JP3698103B2 - Push type information distribution system and push type information distribution program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a push-type information distribution system and a push-type information distribution program, and more particularly to a push-type information distribution system and a push-type information distribution program in which a server provides information to a user terminal via a network.
[0002]
[Prior art]
Conventionally, pull-type information distribution methods and push-type information distribution methods are known in the field of information provision services via networks such as the Internet and public line networks. Among them, the pull type information distribution method is a method in which a user accesses a server of an information provider (content provider) from a user terminal such as a personal computer and downloads desired information. On the other hand, the push-type information distribution method is a method of providing information to a plurality of user terminals from the server side without waiting for access by the user. The push type information distribution method is disclosed in, for example, Japanese Patent Application Laid-Open No. 11-136308 and Japanese Patent Application Laid-Open No. 2001-175777. Recently, stock price information and e-mail that require high real-time performance are disclosed in this method. Tend to be delivered by.
[0003]
[Problems to be solved by the invention]
By the way, with recent advances in wireless communication technology, various portable user terminals (hereinafter referred to as portable terminals) that have been reduced in size and weight and have a communication function have been developed. As this mobile terminal, a mobile phone, a simple mobile phone (PHS: Personal Handy-phone System), a mobile phone or a PHS connected to the mobile phone or PHS via a cable, or a mobile phone with a built-in communication function is inserted. There are computers such as information terminals (PDA: Personal Digital Assistants), notebook type, palm type, and pocket type. Here, a PC card is a credit card-sized peripheral device that complies with the PC Card Standard jointly standardized by the US PCMCIA (Personal Computer Memory Card International Association) and the Japan Electronics Industry Promotion Association (JEIDA). It is a general term.
[0004]
A user who carries this type of mobile terminal often moves to a place such as a building or a factory where radio waves of the public line network do not reach (hereinafter referred to as a public radio wave non-arrival place). Conventionally, indoor base stations are installed in various places where public radio waves do not arrive so that the user can use the mobile terminal even in places where public radio waves do not arrive. It is configured to connect to the network. In this case, in order for a user to make a call using a portable terminal or receive information distribution in a place where a public radio wave does not arrive, a telephone assigned to the indoor base station to connect the indoor base station to the public line network It is necessary to use a number.
Therefore, also in the push type information distribution method, it is necessary to perform information distribution in consideration of a user carrying the portable terminal and moving to a place where a public radio wave does not arrive.
However, none of the above-mentioned publications discloses a push type information distribution method when the user moves to a place where a public radio wave does not arrive. Therefore, in this case, there is a problem that information cannot be distributed to each user.
[0005]
The present invention has been made in view of the above circumstances, and a push-type information distribution system and a push-type information distribution program capable of distributing information even when a user moves to a place where radio waves do not reach the public network. The purpose is to provide.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention described in claim 1 is connected to the public line network, at least one first base station connected to the public line network, and the public line network, At least one second base station installed in a place where radio waves of the public line network do not reach, at least one information distribution server connected to the public line network, and the first or second base A push-type information distribution system comprising at least one mobile terminal connected to the public network via any one of the stations, wherein the mobile terminal is connectable to the first or second base station When the change is detected, a call is made to the information distribution server via the public line network using at least the telephone number assigned to the first or second base station, and the change is recognized. The signal indicating When received from a server, the first or second base station is registered as a base station used when receiving information distribution, and the information distribution server is used by the portable terminal for each portable terminal. A plurality of possible at least telephone numbers and a distribution destination table that stores which of the plurality of at least telephone numbers is set as an information distribution destination, and is notified together with an incoming call from the portable terminal If at least the telephone number exists in the distribution destination table and is not set as the distribution destination of the current information by referring to the distribution destination table by at least the telephone number, the at least telephone number is set to the next information. If the information to be distributed is generated and the signal indicating that the change has been recognized is transmitted to the mobile terminal, Is characterized by distributing the information to the mobile terminal using the at least telephone numbers to the distribution destination table is set as the destination of the current information.
[0007]
The invention according to claim 2 is connected to the public line network, at least one first base station connected to the public line network, and to the public line network, and to receive radio waves from the public line network. Through at least one second base station installed in a location that cannot be reached, at least one information distribution server connected to the public network, and either the first or second base station A push type information distribution system comprising at least one mobile terminal connected to the public line network, wherein the mobile terminal detects a change in the connectable first or second base station The public line network is registered by registering the first or second base station as a base station to be used when receiving distribution of information and using at least a telephone number assigned to the first or second base station. Via the above information A call is made to a communication server, and the information distribution server, for each of the mobile terminals, uses a plurality of the at least telephone numbers that can be used by the mobile terminal and a plurality of the at least telephone numbers as information distribution destinations. It has a distribution destination table for storing whether it is set, and refers to the distribution destination table by at least the telephone number notified together with the incoming call from the portable terminal, and the at least telephone number exists in the distribution destination table If at least the telephone number is set as the next information delivery destination when the information is not set as the current information delivery destination, and the information to be delivered is generated, The information is distributed to the portable terminal using at least the telephone number set as the information distribution destination.
[0008]
According to a third aspect of the present invention, there is provided a public line network, at least one first base station connected to the public line network, and the public line network. At least one second base station installed in a place that does not reach, at least one distribution notification server connected to the public line network and the Internet, and at least one connected to the public line network and the Internet A push-type information distribution system comprising: one information server; and at least one portable terminal connected to the public line network via either the first or second base station, the portable terminal When the change of the connectable first or second base station is detected, at least the telephone number assigned to the first or second base station is used to transmit the change via the public line network. When a call is made to the communication notification server and a signal indicating that the change has been recognized is received from the distribution notification server, the first or second base station is used for receiving information distribution. When registering as a base station and receiving notification from the distribution notification server that new information to be distributed has been generated, connect to the information server via the public line network and receive the distribution of the new information. The distribution notification server stores, for each portable terminal, which of the plurality of at least telephone numbers that can be used by the portable terminal and which of the plurality of at least telephone numbers are set as information distribution destinations. The distribution destination table is provided, and the distribution destination table is referred to by the at least telephone number notified together with the incoming call from the portable terminal. If at least the telephone number is set as the next information delivery destination, a signal indicating that the change has been recognized is sent to the portable terminal. And at least the telephone number set as the distribution destination of the current information in the distribution destination table is received from the information server to the effect that new information to be distributed via the Internet has occurred. In order to notify that the new information to be distributed has been generated, the portable terminal is called. When the information to be distributed is generated, the information server sends the information to the distribution notification server via the Internet. After requesting notification to the mobile terminal, if the mobile terminal is connected via the public network, the information is distributed to the mobile terminal. It is a feature.
[0009]
According to a fourth aspect of the present invention, there is provided a public line network, at least one first base station connected to the public line network, and the public line network. At least one second base station installed in a place that does not reach, at least one distribution notification server connected to the public line network and the Internet, and at least one connected to the public line network and the Internet A push-type information distribution system comprising: one information server; and at least one portable terminal connected to the public line network via either the first or second base station, the portable terminal When the change of the connectable first or second base station is detected, the first or second base station is registered as a base station used when receiving distribution of information, and the A call is made to the information distribution server via the public line network using at least the telephone number assigned to the first or second base station, and new information to be distributed from the distribution notification server is generated. When the notification is received, the information server connects to the information server via the public line network and receives the distribution of the new information. The distribution notification server includes a plurality of mobile terminals that can be used for each mobile terminal. The at least telephone number and a plurality of the at least telephone numbers that are set as distribution destinations of information are stored, and the at least telephone number is notified together with an incoming call from the portable terminal By referring to the delivery destination table, if at least the telephone number exists in the delivery destination table and is not currently set as the delivery destination of information If at least the telephone number is set as the distribution destination of the next information, and the notification that new information to be distributed via the Internet is generated from the information server, The mobile terminal is called to notify that the new information to be distributed has been generated using at least the telephone number set as the information distribution destination, and the information server has generated the information to be distributed. If the mobile terminal connects via the public line network after requesting the delivery notification server to notify the mobile terminal via the Internet, the information is distributed to the mobile terminal. It is characterized by that.
[0010]
Further, the invention according to claim 5 relates to the push type information distribution system according to claim 3 or 4, wherein the information server receives the information from the portable terminal when the portable terminal is connected via the public line network. Authentication is performed based on transmitted authentication information, and the information is distributed to the portable terminal only when the authentication is successful.
[0011]
The invention according to claim 6 relates to the push type information distribution system according to any one of claims 1 to 5, wherein the information distribution server or the distribution notification server has at least the telephone number as the distribution destination table. If the authentication is successful, if at least the telephone number is registered in the delivery destination table and the next information delivery destination It is characterized by setting as.
[0012]
The invention according to claim 7 relates to the push-type information distribution system according to any one of claims 1 to 6, wherein the portable terminal is used as a slave unit of the second base station. It is characterized in that it includes a subaddress assigned when it is registered.
