when a desired reception time of a mobile station specified by transmission control section 105 is designated as a range, transmission time scheduling section 301 selects the mobile station when traffic is most free within the range. The transmission time of the data transmission / reception processing unit 102 is scheduled so as to transmit the transmission data addressed thereto.

FIG. 4 schematically shows the concept of scheduling in which traffic is distributed as described above. Since the transmission data may differ for each destination mobile station, the amount of data to be transmitted to all mobile stations must be known and distributed as much as possible under the constraint that each data must be transmitted within each desired reception time zone. Sent.

According to the present embodiment, when the user sets the desired reception time, for example, “14:00 to 16: 0”
Since the desired reception time can be specified within a range, that is, as a desired time zone, such as “until 0”, the trouble of specifying a specific time that is convenient for oneself and specifying the time can be omitted.

There is also an advantage on the system side. When the user is requested to specify a specific time, it is assumed that many users specify exactly "00 minutes" at each time such as "4:00" due to ease and simplicity of setting. In such a case, if the transmission is performed in accordance with each user's request, there is a concern that the traffic may increase just at “00 minutes” at each time. If the time specification requested to the user is a range specification, the system can monitor the traffic situation and send it when the traffic is the least available within the above range, and can distribute and level the traffic. it can.

(Embodiment 3) Next, a gateway device and a data transmission method thereof according to Embodiment 3 of the present invention will be described using FIG. 5 and FIG. FIG. 5 is a block diagram illustrating a schematic configuration of a gateway device according to Embodiment 3 of the present invention, and FIG. 6 is a sequence diagram illustrating a desired reception time setting method according to Embodiment 3 of the present invention.

This embodiment is essentially a second embodiment.
In addition to the above, the desired reception time can be set not for each mobile station but for each predetermined data type.

In FIG. 5, reception time management section 501 includes
The desired reception time is received from the mobile station, and is written in the desired reception time data holding unit 502 in association with the mobile station. The reception time management unit 501 receives a desired reception time set for each predetermined data type from the mobile station, and associates the desired reception time with the mobile station and the predetermined data type to store the desired reception time data holding unit 50.
Write to 2.

The desired reception time data holding section 502 holds the desired reception time for each mobile station in association with the mobile station, and holds the desired reception time for each mobile station and each predetermined data type in association with the mobile station and the predetermined data type. I do.

Here, the predetermined data type is, for example, data that satisfies predetermined conditions regarding data size, an e-mail whose transmission source is a specific mail address, an e-mail whose transmission mail address includes a specific domain, E-mail with specific characters or character strings in the subject, e-mail with specific characters or character strings in the mail body, e-mail with attached files, e-mail with specific types of files attached, etc. Can be considered.

The transmission control unit 503 stores the transmission data not only in the transmission data holding unit 106 but also in the data separation processing unit 504.
Also communicate to The data classification processing unit 504 acquires the desired reception time of the transmission destination mobile station of the transmission data from the desired reception time data holding unit 402 based on the transmission data. If the mobile station has an individual desired reception time for each predetermined data type, the data classification processing unit 504 determines whether or not the predetermined data type corresponding to the transmission data exists. The desired reception time set for the data type is transmitted to the transmission control unit 503, and if not present, the desired reception time of the mobile station is transmitted.

Next, an example of the desired reception time setting for each of the above-mentioned predetermined data types will be described with reference to FIG.

Example 1 shows that “the sender is info @ dummy-
site-name. ne. jp "is set for the data that satisfies the condition of" received at 6:00 collectively every day ".

In the example 2, data that satisfies the condition "the subject includes a character string" information provision "" is "received every day from 4:00 to 5:00".
A desired reception time (time zone) is set.

Example 3 shows that the data satisfying the condition "the text includes the character string" meeting guidance "" is desirably received "all weekly at 0:00 to 24:00 on Sunday". A case where a reception time (time zone) is set is shown.

As described above, according to the present embodiment, data can be classified according to various conditions that can be arbitrarily set, and the classified data can be received at arbitrary times, respectively. The performance is improved.

(Embodiment 4) Next, with reference to FIG. 7 and FIG. 8, a gateway device and a data transmission method thereof according to Embodiment 4 of the present invention will be described. FIG. 7 is a block diagram showing a schematic configuration of a gateway device according to Embodiment 4 of the present invention, and FIG. 8 is a graph showing traffic before and after the traffic distribution method according to Embodiment 4 of the present invention. .

