JP4749742B2 - Information exchange system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information exchange system by which a user can efficiently collect and provide information between information processors by utilizing short-range radio communication about an information exchange system. <P>SOLUTION: An information processor uses communication to mutually exchange information contents with another information processor. The information processor includes a confirming part for confirming that the other information processor holds information contents desired by the user and that the user's information processor holds information contents desired by the user of the other information processor; and an exchanging part for receiving the information contents desired by the user from the other information processor and transmitting information contents desired by the user of the other information processor to the other information processor when the confirmation means makes the confirmation. <P>COPYRIGHT: (C)2005,JPO&amp;NCIPI

Description

  The present invention relates to an information exchange system, and is realized between information processing apparatuses having communication means such as short-range wireless communication, and is capable of moving at least one of an information providing side and an information provided side. It relates to an information exchange system.

  Along with the development of wireless communication technology, portable information processing devices that can move without being restricted by physical restrictions of wired networks are being developed. Capturing information whenever and wherever you like is a major feature of portable information terminals using wireless communications.

  Wireless communication technologies include broadcast type using satellites and broadcasting stations, one-to-one communication using a mobile phone network, one-to-one short-range wireless communication using infrared and bluetooth. In particular, with regard to short-range wireless communication, it is expected that bluetooth capable of communicating without being affected by the communication direction and shielding will be developed in the future.

  Similar to the known methods for detecting the joining / leaving of communicable devices with respect to a wired network, there are several known methods for detecting communicable devices in wireless communication. For example, Japanese Patent Laid-Open No. 6-319177 “Adaptive Remote Control System” discloses a technique in which a wireless controller finds a controlled device by polling. In this technology, the controller performs polling regarding the accessibility of the controlled device and the availability of variables, and realizes a method in which the controlled device responds to polling via wireless communication.

  In addition, as a method for distributing information content, there is a request-response type information providing system that generally uses the WWW (World Wide Web). In this system, when the user requests the desired information content (mostly by clicking the link information or button with the mouse), the server returns the information content according to the request. . However, in this method, the user has to perform some kind of operation for requesting necessary information content on his / her own will.

In addition, as an information content collection method that does not require user operation, a technique for displaying a corresponding homepage on the “navigation device” based on position information is disclosed (see Patent Document 1).
JP-A-11-283183

However, with these technologies, it is possible to provide and collect information content based on the request from the user and the location where the user is, but in order to obtain the information desired by the user when the user needs it. Since some operations are required, the collection of information content is not always accurate and quick.
In addition, the user may receive the information unilaterally provided from the information providing side, and the information provision and collection are not always efficient.

  The present invention has been made in consideration of the above-described circumstances, and allows efficient information between the information providing side and the information provided side without repeating the special operation of the user and the transmission and reception of information. It is an object to provide an exchangeable information exchange system.

The present invention is a terminal that includes short-range wireless communication means capable of communicating only within a predetermined distance range, and performs short-range wireless communication with an information providing station. The short-range wireless communication means is an arbitrary information providing station. When the response information is received, a search broadcast unit that broadcasts the information providing station search information at regular time intervals, a first receiving unit that receives response information transmitted from the information providing station, A first transmission unit that transmits an information content request to an information providing station that has transmitted information, a second reception unit that receives information content transmitted from the information providing station, and stores the received information content The terminal is provided with the storage part which performs.
In addition, the present invention is an information providing station that includes short-range wireless communication means that can communicate only within a predetermined distance range, and performs short-range wireless communication with a terminal. The short-range wireless communication means is registered in advance. An information content holding unit that stores the received information content, a third receiving unit that receives the information providing station search information transmitted from the terminal, and the response information when the information providing station search information is received. A second transmission unit that receives the information content request transmitted from the terminal; and, when the information content request is received, transmits the information content to the terminal that has transmitted the information content request. An information providing station characterized by comprising a third transmitter is provided.