[0013]
The invention according to claim 8 relates to the push-type information distribution system according to any one of claims 1, 3, 5, 6 or 7, and the signal indicating that the change is recognized is an incoming call rejection. It is characterized by being.
[0014]
According to a ninth aspect of the present invention, there is provided a push-type information distribution program for causing a computer to realize the function according to any one of the first to eighth aspects.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. The description will be made specifically with reference to examples.
A. First embodiment
First, a first embodiment of the present invention will be described.
FIG. 1 is a block diagram showing a configuration of a push type information distribution system according to a first embodiment of the present invention.
The push type information distribution system of this example includes an information distribution server 1 and a public base station 2. ₁ ~ 2 _k (K is a natural number) and indoor base station 3 ₁ ~ 3 _m (M is a natural number) and mobile terminal 4 ₁ ~ 4 _n (N is a natural number) and a public line network 5. Information distribution server 1 and public base station 2 ₁ ~ 2 _k Is installed by connecting to the public network 5 with a cable, or installed in a place where radio waves of the public network 5 reach. Meanwhile, indoor base station 3 ₁ ~ 3 _m Are installed in places where public radio waves do not arrive, such as buildings and factories, but are connected to the public network 5 by cables. Indoor base station 3 ₁ ~ 3 _m Each is assigned a dedicated telephone number for connecting to the public line network 5. Indoor base station 3 ₁ ~ 3 _m Can register a plurality of mobile terminals 4 as slave units and has a function of assigning a sub-address to each mobile terminal 4. Here, the sub-address refers to each indoor base station 3 ₁ ~ 3 _m The number assigned to each portable terminal 4 when the portable terminal 4 is registered as a slave.
[0016]
Mobile terminal 4 ₁ ~ 4 _m Is a wireless public base station 2 ₁ ~ 2 _k Or indoor base station 3 ₁ ~ 3 _m Can be connected to the public line network 5 via the public base station 2 or the indoor base station 3. The public line network 5 includes a mobile communication network, a fixed network, and a gateway. A mobile communication network is information that is used in mobile communication performed between communication devices and mobile terminals mounted on a mobile body such as an automobile or a ship, or between these communication devices or mobile terminals and a fixed communication device. Used to communicate. The fixed network is used for information transmission performed between fixed communication devices. The gateway is a device for mutually connecting a mobile communication network and a fixed network having different communication protocols.
[0017]
As shown in FIG. 2, the information distribution server 1 includes a program storage unit 11, a distribution information storage unit 12, a distribution destination storage unit 13, a transmission / reception unit 14, a transmission control unit 15, an incoming call control unit 16, The caller number detection unit 17 and the control unit 18 are configured. Various programs executed by the control unit 18 are stored in the program storage unit 11. The distribution information storage unit 12 stores information to be distributed to the user. The delivery destination storage unit 13 stores a delivery destination table 13a shown in FIG. In the delivery destination table 13a, each mobile terminal 4 ₁ ~ 4 _n For each terminal ID assigned to identify each, an assigned telephone number, a subaddress, and a distribution flag DF ₁ Is stored. In FIG. 3, the terminal ID “N503” is the mobile terminal 4. ₁ The terminal ID “N504” is assigned to the mobile terminal 4. ₂ It shall be given to. Here, the assigned telephone number is a telephone number for connecting to the public line network 5 assigned to the public base station 2 or indoor base station 3 to which the mobile terminal 4 to which the terminal ID is assigned can be connected. It is a general term for telephone numbers for connecting to the public line network 5 assigned to the portable terminal 4. Also, the delivery flag DF ₁ Is set to “1” for a telephone number used when the information distribution server 1 distributes information among a plurality of assigned telephone numbers for each terminal ID, This flag is reset to “0”. In the terminal ID “N503”, the assigned telephone number “070-5170-2547” is the public base station 2. ₁ The assigned telephone number “045-934-2175” is assigned to the indoor base station 3 ₁ Is assigned to the indoor base station 3 and the assigned telephone number “03-3489-6578” is ₁₅ Is the telephone number assigned to. This distribution destination table 13a shows the range of actions such as the address of the user, the address of work or school, the commuting or school route, the place where the content provider often goes on holidays when the content provider concludes a contract with the user, for example. It may be created by searching for and selecting the assigned telephone numbers of the public base station 2 and the indoor base station 3 installed within the action range by making an inquiry in a questionnaire format. The assigned telephone number may be configured such that the user accesses the content provider's home page and applies for registration as appropriate.
[0018]
The program storage unit 11, the distribution information storage unit 12, and the distribution destination storage unit 13 are illustrated as being independent in FIG. 2 for the sake of easy understanding. The corresponding storage area is configured. As the storage medium, for example, ROM, RAM, semiconductor memory such as flash memory, FD (floppy disk), HD (hard disk), MO (magneto-optical) disk, CD (compact disk) -ROM, CD- R (Recordable), CD-RW (ReWritable), DVD (Digital Video Disc) -ROM, DVD-R, DVD-RW, and the like. Of these storage media, the FD is attached to the FD driver, the HD is attached to the HD driver in advance or at the time of use, the MO disk is attached to the MO disk driver, CD-ROM, CD-R, CD-RW, DVD -ROM, DVD-R, DVD-RW, etc. are used by being mounted on a CD / DVD driver. The same applies to each storage unit (including second and third embodiments) described later.
[0019]
2 includes a public line network 5 and a public base station 2. ₁ ~ 2 _k Or indoor base station 3 ₁ ~ 3 _m Via any of the mobile terminals 4 ₁ ~ 4 _m Communicate with. The transmission control unit 15 controls the transmission / reception unit 14 and distributes information to the mobile terminal 4. ₁ ~ 4 _m Call. The incoming call control unit 16 controls the transmission / reception unit 14 so that the mobile terminal 4 ₁ ~ 4 _m Control incoming calls. The caller number detection unit 17 is connected to the mobile terminal 4. ₁ ~ 4 _m Detecting the caller number (in some cases, caller number and subaddress) (hereinafter simply abbreviated as caller number) of the portable terminal 4 notified from the public line network 5 when receiving a call from the public line network 5 and notifying the control unit 18 . Here, the caller number refers to a telephone number used for line connection by the mobile terminal 4 connected to the line. Further, the sub-address here is a sub-address used for line connection by the mobile terminal 4 that has been connected to the line. The control unit 18 includes a CPU and the like, and controls each unit of the information distribution server 1 based on various programs stored in the program storage unit 11.
[0020]
Mobile terminal 4 shown in FIG. ₁ ~ 4 _n There are computers such as PDAs, notebook type, palm type, pocket type, etc., which are connected to a mobile phone, PHS, mobile phone or PHS via a cable or a PC card with a built-in communication function. In the following, the mobile terminal 4 ₁ Will be described as PHS. Other mobile terminals 4 ₂ ~ 4 _n As for the structure of the portable terminal 4 as to the characteristic part of the present invention, ₁ The configuration is substantially the same.
Mobile terminal 4 in this example ₁ As shown in FIG. 4, the program storage unit 21, the distribution information storage unit 22, the transmission telephone number storage unit 23, the distribution destination storage unit 24, the network identifier detection unit 25, the transmission / reception unit 26, and the transmission Although it has the control part 27, the incoming call | requirement control part 28, and the control part 29, all have a signal processing part, a transmission / reception part, a data storage part, a display part, and an operation part although not shown in figure.
[0021]
The program storage unit 21, the distribution information storage unit 22, the calling telephone number storage unit 23, and the distribution destination storage unit 24 are composed of storage media such as a ROM, a RAM, a flash memory, and a memory stick, for example.
Various programs executed by the control unit 29 are stored in the program storage unit 21. The distribution information storage unit 22 stores information distributed from the information distribution server 1. The calling telephone number storage unit 23 stores a telephone number assigned to the information distribution server 1. The delivery destination storage unit 24 stores a delivery destination table 24a shown in FIG. In the delivery destination table 24a, the mobile terminal 4 ₁ A network identifier assigned to each of the public base station 2 and the indoor base station 3 that can be connected to each other, and a distribution flag DF ₂ Is stored. In FIG. 5, the network identifier “P1001” is the public base station 2 ₁ The network identifier “H2001” is assigned to the indoor base station 3 ₁ And the network identifier “H2015” is the indoor base station 3 ₁₅ It shall be given to. Also, the delivery flag DF ₂ Is set to “1” for a plurality of network identifiers assigned to the public base station 2 or the indoor base station 3 used when the information distribution server 1 currently distributes information. Is a flag that is reset to “0”.