This embodiment is essentially a third embodiment.
In addition to this, in addition to the above-mentioned function, data is dispersed and transmitted so as to reduce the maximum traffic in all time zones in consideration of the entire traffic.

In FIG. 7, a traffic monitoring unit 701
Acquires sample data from the past traffic as a total for each predetermined unit time (for example, one hour), holds it, and transmits it to the transmission time scheduling unit 702.

The transmission time scheduling unit 702 includes, for example, past hourly traffic data transmitted from the traffic monitoring unit 701 and the one hour (for example, 4:00 to 5: 00)
And the amount of data to be transmitted during the period, and calculate, for example, how many minutes should be transmitted so that the total amount of data is transmitted as dispersed as possible in the one hour.

When the above-described scheduling is performed for one predetermined unit time, the transmission scheduling unit 702 then performs a predetermined unit time sequence of two units (for example, the one predetermined unit time and the next predetermined unit time) (for example, 2 hours)
, The same scheduling is performed. Then, this processing is performed by adding the predetermined unit time to a predetermined number (for example, 24,
That is, repeat until 1 day) is reached.

Hereinafter, an example of the above processing will be specifically described with reference to FIG. FIG. 8A is a graph showing an hourly total of past traffic acquired by the traffic monitoring unit 701. Here, the predetermined unit time is 1
It is assumed that the predetermined unit time starts from “00 minutes” at each time.

Here, the transmission data whose desired reception time or desired reception time zone is from 4:00 to 5:00 in the held transmission data held in the transmission data holding unit 106 is combined with the past traffic data. Value is 4: 0
The transmission is scheduled so as to be distributed as much as possible between 0 and 5:00.

Next, transmission data to be transmitted between 4:00 and 6:00 is similarly distributed taking traffic data into consideration, and scheduling such as transmission intervals is determined.

Next, scheduling is similarly performed between 4:00 and 7:00. This is a predetermined number,
For example, it is performed for 24 hours (that is, for one day). Then
Traffic throughout the day can be distributed to the maximum extent under the constraint that the user's desired reception time is satisfied.

As described above, according to the present embodiment, traffic can be dispersed to the maximum under the constraint that the user's desired reception time is satisfied, so that the user on the receiving side can benefit from the time-based fee system. Can be enjoyed, and the accompanying concentration of traffic can be prevented, and traffic can be dispersed.

Although the above embodiments have been described on the premise of the packet communication system, the present invention is also applicable to a circuit switching type system. At this time, the configuration of the communication system other than the gateway device may be different from that of the packet communication system, but the difference does not affect the contents of the gateway device and the data transmission method according to the present invention.

In each of the above embodiments, a system has been described in which the receiving side mobile station can select a desired receiving time so that the receiving side user can enjoy the merit of the hourly fee system. Can naturally be applied to a system in which "all communication charges are charged to the sender". In this case, there is an advantage that the receiving user can receive data at an arbitrary time.

[0099]

As described above, according to the gateway device of the wireless communication system according to the first aspect, the user of the receiving mobile station can also enjoy the advantage of the time-based fee system.

According to the gateway device of the second aspect, the user of the receiving mobile station can easily set the desired reception time in the gateway device.

According to the gateway device of the third and fourth aspects, data can be classified according to various conditions that can be set arbitrarily, and the classified data can be received at arbitrary times.

According to the gateway device of the fifth aspect, the user can specify a specific time since the user can specify the desired reception time in a range such as "between 4 o'clock and 6 o'clock". You can save time and effort. In addition, the system can monitor the status of the traffic and transmit the traffic when the traffic is the least available within the above-mentioned range, thereby distributing and leveling the traffic.

According to the gateway device of the sixth aspect, the transmission time distribution as temporally dispersed as possible is achieved under the constraint that the desired time range of each desired reception time is always respected. .

Further, according to the gateway device of the present invention, it is possible to disperse the traffic to the maximum within the constraint of satisfying the user's desired reception time, for example, for the entire day of the traffic.

According to the gateway device of the eighth aspect, distributed processing can be easily executed.