The present invention is a method of exchanging information of a terminal that includes short-range wireless communication means capable of communicating only within a predetermined distance range and performs short-range wireless communication with an information providing station, wherein the short-range wireless communication means includes: When the information providing station search information is broadcast to a given information providing station at regular time intervals, the response information transmitted from the information providing station that received the information providing station search information is received, and the response information is received The information content request is transmitted to the information providing station that has transmitted the response information, the information content transmitted from the information providing station is received in response to the information content request, and the received information content is stored. It is an object of the present invention to provide a terminal information exchange method.
The present invention also provides an information exchange method for an information providing station that includes short-range wireless communication means capable of communicating only within a predetermined distance range, and performs short-range wireless communication with a terminal, the short-range wireless communication means Receives the information providing station search information transmitted by broadcasting from the terminal, transmits the response information to the terminal that has transmitted the information providing station search information, and then transmits the information content request transmitted from the terminal. Information exchange method of an information providing station, wherein information content registered and held in advance is transmitted to a terminal that has received the information content request.

The present invention is an information exchange program for a terminal that performs short-range wireless communication that enables communication with an information providing station only within a predetermined distance range. Search broadcast function that broadcasts at regular time intervals, a first reception function that receives response information transmitted from the information providing station, and an information providing station that has transmitted the response information when the response information is received To realize a first transmission function for transmitting an information content request, a second reception function for receiving information content transmitted from the information providing station, and a storage function for storing received information content An information exchange program is provided.
The present invention is also an information exchange program of an information providing station that performs short-range wireless communication that enables communication only with a terminal within a predetermined distance range, and stores information content registered in advance in a computer A holding function; a third receiving function for receiving information providing station search information transmitted by broadcasting from the terminal; and a second transmitting function for transmitting response information when the information providing station searching information is received. And a request receiving function for receiving an information content request transmitted from the terminal, and a third transmission function for transmitting the information content stored in advance to the terminal that has transmitted the information content request. An information exchange program is provided.

  The present invention provides a computer-readable recording medium storing an information exchange program of the terminal, and also provides a computer-readable recording medium storing an information exchange program of the information providing station. is there.

  According to the present invention, it is possible to provide an information exchange system capable of efficiently exchanging information without repeating user's special operation and information transmission / reception between a plurality of information processing apparatuses exchanging information contents with each other. .

The present invention will be described in detail below based on the embodiments shown in the drawings. However, this does not limit the present invention.
FIG. 1 is a general conceptual diagram of a near field communication system assumed by the present invention.
The information processing apparatus 11 and the information processing apparatus 12 include short-range wireless communication means represented by Bluetooth.
When the distance between each other is more than a certain distance (for example, about 10 m), communication is impossible because radio waves do not reach (FIG. 1 (A)). Communication is possible (FIG. 1B). When at least one of the information processing apparatus 11 and the information processing apparatus 12 is movable, the relative distance between the information processing apparatus 11 and the information processing apparatus 12 changes, and communication becomes possible or communication becomes impossible. It happens frequently.

A radio wave emitted from the information processing apparatus 11 has a certain electric field strength within a range of a radius r11 centered on the information processing apparatus 11, and similarly, a radio wave emitted from the information processing apparatus 11 has a radius r12 centered on the information processing apparatus 12. It shall have a certain electric field strength over a certain range.
At this time, when data transmission in one direction, such as broadcasting, is performed from the information processing apparatus 11 to the information processing apparatus 12, communication is possible if the distance between the two is not more than r11.

  Further, when bidirectional data communication is performed between the information processing apparatus 11 and the information processing apparatus 12, communication is possible if the distance between the two is equal to or smaller than the smaller value of r11 and r12. If r11 and r12 are regarded as the same value for convenience, the information processing apparatus 11 can communicate with the information processing apparatus 13 existing in a circle with a radius r11 centered on the information processing apparatus 11, as shown in FIG. Therefore, it is impossible to communicate with the information processing apparatus 14 existing outside the circle.

Several embodiments of the information exchange system using short-range wireless communication will be described in detail below.
The terms “information providing station” and “terminal” give the impression that the information providing station is in a fixed position, only the terminal moves, and the information providing station is larger than the terminal. Is not what I intended.