[0022]
The network identifier detection unit 25 shown in FIG. ₁ When the public base station 2 or the indoor base station 3 to which can be connected is changed, the network identifier given to the changed public base station 2 or indoor base station 3 is detected. The network identifier is detected by, for example, the mobile terminal 4 ₁ Of users are mobile terminals 4 ₁ Automatically when a dedicated key constituting an operation unit (not shown) is pressed or the control unit 29 periodically issues a dedicated AT command to the public base station 2 or the indoor base station 3. You may go. The transmission / reception unit 26 is connected to the public base station 2 ₁ ~ 2 _k Or indoor base station 3 ₁ ~ 3 _m And the information distribution server 1 through the public line network 5. The transmission control unit 27 controls the transmission / reception unit 26 to call the information distribution server 1 in order to receive the information distribution, and to detect an incoming call rejection from the information distribution server 1. The incoming call control unit 28 controls the transmission / reception unit 26 to control incoming calls from the information distribution server 1. The control unit 29 is composed of a CPU or the like, and is based on various programs stored in the program storage unit 21, and the mobile terminal 4. ₁ Control each part.
[0023]
Next, a schematic operation of the push type information distribution system having the above configuration will be described with reference to a sequence chart shown in FIG. First, mobile terminal 4 ₁ In FIG. 6, the connectable public base station 2 or indoor base station 3 is changed, and when it is detected (step SA1 in FIG. 6), a series of processing is started. When the change of the public base station 2 or the indoor base station 3 is detected, the portable terminal 4 ₁ Since the control unit 29 requests the public line network 5 to connect to the information distribution server 1 via the public base station 2 or the indoor base station 3 (call), the public line network 5 is connected to the information distribution server 1. (Calling) (step SA2). When the control unit 18 constituting the information distribution server 1 responds to the call from the public line network 5 (incoming call) and establishes the call, the control unit 18 detects the caller ID notified together with the incoming call. After that (step SA3), the delivery destination table 13a is referred to using the notified caller number and the like. As a result, when the caller number or the like exists in the delivery destination table 13a and is not currently selected as the delivery destination of the information, the control unit 18 uses the sender number or the like as the delivery destination of the next information. Set as. That is, the control unit 18 sends the delivery flag DF such as the caller number. ₁ Is not set to “1”, the delivery flag DF such as other caller IDs which have been set to “1” until now ₁ Is reset to “0” and the delivery flag DF such as the caller ID ₁ Is set to "1" (step SA4). Next, the control part 18 is the portable terminal 4. ₁ The incoming call is rejected without connecting the public line (steps SA5 and SA6).
[0024]
Mobile terminal 4 ₁ When the incoming call rejection by the information distribution server 1 is detected, the assigned telephone number (assigned telephone number and subaddress in some cases) (hereinafter simply referred to as the assigned telephone number) is changed due to the incoming call rejection. Recognize and distribute flag DF of other network identifiers that have been set to "1" until now ₂ Is reset to “0”, and the distribution flag DF of the network identifier of the public base station 2 or indoor base station 3 in which the change is detected in the process of step SA1 ₂ Is set to "1" (step SA7). In a PHS or an integrated services digital network (ISDN), it is possible to detect that a callee refuses an incoming call without connecting the line by investigating the reason for disconnection of the line by the callee.
[0025]
Thereafter, in the information distribution server 1, the portable terminal 4 ₁ When information to be distributed is generated and stored in the distribution information storage unit 12 (step SA8), the control unit 18 refers to the distribution destination table 13a and performs the portable terminal 4 in the process of step SA4. ₁ Is given to the terminal ID “N503 corresponding to the distribution flag DF ₁ The assigned telephone number or the like set to "1" is searched (step SA9). Next, when the control unit 18 requests the public line network 5 to connect to the information distribution server 1 using the retrieved assigned telephone number (call), the public line network 5 Mobile terminal 4 via public base station 2 or indoor base station 3 to which is assigned ₁ Is called (calling) (step SA10). And the portable terminal 4 ₁ When the call is established by the control unit 29 constituting the call answering the call from the public line network 5 (incoming call), the control unit 29 accepts the incoming call (step SA11) and connects the line (step SA12). ). Thereby, the control part 18 which comprises the information delivery server 1 is the portable terminal 4 from the delivery information storage part 12. FIG. ₁ The information to be distributed to is read out and distribution of the information is started (step SA13). When the distribution of the information is completed, the control unit 18 disconnects the line (steps SA14 and SA15).
[0026]
Next, the portable terminal 4 from the network identifier detection determination process to the distribution flag change process ₁ Will be described with reference to the flowchart shown in FIG. Here, as an initial state, as shown in FIG. ₁ Distribution flag DF of network identifier “P1001” assigned to ₂ Is set to “1”. First, mobile terminal 4 ₁ The control unit 29 proceeds to the process of step SB1, and when the connectable public base station 2 or indoor base station 3 is changed, the network identifier of the changed public base station 2 or indoor base station 3 is changed to the network. It is determined whether or not the identifier detection unit 25 has detected and notified. When the determination result is “NO”, the control unit 29 repeats the same determination. When the network identifier detected by the network identifier detection unit 25 is notified, the determination in step SB1 is “YES”, and the control unit 29 proceeds to step SB2.
[0027]
In step SB2, the control unit 29 refers to the distribution destination table 24a using the notified network identifier, and distributes the distribution flag DF corresponding to the network identifier. ₂ Is reset to "0". When this determination result is “NO”, the control unit 29 determines that the mobile terminal 4 ₁ Recognizes that the public base station 2 or the indoor base station 3 has not moved so much as to be changed, and ends the series of processes.
On the other hand, when the determination result in step SB2 is “YES”, that is, the distribution flag DF corresponding to the notified network identifier. ₂ Is reset to “0”, the control unit 29 controls the mobile terminal 4 to ₁ Recognizes that the public base station 2 or the indoor base station 3 is changed as the public base station 2 or the indoor base station 3 is changed, and proceeds to step SB3. For example, mobile terminal 4 ₁ A user who carries a public base station 2 ₁ Indoor base station 3 from where the radio waves reach ₁ Suppose you move to a place where no public radio waves are installed. In this case, as shown in FIG. ₁ Distribution flag DF of network identifier “H2001” assigned to ₂ Is reset to “0”, the control unit 29 proceeds to step SB3.
[0028]
In step SB3, the control unit 29 transmits to the information distribution server 1 to notify that the public base station 2 or the indoor base station 3 has been changed, and then proceeds to step SB4. In this case, the control unit 29 uses the indoor base station 3 to which the assigned telephone number “045-934-2175” is assigned. ₁ Through the public network 5 is requested to connect to the information distribution server 1 (calling). In step SB4, the control unit 29 performs the portable terminal 4 ₁ After starting a timer or a timer (both not shown) configured by a program provided inside the system, the process proceeds to step SB5. In step SB5, the control unit 29 determines whether or not an incoming call rejection by the information distribution server 1 is detected. When the determination result is “NO”, the control unit 29 proceeds to Step SB6.
[0029]
In step SB6, the control unit 29 determines whether or not the information distribution server 1 has disconnected the line. When the determination result is “YES”, the control unit 29 indicates that the information distribution server 1 is the portable terminal 4. ₁ Since it is determined that the incoming call from the mobile terminal 4 using an assigned telephone number or the like that has not been registered is recognized as having been disconnected, the series of processing ends. On the other hand, if the determination result in step SB6 is “NO”, that is, if the information distribution server 1 has not disconnected the line, the control unit 29 proceeds to step SB7. In step SB7, the control unit 29 determines whether or not the timer has timed out and detected when a preset time has elapsed. If this determination is “NO”, the control unit 29 returns to step SB5. On the other hand, if the determination result in step SB7 is “YES”, that is, if the timer has timed out and detected, the control unit 29 returns to step SB3 and makes a call to the information distribution server 1 again. .
[0030]
On the other hand, if the determination result in step SB5 is “YES”, that is, if the incoming call rejection by the information distribution server 1 is detected, the process proceeds to step SB8. In step SB8, the control unit 29 recognizes that the allocated telephone number of the information distribution destination has been changed due to the incoming call rejection by the information distribution server 1, and distributes other network identifiers that have been set to "1" until now. Flag DF ₂ Is reset to “0”, and the distribution flag DF of the network identifier of the public base station 2 or the indoor base station 3 in which the change is detected in the process of step SB1 ₂ Is set to “1”, and then a series of processing ends. In this case, the control unit 29 uses the public base station 2 ₁ Distribution flag DF of network identifier “P2001” assigned to ₂ Is reset to “0” and the indoor base station 3 ₁ Distribution flag DF of network identifier “H2001” assigned to ₂ Is set to “1”.