According to the gateway device of the ninth aspect, setting of a desired reception time is simplified.

According to the gateway device of the tenth aspect, the user can immediately receive the data as usual.

Further, according to the radio communication system of the present invention, the system management side can provide a service having a time-based charge system in which the user of the receiving station can also benefit, and the user's request Traffic distribution can be maximized within a range that strictly adheres to the above.

According to the data transmission method of the gateway device in the wireless communication system according to the twelfth aspect, the user of the receiving mobile station can also enjoy the advantage of the time-based fee system.

According to the data transmission method of the gateway device, the data can be classified according to various conditions that can be arbitrarily set, and the classified data can be received at any time. Become.

Further, according to the data transmission method of the gateway device of the present invention, the user on the receiving side can enjoy the advantages of the time-based fee system, prevent the accompanying concentration of traffic, and distribute the traffic. Can be achieved.

Further, according to the data transmission method of the gateway device, it is possible to easily execute the distributed processing.

According to the data transmission method of the gateway device of the present invention, the desired reception time setting can be simplified.

Further, according to the data transmission method of the gateway device of the eighteenth aspect, the user can immediately receive the data as usual.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a schematic configuration of a gateway device according to Embodiment 1 of the present invention.

FIG. 2 is a sequence diagram showing a data transmission method according to Embodiment 1 of the present invention.

FIG. 3 is a block diagram showing a schematic configuration of a gateway device according to Embodiment 2 of the present invention.

FIG. 4 is a schematic diagram conceptually showing a traffic distribution method according to Embodiment 2 of the present invention.

FIG. 5 is a block diagram showing a schematic configuration of a gateway device according to Embodiment 3 of the present invention.

FIG. 6 is a sequence diagram showing a desired reception time setting method according to Embodiment 3 of the present invention.

FIG. 7 is a block diagram illustrating a schematic configuration of a gateway device according to Embodiment 4 of the present invention.

FIG. 8 is a graph showing traffic before and after implementing a traffic distribution method according to Embodiment 4 of the present invention.

FIG. 9 is a conceptual diagram showing an example of a general PDC mobile packet communication system.

FIG. 10 is a schematic diagram conceptually showing a data flow in a general packet communication system and a general billing system.

[Explanation of symbols]

 Reference Signs List 101 gateway device (GWF) 102 data transmission / reception processing unit 103 reception time management unit 104 desired reception time data holding unit 105 transmission control unit 106 transmission data holding unit 301 transmission time scheduling unit 501 reception time management unit 502 desired reception time data holding unit 503 Transmission control unit 504 Data classification processing unit 701 Traffic monitoring unit 702 Transmission time scheduling unit

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Koichi Ogasawara 2-1-1-1, Nagatacho, Chiyoda-ku, Tokyo F-term in NTT Docomo (reference) 5K030 HA05 HB11 HB15 HD03 JL01 JT09 KA01 KA06 KA21 LD18 MA04 MB09 5K067 AA12 AA41 BB21 DD51 EE02 EE10 EE16 FF02 FF06 GG01 GG11 HH05

Claims (18)