[0031]
Next, the operation of the information distribution server 1 from the incoming call detection determination process to the incoming call rejection process will be described with reference to the flowchart shown in FIG. Here, as an initial state, as shown in FIG. ₁ Distribution flag DF of assigned telephone number “070-5170-2547” assigned to ₁ Is set to “1”. First, the control unit 18 of the information distribution server 1 proceeds to the process of step SC1 and controls the incoming call control unit 16 so that the mobile terminal 4 ₁ ~ 4 _m It is determined whether an incoming call from any of the above is detected. When this determination result is “NO”, the control unit 18 repeats the same determination. Then, the incoming call control unit 16 is connected to the mobile terminal 4. ₁ When the incoming call from is detected, the determination in step SC1 is “YES”, and the control unit 18 proceeds to step SC2. In step SC2, the control unit 18 determines whether or not the caller number detection unit 17 has detected and notified the caller number and the like of the mobile terminal 4 notified from the public line network 5 at the time of incoming call. When this determination result is “NO”, the control unit 18 repeats the same determination. Then, the mobile terminal 4 notified by the caller number detection unit 17 from the public network 5 ₁ When the caller ID is detected and notified, the determination at step SC2 is “YES”, and the control unit 18 proceeds to step SC3. In this case, the caller number detecting unit 17 detects “045-934-2175” as the caller number and “11” as the subaddress and notifies the control unit 18 of the detected caller number, so the determination in step SC2 is “YES”. Thus, the control unit 18 proceeds to step SC3.
[0032]
In step SC3, the control unit 18 refers to the distribution destination table 13a to determine whether there is an assigned telephone number or the like that matches the notified caller number or the like. If the determination result is “NO”, the control unit 18 determines that the incoming call is from the portable terminal 4 using an unassigned assigned telephone number or the like, and proceeds to step SC7. On the other hand, when the determination result in step SC3 is “YES”, that is, as a result of referring to the delivery destination table 13a, there is an assigned telephone number or the like that matches the notified caller number or the like, the control unit 18 The process proceeds to step SC4. In this case, since the caller number “045-934-2175” and the subaddress “11” exist as the assigned telephone number and subaddress of the terminal ID “N503” in the distribution destination table 13a as shown in FIG. Control unit 18 proceeds to step SC4.
[0033]
In step SC4, the distribution flag DF corresponding to the caller number etc. notified by the caller number detection unit 17 ₁ Is reset to "0". If this determination is “NO”, control unit 18 proceeds to step SC 6. On the other hand, if the determination result in step SC4 is “YES”, that is, the delivery flag DF corresponding to the caller number or the like notified by the caller number detection unit 17 ₁ Is reset to “0”, the control unit 18 proceeds to Step SC5. In this case, as shown in FIG. 3, in the distribution destination table 13a, the distribution flag DF corresponding to the assigned telephone number “045-934-2175” and the subaddress “11” of the terminal ID “N503” is stored. ₁ Is reset to “0”, the controller 18 proceeds to Step SC5.
[0034]
In step SC5, the control unit 18 sends the distribution flag DF corresponding to the other assigned telephone number or the like that has been set to “1” until now. ₁ Is reset to “0” and the distribution flag DF corresponding to the assigned telephone number, etc. ₁ Is set to “1”, and then the process proceeds to Step SC6. In this case, the control unit 18 distributes the distribution flag DF corresponding to the assigned telephone number “075-5170-2547” that has been set to “1” until now. ₁ Is reset to “0” and the distribution flag DF corresponding to the assigned telephone number “045-934-2175” and the subaddress “11” ₁ Is set to “1”, and then the process proceeds to Step SC6. In step SC6, the control unit 18 causes the mobile terminal 4 to ₁ After rejecting the incoming call without connecting the public line, the series of processing is terminated. In step SC7, the control unit 18 ends the series of processes after disconnecting the line.
[0035]
Thus, according to the configuration of this example, the information distribution server 1 is notified in advance that the public base station 2 and the indoor base station 3 to which the mobile terminal 4 can be connected are changed. Even when the mobile station frequently moves between a plurality of public base stations 2 and indoor base stations 3, information can be distributed. Further, when information to be distributed is generated, the information distribution server 1 sequentially provides information to all public base stations 2 or indoor base stations 3 registered in the distribution destination table 13a for each portable terminal 4. The mobile terminal 4 can be called with a single call without making a call, so there is no need to make a useless call, improving communication efficiency and charging each time the call is made. Can be prevented.
[0036]
B. Second embodiment
Next explained is the second embodiment of the invention.
FIG. 9 is a block diagram showing a configuration of a push type information distribution system according to the second embodiment of the present invention. In this figure, parts corresponding to those in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted. In the push type information distribution system shown in this figure, the information distribution server 1 and the portable terminal 4 shown in FIG. ₁ ~ 4 _n Instead, the information distribution server 31 and the portable terminal 32 ₁ ~ 32 _n (N is a natural number) is newly provided.
[0037]
Next, the configuration of the information distribution server 31 will be described with reference to FIG. 10, parts corresponding to those in FIG. 2 are given the same reference numerals, and descriptions thereof are omitted. In the information distribution server 31 shown in this figure, a mobile terminal authentication unit 33 and an authentication information storage unit 34 are newly provided. The mobile terminal authentication unit 33 authenticates each mobile terminal 32 with reference to the authentication information stored in the authentication information storage unit 34. The authentication information storage unit 34 stores an authentication information table 34a shown in FIG. In the authentication information table 34a, a password used when the mobile terminal authentication unit 33 authenticates the mobile terminal 32 is stored for each terminal ID.
[0038]
Mobile terminal 32 shown in FIG. ₁ ~ 32 _n There are computers such as PDAs, notebook type, palm type, pocket type, etc., which are connected to a mobile phone, PHS, mobile phone or PHS via a cable or a PC card with a built-in communication function. In the following, the portable terminal 32 ₁ Will be described as PHS. Other mobile terminals 32 ₂ ~ 32 _n As for the configuration of the mobile terminal 32, the characteristic part of the present invention is ₁ The configuration is substantially the same.
Next, the portable terminal 32 ₁ The configuration will be described with reference to FIG. In FIG. 12, parts corresponding to those in FIG. 4 are assigned the same reference numerals and explanations thereof are omitted. Mobile terminal 32 shown in this figure ₁ In FIG. 3, an authentication information storage unit 35 is newly provided. The authentication information storage unit 35 stores an authentication information table 35a shown in FIG. The authentication information table 35a includes the mobile terminal 32. ₁ Terminal ID and the portable terminal 32 ₁ A password used when the password is authenticated is stored. The mobile terminal 32 ₁ Although none are shown in the figure, it also has a signal processing unit, a transmission / reception unit, a data storage unit, a display unit, and an operation unit.
[0039]
Next, the operation of the push type information distribution system having the above configuration will be described with reference to the flowcharts shown in FIGS. First, the portable terminal 32 from the network identifier detection determination process to the distribution flag change process ₁ Will be described with reference to the flowchart shown in FIG. Here, as an initial state, as shown in FIG. ₁ Distribution flag DF of network identifier “P1001” assigned to ₂ Is set to “1”. First, the mobile terminal 32 ₁ The control unit 29 proceeds to the process of step SB11, and when the connectable public base station 2 or indoor base station 3 is changed, the network identifier of the changed public base station 2 or indoor base station 3 is changed to the network. It is determined whether or not the identifier detection unit 25 has detected and notified. When the determination result is “NO”, the control unit 29 repeats the same determination. When the network identifier detected by the network identifier detection unit 25 is notified, the determination in step SB11 is “YES”, and the control unit 29 proceeds to step SB12. For example, the portable terminal 32 ₁ A user who carries a public base station 2 ₁ Indoor base station 3 from where the radio waves reach ₂ Suppose you move to a place where no public radio waves are installed. In this case, in the process of step SB11, the indoor base station 3 ₂ Since the network identifier (for example, “H2002”) assigned to is detected, it is notified.
[0040]
In step SB12, the control unit 29 refers to the distribution destination table 24a using the notified network identifier, or the network identifier does not exist or the network identifier exists but corresponds to the network identifier. Delivery flag DF ₂ Is reset to "0". If the determination result is “NO”, that is, the notified network identifier exists and the distribution flag DF corresponding to the network identifier is present. ₂ Is set to “1”, the control unit 29 controls the mobile terminal 32 to ₁ Recognizes that the public base station 2 or the indoor base station 3 has not moved so much as to be changed, and ends the series of processes.
On the other hand, if the determination result in step SB12 is “YES”, that is, the notified network identifier does not exist or the network identifier exists, but the distribution flag DF corresponding to the network identifier exists. ₂ Is reset to “0”, the control unit 29 causes the mobile terminal 32 to ₁ Recognizes that the public base station 2 or the indoor base station 3 is changed as the public base station 2 or the indoor base station 3 is changed, and proceeds to step SB13. In this case, the indoor base station 3 detected and notified in the process of step SB11 ₂ As shown in FIG. 5, since the network identifier “H2002” does not exist in the distribution destination table 24a, the control unit 29 proceeds to step SB13.
[0041]
In step SB13, the control unit 29 transmits to the information distribution server 31 to notify that the public base station 2 or the indoor base station 3 has been changed, and then proceeds to step SB14. In this case, indoor base station 3 ₂ Is assigned the assigned telephone number “090-224-3781”, the control unit 29 uses the assigned telephone number “090-224-3781” to set the indoor base station 3 ₂ Through the public network 5 is requested to connect to the information distribution server 31 (call). In step SB14, the control unit 29 performs the portable terminal 32. ₁ After starting a timer (not shown) configured by a timer or a program provided inside the program, the process proceeds to step SB15. In step SB15, the control unit 29 determines whether or not an incoming call rejection by the information distribution server 31 is detected. When the determination result is “YES”, the control unit 29 proceeds to Step SB16. In step SB16, the control unit 29 recognizes that the allocated telephone number of the information distribution destination has been changed due to the incoming call rejection by the information distribution server 31, and distributes other network identifiers that have been set to "1" until now. Flag DF ₂ Is reset to “0”, and the distribution flag DF of the network identifier of the public base station 2 or indoor base station 3 in which the change is detected in the process of step SB11 ₂ Is set to “1”, and then a series of processing ends.
[0042]
On the other hand, if the determination result in step SB15 is “NO”, that is, if the incoming call rejection by the information distribution server 31 is not detected, the control unit 29 proceeds to step SB17. In this case, the allocated telephone number “090-224-3781” notified to the information distribution server 31 in the process of step SB13 is not registered in the distribution destination table 13a as shown in FIG. The server 31 does not reject incoming calls. Therefore, the determination result in step SB15 is “NO”, and the control unit 29 proceeds to step SB17. In step SB17, the control unit 29 determines whether or not the information distribution server 31 has connected a line. If this determination is “NO”, the control unit 29 proceeds to step SB18. In step SB18, the control unit 29 determines whether or not the timer has timed out and detected when a preset time has elapsed. If the determination result is “NO”, the control unit 29 returns to Step SB15. On the other hand, if the determination result in step SB18 is “YES”, that is, if the timer has timed out and detected, the control unit 29 returns to step SB13 and makes a call to the information distribution server 31 again. .
[0043]
On the other hand, when the determination result in step SB17 is “YES”, that is, when the information distribution server 31 connects a line, the control unit 29 determines that the information distribution server 31 ₁ It is determined that the incoming call from the mobile terminal 32 using an assigned telephone number or the like that is not registered is recognized, and the line is connected to start the authentication process, and the process proceeds to step SB19. In this case, indoor base station 3 ₂ As shown in FIG. 3, the assigned telephone number “090-224-3781” is not registered in the distribution destination table 13a of the information distribution server 31, so the information distribution server 31 connects the line. Therefore, the control unit 29 proceeds to step SB19.
[0044]
In step SB19, the controller 29 stores the portable terminal 32 stored in the authentication information table 35a. ₁ The terminal ID and password are read out and transmitted to the information distribution server 31 as authentication information, and the process proceeds to step SB20. In this case, as shown in FIG. 13, the authentication information table 35a includes the portable terminal 32. ₁ Since the password “4% 3g {) sx” is stored in correspondence with the terminal ID “N503” of the device, the control unit 29 reads out the terminal ID “N503” and the password “4% 3g {) sx”, They are transmitted to the information distribution server 31 as authentication information. In step SB20, the control unit 29 determines the portable terminal 32 based on the authentication result transmitted from the information distribution server 31. ₁ Determines whether the authentication is successful. If the determination result is “NO”, the control unit 29 ends the series of processes.
[0045]
On the other hand, if the determination result in step SB20 is “YES”, that is, the portable terminal 32 ₁ If the authentication is successful, the control unit 29 proceeds to step SB21. In step SB21, the control unit 29 recognizes that the assigned telephone number corresponding to the network identifier of the public base station 2 or indoor base station 3 whose change has been detected in the process of step SB11 is additionally registered in the information distribution server 31. Thus, the distribution flag DF of another network identifier that has been set to “1” until now ₂ Is reset to “0”, the network identifier of the public base station 2 or the indoor base station 3 in which the change is detected in the process of step SB11 is additionally registered in the distribution destination table 24a, and the distribution flag DF of the network identifier is registered. ₂ Is set to “1”, and then a series of processing ends. In this case, in the process of step SB11, the indoor base station 3 ₂ Network identifier “H2002” is detected, and in the information distribution server 31, the indoor base station 3 is detected as described later. ₂ The assigned telephone number “090-224-3781” corresponding to the network identifier “H2002” is additionally registered. Therefore, as shown in FIG. 16, the control unit 29 has the distribution flag DF of the network identifier “P1101” that has been set to “1” until now. ₂ Is reset to “0” and the indoor base station 3 ₂ Network identifier “H2002” is additionally registered in the distribution destination table 24a, and the distribution flag DF of the network identifier “H2002” is registered. ₂ Is set to “1”.
[0046]
Next, the operation of the information distribution server 31 from the incoming call detection determination process to the incoming call rejection process will be described with reference to the flowchart shown in FIG. Here, as an initial state, as shown in FIG. ₁ Distribution flag DF of assigned telephone number “070-5170-2547” assigned to ₁ Is set to “1”. First, the control unit 18 of the information distribution server 31 proceeds to the process of step SC11, controls the incoming call control unit 16, and performs the portable terminal 32. ₁ ~ 32 _m It is determined whether an incoming call from any of the above is detected. When this determination result is “NO”, the control unit 18 repeats the same determination. Then, the incoming call control unit 16 is connected to the portable terminal 32. ₁ When an incoming call from the terminal is detected, the determination in step SC11 is “YES”, and the control unit 18 proceeds to step SC12. In step SC12, the control unit 18 determines whether or not the caller number detection unit 17 has detected and notified the caller number and the like of the portable terminal 32 notified from the public line network 5 at the time of incoming call. When this determination result is “NO”, the control unit 18 repeats the same determination. Then, the mobile terminal 32 notified from the public line network 5 by the caller number detection unit 17. ₁ When the caller ID is detected and notified, the determination at step SC12 is “YES”, and the control unit 18 proceeds to step SC13. In this case, since the caller number detection unit 17 detects “090-224-3781” as the caller number and notifies the control unit 18, the determination in step SC 12 is “YES”. Proceed to step SC13.
[0047]
In step SC13, the control unit 18 refers to the distribution destination table 13a to determine whether there is an assigned telephone number or the like that matches the notified caller number or the like. If the determination result is “NO”, the control unit 18 determines that the incoming call is from the portable terminal 32 using an unregistered assigned telephone number or the like, and proceeds to step SC17. On the other hand, when the determination result in step SC13 is “YES”, that is, as a result of referring to the delivery destination table 13a, there is an assigned telephone number that matches the notified caller number, etc., the control unit 18 The process proceeds to step SC14. In this case, the caller number “090-224-3781” does not exist in the delivery destination table 13a as shown in FIG. 3, so the control unit 18 proceeds to step SC17.
[0048]
In step SC14, the distribution flag DF corresponding to the caller number and the like notified by the caller number detection unit 17 is displayed. ₁ Is reset to "0". If this determination is “NO”, control unit 18 proceeds to step SC16. On the other hand, when the determination result in step SC14 is “YES”, that is, the distribution flag DF corresponding to the caller number or the like notified by the caller number detection unit 17 ₁ Is reset to “0”, the control unit 18 proceeds to step SC15. In step SC15, the control unit 18 distributes the distribution flag DF corresponding to another assigned telephone number or the like that has been set to “1” until now. ₁ Is reset to “0” and the distribution flag DF corresponding to the assigned telephone number, etc. ₁ Is set to “1”, and then the process proceeds to Step SC16. In step SC <b> 16, the control unit 18 performs the portable terminal 32. ₁ After rejecting the incoming call without connecting the public line, the series of processing is terminated.
[0049]
In step SC17, after connecting the line, control unit 18 proceeds to step SC18. In step SC18, the control unit 18 determines whether or not authentication information is transmitted from the mobile terminal 32 connected to the line and received. When this determination result is “NO”, the control unit 18 repeats the same determination. When the authentication information is transmitted from the portable terminal 32 connected to the line and received, the determination result in step SC19 is “YES”, and the control unit 18 proceeds to step SC20. In this case, the mobile terminal 32 ₁ Transmits the terminal ID “N503” and the password “4% 3g {) sx” as the authentication information, and when received, the control unit 18 proceeds to Step SC19. In step SC19, it is determined whether or not authentication is possible by comparing the received authentication information with the authentication information stored in the authentication information table 34a. If this determination is “YES”, control unit 18 proceeds to step SC19. On the other hand, if the determination result in step SC19 is “NO”, that is, if the authentication has failed, the control unit 18 proceeds to step SC21. In this case, the mobile terminal 32 ₁ Terminal ID “N503” and password “4% 3g {) sx” transmitted as authentication information, and terminal ID “N503” and password “4% 3g {) stored in the authentication information table 34a shown in FIG. Therefore, the control unit 18 proceeds to step SC20.