[Claims] 1. A transmitting means for transmitting data at a different time for each destination mobile station, and holding a desired reception time for a predetermined mobile station so that data transmission to the predetermined mobile station is performed at the desired reception time. And a transmission control means for controlling the transmission means. 2. A transmission unit for receiving data including a desired reception time from each mobile station, and storing the data including the received desired reception time in association with a transmission source mobile station. The gateway device according to claim 1, further comprising a unit. 3. The data including the desired reception time is classified into a predetermined data type on the condition that at least one of transmission data and a header of the transmission data includes predetermined information. And a desired data reception condition for each data type classified according to the condition. The transmission control unit includes a data classification processing unit that classifies transmission data into the predetermined data type. 3. The gateway device according to claim 1, wherein the classified transmission data is transmitted at the individual desired reception time corresponding to the predetermined data type. 4. The predetermined information includes a data size, a mail address or a domain included in a mail address of an e-mail sender, an arbitrary character or a character string in an e-mail subject, an arbitrary character or a character string in an e-mail text. The gateway device according to claim 3, wherein the gateway device is at least one of a character string, presence / absence of an e-mail attached file, and a file type of the e-mail attached file. 5. The gateway device according to claim 1, wherein the desired reception time is an arbitrary time within a desired time range. 6. A traffic monitoring unit that monitors traffic within a predetermined period consisting of a plurality of continuous predetermined unit times at every predetermined unit time, wherein the desired reception time is determined based on a result of the monitoring. 6. A transmission time scheduling unit which is scattered as much as possible within a predetermined unit time and determines an arbitrary time within the desired time range so as to reduce the maximum value of traffic within the predetermined unit time. The gateway device as described. 7. The transmission control unit generates a predetermined unit time sequence including the predetermined unit time and the next predetermined unit time after the transmission time scheduling unit completes scheduling for the predetermined unit time. A time sequence generation unit; and a scheduling control unit, wherein the transmission time scheduling unit distributes the desired reception time as much as possible within the predetermined unit time sequence based on a monitoring result by the traffic monitoring unit, and An arbitrary time within the desired time range is determined so that the maximum value of traffic in the entire unit time sequence is reduced. To generate a new predetermined unit time sequence consisting of the following predetermined unit time, and The control unit monitors the predetermined unit time number included in the new predetermined unit time sequence, and when the predetermined unit time number reaches the predetermined number, the time sequence generation unit generates a new new predetermined unit time sequence. 7. The gateway device according to claim 6, wherein the gateway is stopped. 8. The gateway according to claim 6, wherein the transmission time scheduling unit performs scheduling so that transmission time intervals are uniform within the predetermined unit time or the predetermined unit time sequence. apparatus. 9. The gateway device according to claim 1, wherein the desired reception time is a time after a lapse of a predetermined time from a time when the gateway device receives data to be transmitted. 10. The transmission control means controls the transmission means to transmit the data to the mobile station immediately upon receiving the data to be transmitted by the gateway device, wherein the predetermined time is set to zero. 10. The gateway device according to 9. 11. A wireless communication system including the gateway device according to claim 1. 12. A mobile station that receives data including a desired reception time from each mobile station, stores the received data including the desired reception time in association with a source mobile station, and stores the desired reception time. A data transmission method for a gateway device in a wireless communication system, wherein data transmission to a station is performed at the desired reception time. 13. The data including the desired reception time includes desired data classification information for classifying transmission data addressed to the own station into a predetermined data type, and individual desired reception times for the classified data types. Reading the desired data classification information from the data including the desired reception time; classifying the transmission data addressed to the mobile station into a predetermined data type based on the read desired data classification information; 13. The data transmission method according to claim 12, wherein the individual desired reception time is read, and the classified transmission data is transmitted at the individual desired reception time corresponding to each of the predetermined data types. 14. When the desired reception time is an arbitrary time within a desired time range, traffic within a predetermined period composed of a plurality of continuous predetermined unit times is monitored for each predetermined unit time, and 14. An arbitrary time within the desired time range is determined so that the desired reception time is dispersed as much as possible within a predetermined unit time and the maximum value of traffic within the predetermined unit time is reduced. Data transmission method. 15. The transmission control step includes, after scheduling for one predetermined unit time, generating a predetermined unit time sequence including the one predetermined unit time and the next predetermined unit time, based on a traffic monitoring result. The arbitrary time within the desired time range is determined so that the desired reception time is dispersed as much as possible in the predetermined unit time sequence and the maximum value of traffic in the entire predetermined unit time sequence is reduced. After the scheduling is completed, a new predetermined unit time sequence including the one predetermined unit time sequence and the next predetermined unit time is generated, and the number of predetermined unit times included in the new predetermined unit time sequence is monitored. The method according to claim 14, wherein when the number of unit times reaches a predetermined number, generation of a new predetermined unit time sequence is stopped. Over data transmission method. 16. The data transmission method according to claim 14, wherein scheduling is performed such that transmission time intervals are uniform within the predetermined unit time or the predetermined unit time sequence. 17. The apparatus according to claim 12, wherein the desired reception time is a time after a lapse of a predetermined time from a time at which the gateway device receives data to be transmitted.
Data transmission method described. 18. The data transmission method according to claim 17, wherein the predetermined time is set to zero, and the transmission step is controlled so that the data is transmitted to the mobile station as soon as the gateway apparatus receives the data to be transmitted.