[0050]
In step SC20, the distribution flag DF such as other assigned telephone numbers that have been set to "1" until now. ₁ Is reset to “0”, and the sender number notified in the process of step SC12 is additionally registered in the distribution destination table 13a as the allocated telephone number and the distribution flag DF such as the allocated telephone number is registered. ₁ Is set to “1”, and then the process proceeds to Step SC21. In this case, in the process of step SC12, the indoor base station 3 ₂ The caller ID “090-224-3781” is notified. Therefore, as shown in FIG. 17, the control unit 18 distributes the distribution flag DF of the assigned telephone number “070-5170-2547” that has been set to “1” until now. ₁ Is reset to “0” and the indoor base station 3 ₂ Assigned telephone number “090-224-3781” is additionally registered in the distribution destination table 13a, and the distribution flag DF of the assigned telephone number “090-224-3781” is registered. ₁ Is set to “1”. In step SC21, the control unit 18 transmits the authentication result performed in the process of step SC19 to the portable terminal 32, and then proceeds to step SC22. In this case, since the authentication is successful in the process of step SC19, the control unit 18 informs the mobile terminal 32 accordingly. ₁ Send to. In step SC22, the control unit 18 terminates the series of processes after disconnecting the line.
[0051]
Thus, according to the configuration of this example, even if the caller ID transmitted by the mobile terminal 32 is not registered in the distribution destination table 13a, the authentication is performed, and when the authentication is successful, The sender number and the like are additionally registered in the delivery destination table 13a. Therefore, although the effect obtained by the first embodiment described above can be obtained, the communication efficiency is further improved, and every time the user generates a new caller ID, etc., the information is distributed to the information distribution server 31 one by one. Thus, there is no need to perform a procedure for additionally registering the caller ID and the like in the delivery destination table 13a, which is simple.
[0052]
C. Third embodiment
Next explained is the third embodiment of the invention.
FIG. 18 is a block diagram showing a configuration of a push type information distribution system according to the third embodiment of the present invention. In this figure, parts corresponding to those in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted. In the push type information distribution system shown in this figure, instead of the information distribution server 1 shown in FIG. 1, a distribution notification server 41, an information server 42, and the Internet 43 are newly provided. The server 42 is connected via the Internet 43. In FIG. 18, the portable terminal 4 ₁ ~ 4 _m Instead, the mobile terminal 32 shown in FIG. ₁ ~ 32 _m Mobile terminal 44 having the same function as ₁ ~ 44 _m Is newly provided. Portable terminal 44 ₁ ~ 44 _n There are computers such as PDA, notebook type, palm type, pocket type, etc. in which a PC card connected to a mobile phone, PHS, mobile phone or PHS via a cable or having a built-in communication function is inserted. In the following, the portable terminal 44 ₁ Will be described as PHS. Other mobile terminals 44 ₂ ~ 44 _n As for the configuration of the portable terminal 44, the characteristic part of the present invention is also described. ₁ The configuration is substantially the same.
[0053]
The feature of this embodiment is that, from the viewpoint of cost reduction, an existing server already used by an Internet service provider (ISP), an electronic commerce site (EC site) or the like is used as much as possible. It is in point to divert. That is, in the first and second embodiments described above, the distribution notification server 41 that calls the portable terminal 44 when the information to be distributed is generated as shown in FIG. And an information server 42 that distributes information to the mobile terminal 44. And about the information server 42, the function mentioned later is added and diverted to the existing server which ISP, EC site, etc. have already used.
[0054]
Next, the configuration of the distribution notification server 41 will be described with reference to FIG. 19, parts corresponding to those in FIG. 2 are given the same reference numerals, and descriptions thereof are omitted. In the distribution notification server 41 shown in this figure, a distribution notification request receiving unit 45 and a transmission control unit 46 are newly provided in place of the distribution information storage unit 12 and the transmission control unit 15. The distribution notification request receiving unit 45 receives notification from the information server 42 that new information to be distributed has occurred via the Internet 43. The transmission control unit 46 controls the transmission / reception unit 14 to notify that the new information to be distributed in the information server 42 has been generated. ₁ ~ 44 _m Call.
[0055]
Next, the configuration of the information server 42 will be described with reference to FIG. The information server 42 in this example includes a program storage unit 51, a distribution information storage unit 52, a transmission / reception unit 53, a transmission control unit 54, an incoming call control unit 55, a distribution notification request transmission unit 56, and a portable terminal authentication unit. 57, an authentication information storage unit 58, and a control unit 59. The program storage unit 51 stores various programs executed by the control unit 59. The distribution information storage unit 52 stores information to be distributed to the user. The transmission / reception unit 53 includes the public line network 5 and the public base station 2. ₁ ~ 2 _k Or indoor base station 3 ₁ ~ 3 _m Any of the mobile terminals 44 via ₁ ~ 44 _m Communicate with. The transmission control unit 54 controls the transmission / reception unit 53 to distribute information. ₁ ~ 44 _m Call. The incoming call control unit 55 controls the transmission / reception unit 53 to perform the portable terminal 44. ₁ ~ 44 _m Control incoming calls. When new information to be distributed is generated, the distribution notification request transmission unit 56 transmits the mobile terminal 44 to the distribution notification server 41 via the Internet 43. ₁ ~ 44 _m Request notification to. The mobile terminal authentication unit 57 authenticates each mobile terminal 44 with reference to the authentication information stored in the authentication information storage unit 58. Although not shown, the authentication information storage unit 58 stores an authentication information table having the same configuration as the authentication information table 34a shown in FIG. The control unit 59 includes a CPU and the like, and controls each unit of the information server 42 based on various programs stored in the program storage unit 51.
[0056]
Next, a schematic operation of the push type information distribution system having the above configuration will be described with reference to a sequence chart shown in FIG. First, the portable terminal 44 ₁ When the public base station 2 or the indoor base station 3 that can be connected is changed and detected (step SA21 in FIG. 21), a series of processes is started. When the change of the public base station 2 or the indoor base station 3 is detected, the portable terminal 44 ₁ The control unit requests the public line network 5 to connect to the distribution notification server 41 via the public base station 2 or the indoor base station 3 (calling). Call (call) (step SA22). When the control unit 18 constituting the distribution notification server 41 responds to the call from the public network 5 (incoming call) and establishes the call, the control unit 18 detects the caller number notified together with the incoming call. (Step SA23), the delivery destination table 13a is referred to using the notified caller number and the like. As a result, when the caller number or the like exists in the delivery destination table 13a and is not currently selected as the delivery destination of the information, the control unit 18 uses the sender number or the like as the delivery destination of the next information. Set as. That is, the control unit 18 sends the delivery flag DF such as the caller number. ₁ Is not set to “1”, the delivery flag DF such as other caller IDs which have been set to “1” until now ₁ Is reset to “0” and the delivery flag DF such as the caller ID ₁ Is set to "1" (step SA24). Next, the control unit 18 includes the mobile terminal 44. ₁ The incoming call is rejected without connecting the public line (steps SA25 and 26).
[0057]
Portable terminal 44 ₁ When the incoming call rejection by the delivery notification server 41 is detected, the control unit recognizes that the assigned telephone number of the information delivery destination has been changed due to the incoming call rejection, and other networks that have been set to “1” until now. Identifier distribution flag DF ₂ Is reset to “0”, and the distribution flag DF of the network identifier of the public base station 2 or indoor base station 3 in which the change is detected in the process of step SA21 ₂ Is set to "1" (step SA27).
[0058]
Thereafter, in the information server 42, the portable terminal 44 ₁ When the information to be distributed is generated and stored in the distribution information storage unit 52 (step SA28), the control unit 59 controls the distribution notification request transmission unit 56 to connect the Internet 43 to the distribution notification server 41. Via the mobile terminal 44 ₁ A notification is requested (step SA29). As a result, in the distribution notification server 41, when the distribution notification request receiving unit 45 receives notification from the information server 42 that new information to be distributed has occurred via the Internet 43, the control unit 18 transmits the distribution destination table 13a. Referring to FIG. 4, the portable terminal 44 in the process of step SA24. ₁ Distribution flag DF corresponding to the terminal ID of ₁ The assigned telephone number or the like set to "1" is searched (step SA30). Next, when the control unit 18 requests the public line network 5 to connect to the distribution notification server 41 using the retrieved assigned telephone number or the like (calling), the public line network 5 receives the assigned telephone number. The mobile terminal 44 via the assigned public base station 2 or indoor base station 3 ₁ Is called (calling) (step SA31). And the portable terminal 44 ₁ When a call is established by answering a call from the public network 5 (incoming call), the portable terminal 44 ₁ The controller once rejects the incoming call without connecting the line (step SA32).
[0059]
Next, the portable terminal 44 ₁ In order to receive information distribution from the information server 42, the control unit requests the public line network 5 to the public line network 5 via the public base station 2 or the indoor base station 3 (calling). The public line network 5 calls (calls) the information server 42 (step SA33). When the control unit 59 of the information server 42 responds to the call from the public line network 5 (incoming call) and establishes the call, the control unit 59 accepts the incoming call (step SA34) and connects the line. (Step SA35). Portable terminal 44 ₁ When detecting the connection of the line, the control unit recognizes that the information server 42 has connected the line in order to start the authentication process, and stores this portable terminal 44 stored in the authentication information table. ₁ Terminal ID and password are read out and transmitted to the information server 42 as authentication information (step SA36).
[0060]
Portable terminal 44 ₁ The control unit 59 of the information server 42 that has received the authentication information transmitted from the server performs an authentication process for comparing the received authentication information with the authentication information stored in the authentication information table to determine whether authentication is possible. (Step SA37). When the authentication is successful, the control unit 59 transfers the mobile terminal 44 from the distribution information storage unit 52. ₁ The information to be distributed to is read out, and distribution of the information is started (step SA38). When the distribution of the information is completed, the control unit 59 disconnects the line (steps SA39 and 40).
[0061]
Thus, according to the configuration of this example, the distribution notification server 41 is provided, and the distribution notification request transmission unit 56, the portable terminal authentication unit 56, and the authentication information are added to the existing server already used by the ISP, the EC site, or the like. Since only the storage unit 57 needs to be added, the ISP and EC site can start a new push type information distribution with a minimum capital investment. Further, according to the configuration of this example, the effects obtained by the first and second embodiments described above can be obtained.
[0062]
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and there are design changes and the like without departing from the gist of the present invention. Are also included in the present invention.
For example, in each of the embodiments described above, an example in which the network identifier is preset in each public base station 2 or indoor base station 3 is shown, but the present invention is not limited to this, and the network identifier is defined by a communication carrier. The communication mode number being used may be acquired from the public base station 2 or the indoor base station 3 and used. In addition, when detecting the network identifier in response to the user of the mobile terminal pressing a dedicated key constituting the operation unit of the mobile terminal, the network identifier is, for example, “outdoor” so that the user can recognize it. ”,“ Factory 1 ”,“ coffee shop ”, or the like.
[0063]
Further, in the first and second embodiments described above, the time measured by the timer activated in the process of step SB4 shown in FIG. 7 and the process of step SB14 shown in FIG. 14, and the steps SB3 to SB7 shown in FIG. The number of repetitions of the loop processing and the loop processing of steps SB13 to SB15, SB17, and SB18 shown in FIG. 14 may be set in advance or may be set by the user.
In the first and second embodiments described above, there is one information distribution server, and in the second embodiment described above, there is one set of the distribution notification server and the information server. The number of information distribution servers may be any number, and the number of pairs of distribution notification servers and information servers may be any number. In the third embodiment described above, an information server is provided for each content provider, and only one distribution notification server receives a distribution notification request from each information server and sends it to each portable terminal. You may comprise as follows.
[0064]
In the second and third embodiments described above, the example in which the authentication of the mobile terminal is performed by comparing the terminal ID and the character string of the password is shown, but the present invention is not limited to this, and other methods are used. Of course you can use it.
Further, in each of the above-described embodiments, an example in which a caller ID and a sub-address of a mobile terminal registered as a slave unit in an indoor base station is used as a distribution destination telephone number is not limited to this. If a plurality of dial-in telephone numbers can be contracted with a communication carrier for each indoor base station, a sub-address is not necessary.
In the above-described embodiments, the indoor base station 3 ₁ ~ 3 _m However, the present invention is not limited to this and may be installed in any place as long as it is a place where the public radio wave does not arrive.
In each of the above-described embodiments, when a change in the connectable public base station 2 or indoor base station 3 is detected, the information distribution server or the distribution notification server is notified first, and the information distribution is performed. After the incoming call is rejected from the server or the delivery notification server, the delivery flag DF ₂ Although the example which changes is shown, it is not limited to this. For example, first the delivery flag DF ₂ Is changed to the information distribution server or the distribution notification server, and if there is an incoming call rejection from the information distribution server or the distribution notification server, it is left as it is. If there is no incoming call rejection, the changed distribution flag DF ₂ May be returned to the previous state.
[0065]
Further, in each of the above-described embodiments, an example in which all network identifiers are stored in the distribution destination table of the mobile terminal is shown. However, the present invention is not limited to this, and the distribution destination table includes an information distribution server or a distribution notification server. Only the network identifier corresponding to the telephone number of the distribution destination selected last may be stored.
Moreover, in each above-mentioned Example, when an information delivery server or a delivery notification server transmits with respect to a portable terminal, the case where there is no response from a portable terminal is not demonstrated in particular. In such a case, for example, it may be configured to make a call using another assigned telephone number or the like stored in the distribution destination table.
Further, in each of the above-described embodiments, the mobile terminal, the information distribution server, or the distribution notification server determines the processing performed by the other party in response to the other party rejecting the incoming call or disconnecting the line, and the distribution flag. DF ₂ Although the example which performs this etc. was shown, it is not limited to this. For example, the other party may be configured to specifically notify the contents of the processing performed.
In addition, the above-described embodiments can utilize each other's techniques as long as there is no particular contradiction or problem in the purpose, configuration, or the like. For example, when the mobile terminal authentication unit 33 and the authentication information storage unit 34 shown in FIG. 10 are provided in the delivery notification server 41 shown in FIG. 19, the caller number transmitted by the mobile terminal 44 is not registered in the delivery destination table 13 a. Even so, if authentication is performed and the authentication is successful, the sender number and the like may be additionally registered in the distribution destination table 13a.
[0066]
【The invention's effect】
As described above, according to the configuration of the present invention, the public line network, at least one first base station connected to the public line network, and the public line network are connected. Via at least one second base station installed in a place where radio waves do not reach, at least one information distribution server connected to the public network, and either the first or second base station And at least one portable terminal connected to the public line network. When the portable terminal detects a change in the connectable first or second base station, the mobile terminal uses the at least telephone number assigned to the first or second base station to transmit information via the public line network. When a call is made to the distribution server and a signal indicating that the change has been recognized is received from the information distribution server, the first or second base station is used as a base station for receiving information distribution. The information distribution server registers and stores, for each mobile terminal, a plurality of at least telephone numbers that can be used by the mobile terminal and a plurality of at least telephone numbers that are set as information distribution destinations. The distribution destination table is referred to by at least a telephone number notified together with an incoming call from a mobile terminal. If it is not set as the destination, at least the telephone number is set as the delivery destination of the next information, then a signal indicating that the change has been recognized is sent to the mobile terminal, and if information to be delivered occurs The information is distributed to the mobile terminal using at least the telephone number currently set as the information distribution destination in the distribution destination table.
Therefore, even when the user moves to a place where radio waves on the public line network do not reach, information can be distributed. In addition, when information to be distributed is generated, the mobile terminal can be called with a single transmission, so that unnecessary transmission is not required and communication efficiency is improved.
Further, if information is transmitted in turn to all public base stations or indoor base stations registered for each mobile terminal, charging is incurred for each transmission, but according to the configuration of the present invention, Such inconvenience can be prevented.
According to another configuration of the present invention, the information distribution server authenticates based on the authentication information transmitted from the mobile terminal when at least the telephone number does not exist in the distribution destination table, and the authentication is successful. In addition, at least a telephone number is registered in the distribution destination table and set as a distribution destination of the next information. Therefore, the communication efficiency is further improved, and it is not necessary for the user to perform a procedure for additionally registering at least the telephone number and the like in the distribution destination table for each information distribution server every time a new telephone number is generated. Convenient.
Further, according to another configuration of the present invention, the distribution notification server is provided, and it is only necessary to add some functions to the existing server already used by the ISP or EC site. New push-type information distribution can be started with minimal capital investment.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a push type information distribution system according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of an information distribution server 1 constituting the system.
FIG. 3 is a diagram showing a configuration of a distribution destination table 13a stored in a distribution destination storage unit 13 configuring the information distribution server 1.
FIG. 4 shows a portable terminal 4 constituting the system ₁ It is a block diagram which shows the structure of.
FIG. 5 shows the portable terminal 4 ₁ It is a figure which shows the structure of the delivery destination table 24a memorize | stored in the delivery destination memory | storage part 24 which comprises.
FIG. 6 is a sequence chart for explaining a schematic operation of the system.
FIG. 7 shows a portable terminal 4 from network identifier detection determination processing to distribution flag change processing. ₁ It is a flowchart showing the operation | movement of.
FIG. 8 is a flowchart showing the operation of the information distribution server 1 from an incoming call detection determination process to an incoming call rejection process.
FIG. 9 is a block diagram showing a configuration of a push type information distribution system according to a second embodiment of the present invention.
FIG. 10 is a block diagram showing a configuration of an information distribution server 31 configuring the system.
11 is a diagram showing a configuration of an authentication information table 34a stored in an authentication information storage unit 34 configuring the information distribution server 31. FIG.
FIG. 12 shows a mobile terminal 32 constituting the system. ₁ It is a block diagram which shows the structure of.
FIG. 13 shows the portable terminal 32. ₁ It is a figure which shows the structure of the authentication information table 35a memorize | stored in the authentication information storage part 35 which comprises.
FIG. 14 shows a portable terminal 32 from network identifier detection determination processing to distribution flag change processing. ₁ It is a flowchart showing the operation | movement of.
FIG. 15 is a flowchart showing the operation of the information distribution server 31 from the incoming call detection determination process to the incoming call rejection process.
FIG. 16 shows a portable terminal 32. ₁ It is a figure which shows the example of the delivery destination table 24a by which the network identifier was additionally registered by the control part 29 of FIG.
17 is a diagram showing an example of a distribution destination table 13a in which an assigned telephone number and the like are additionally registered by the control unit 18 of the information distribution server 31. FIG.
FIG. 18 is a block diagram showing a configuration of a push type information distribution system according to a third embodiment of the present invention.
FIG. 19 is a block diagram showing a configuration of a distribution notification server 41 configuring the system.
FIG. 20 is a block diagram showing a configuration of an information server 42 constituting the system.
FIG. 21 is a sequence chart for explaining a schematic operation of the system.
[Explanation of symbols]
1,31 Information distribution server
2 ₁ ~ 2 _k Public base station (first base station)
3 ₁ ~ 3 _m Indoor base station (second base station)
4 ₁ ~ 4 _n , 32 ₁ ~ 32 _n 44 ₁ ~ 44 _n Mobile device
5 Public network
11, 21, 51 Program storage unit
12, 22, 52 Distribution information storage unit
13, 24 Delivery destination storage unit
13a, 24a Delivery destination table
17 Calling number detector
18, 29, 59 Control unit
23 Calling phone number storage
25 Network identifier storage unit
33,57 Mobile terminal authentication unit
34, 35, 58 Authentication information storage unit
34a, 35a Authentication information table
41 Delivery notification server
42 Information server
43 Internet
45 Delivery notification request receiver
56 Delivery Notification Request Transmitter

Claims (9)

A public line network, at least one first base station connected to the public line network, and at least one connected to the public line network and installed in a place where radio waves of the public line network do not reach Second base stations, at least one information distribution server connected to the public line network, and at least connected to the public line network through either the first or second base station A push type information distribution system including one mobile terminal,
When the portable terminal detects a change in the connectable first or second base station, the portable terminal uses at least the telephone number assigned to the first or second base station via the public line network. When a call is made to the information distribution server and a signal indicating that the change has been recognized is received from the information distribution server, the first or second base station is used for receiving information distribution. Registered as a base station
The information distribution server stores, for each portable terminal, a plurality of the at least telephone numbers that can be used by the portable terminal and a plurality of the at least telephone numbers that are set as information distribution destinations. A destination table, referring to the delivery destination table by at least the telephone number notified together with an incoming call from the mobile terminal, wherein at least the telephone number exists in the delivery destination table, and a delivery destination of current information When the information to be distributed is generated after the signal indicating that the change has been recognized is transmitted to the portable terminal after setting at least the telephone number as the distribution destination of the next information. In the distribution destination table, the information is distributed to the mobile terminal using at least the telephone number currently set as the distribution destination of the information. Push type information transmission system, characterized by. A public line network, at least one first base station connected to the public line network, and at least one connected to the public line network and installed in a place where radio waves of the public line network do not reach Second base stations, at least one information distribution server connected to the public line network, and at least connected to the public line network through either the first or second base station A push type information distribution system including one mobile terminal,
When the portable terminal detects a change in the connectable first or second base station, the portable terminal registers the first or second base station as a base station used when receiving distribution of information, Making a call to the information distribution server via the public network using at least the telephone number assigned to the first or second base station;
The information distribution server stores, for each portable terminal, a plurality of the at least telephone numbers that can be used by the portable terminal and a plurality of the at least telephone numbers that are set as information distribution destinations. A destination table, referring to the delivery destination table by at least the telephone number notified together with an incoming call from the mobile terminal, wherein at least the telephone number exists in the delivery destination table, and a delivery destination of current information If at least the telephone number is set as the next information delivery destination, and the information to be delivered occurs, it is set as the current information delivery destination in the delivery destination table. A push type information distribution system that distributes the information to the mobile terminal using at least the telephone number. A public line network, at least one first base station connected to the public line network, and at least one connected to the public line network and installed in a place where radio waves of the public line network do not reach A second base station, at least one distribution notification server connected to the public line network and the Internet, at least one information server connected to the public line network and the Internet, and the first or A push type information distribution system comprising at least one portable terminal connected to the public network via any of the second base stations,
When the portable terminal detects a change in the connectable first or second base station, the portable terminal uses at least the telephone number assigned to the first or second base station via the public line network. When a call is made to the distribution notification server and a signal indicating that the change has been recognized is received from the distribution notification server, the first or second base station is used when receiving distribution of information. If a notification that new information to be distributed has been generated is received from the distribution notification server, the new information is distributed by connecting to the information server via the public network. received,
The distribution notification server stores, for each portable terminal, a plurality of the at least telephone numbers that can be used by the portable terminal and a plurality of the at least telephone numbers that are set as information distribution destinations. A destination table, referring to the delivery destination table by at least the telephone number notified together with an incoming call from the portable terminal, wherein at least the telephone number exists in the delivery destination table, and a delivery destination of current information Is not set as, after setting at least the telephone number as a delivery destination of the next information, a signal indicating that the change has been recognized is transmitted to the portable terminal, and the information server transmits the Internet Is received as a delivery destination of current information in the delivery destination table. The call to the mobile terminal in order to notify the new information to be the distribution has occurred by using at least telephone numbers are,
When information to be distributed occurs, the information server requests the distribution notification server to notify the portable terminal via the Internet, and then the portable terminal connects via the public line network. A push-type information distribution system that distributes the information to the mobile terminal. A public line network, at least one first base station connected to the public line network, and at least one connected to the public line network and installed in a place where radio waves of the public line network do not reach A second base station, at least one distribution notification server connected to the public line network and the Internet, at least one information server connected to the public line network and the Internet, and the first or A push type information distribution system comprising at least one portable terminal connected to the public network via any of the second base stations,
When the portable terminal detects a change in the connectable first or second base station, the portable terminal registers the first or second base station as a base station used when receiving distribution of information, A call is made to the information distribution server via the public line network using at least a telephone number assigned to the first or second base station, and new information to be distributed is generated from the distribution notification server. In the case of receiving a notification to the effect that the mobile terminal is connected to the information server via the public network and receives the distribution of the new information, the distribution notification server can use the mobile terminal for each mobile terminal. A plurality of the at least telephone numbers and a distribution destination table that stores which of the plurality of at least telephone numbers is set as the information distribution destination, and is communicated together with an incoming call from the portable terminal. If the at least telephone number exists in the distribution destination table and is not set as the distribution destination of the current information, the at least telephone number is referred to. Set as the next information delivery destination, and when the information server receives notification that new information to be delivered via the Internet has occurred, it is set as the current information delivery destination in the delivery destination table. Calling the mobile terminal to notify that the new information to be delivered has occurred using the at least telephone number,
When information to be distributed occurs, the information server requests the distribution notification server to notify the portable terminal via the Internet, and then the portable terminal connects via the public line network. A push-type information distribution system that distributes the information to the mobile terminal. The information server authenticates based on authentication information transmitted from the portable terminal when the portable terminal is connected via the public line network, and only when the authentication is successful, 5. The push type information distribution system according to claim 3, wherein the information is distributed. The information distribution server or the distribution notification server authenticates based on authentication information transmitted from the mobile terminal when the at least telephone number does not exist in the distribution destination table, and when the authentication is successful, 6. The push-type information distribution system according to claim 1, wherein at least a telephone number is registered in the distribution destination table and is set as a distribution destination of the next information. The push type information according to any one of claims 1 to 6, wherein the at least telephone number includes a subaddress assigned when the portable terminal is registered as a slave unit of the second base station. Distribution system. 8. The push type information distribution system according to claim 1, wherein the signal indicating that the change is recognized is an incoming call rejection. A push type information distribution program for causing a computer to realize the function according to any one of claims 1 to 8.

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