  It is sufficient that at least one of the information providing station and the terminal is movable. When mobile, both are constituted by a notebook personal computer, PDA, mobile phone, and the like, and when not mobile, they are constituted by a fixed information providing / collection station, a desktop personal computer, and the like.

  In the following embodiments, three cases are assumed: when both the information providing station and the terminal are movable, when only the terminal moves, and when only the information providing station moves. Even if the information providing station and the terminal do not move together, if it becomes possible or impossible to communicate depending on the time when at least one of the power supplies is turned on or off, a broad sense is required. Since it may be considered as a movement, it is included in the category of the present invention.

“Information content” intends any digital information that can be made between information processing devices such as documents, images, videos, music, sounds, and programs.
As for the transmission of information content and its request, at least using broadcasting, one unit of digital information is intermittently transmitted, and the one unit of digital information is meaningful data for the receiving side. Suppose there is.
For example, when a mini broadcast station using FM broadcasting broadcasts information, since the broadcast data is analog, one piece of broadcast data is not meaningful for the receiving side. Is different.

<Schematic configuration of the device>
19 and 20 are schematic configuration diagrams of an information providing station and a terminal suitable for the embodiment of the present invention. The schematic configuration diagram may include parts that are not used in a specific embodiment, such as a position information acquisition unit.
Further, each component shown in FIGS. 19 and 20 shows a detailed configuration of the short-range wireless communication means, and does not show all the components of the information providing station and the terminal. Both the information providing station and the terminal may include other components in addition to the short-range wireless communication means. For example, a part that becomes a man-machine interface with a user, a so-called input part, output part, etc. are usually provided. As the input unit, a keyboard, a mouse, a pen, a microphone, or the like is used, and as the output unit, a visual display such as an LCD, an EL, or an LED, or an auditory display using a speaker is used.

<Configuration of information provider>
FIG. 19 is a schematic configuration diagram of an embodiment of the information providing station of the present invention. The information providing station 100 includes an information processing unit 130, a communication unit 110, and a position information detection unit 120.

  The communication unit 110 is a part for performing data communication with the outside of the information providing station. Since it is assumed that the information providing station 100 is not always connected to a terminal, the information providing station 100 is preferably configured by a communication device such as radio communication such as radio waves, infrared rays, mobile phones, and PHS, and is omnidirectional such as Bluetooth. The short-range wireless communication device is optimal. Note that there is no problem even if the communication unit 110 is configured by a communication device that performs wired communication such as a modem, a LAN, and a connection cable, and is found by finding a terminal from within the network or transmitting information content to the terminal.

  The position information detection unit 120 is a device for obtaining the position of the information providing station 100, and a widely used GPS system, a position detection system using PHS, or the like can be used.

The information processing unit 130 includes a reception processing unit 131, a transmission processing unit 132, a position information acquisition unit 133, a position information processing unit 134, a timer processing unit 135, a terminal search processing unit 136, a partner terminal specifying unit 137, and an information content transmission processing unit. 138.
The reception processing unit 131 and the transmission processing unit 132 are connected to the communication unit 110 and are parts for performing reception processing and transmission processing, respectively, in data communication with outside the information providing station.

  The timer processing unit 135 is connected to the transmission processing unit 132 and performs control such as when transmission is performed at regular intervals. Further, it is connected to the reception processing unit 131 and used to monitor whether a response to transmission information is returned within a certain time.

The position information processing unit 134 is connected to the position information acquisition unit 133 and measures the current position of the information providing station 100.
The current position information is held together with the past history in the position information processing unit 134, and when it moves more than a certain distance, it acts on the transmission processing unit 132 to perform transmission processing, or when it does not move more than a certain distance The operation such as changing the transmission interval by acting on the timer processing unit 135 is performed.

  Terminal search processing unit 136 is connected to reception processing unit 131 and transmission processing unit 132, and searches for a communicable terminal. The information of the partner terminal that transmits the information content determined by the search result is held in the partner terminal specifying unit 137 and used in the information content transmission processing unit. The information content transmission processing unit 138 is connected to the reception processing unit 131 and the transmission processing unit 132, and is used for transmitting information content to the terminal.

  Specifically, the terminal search processing unit 136 includes a specific terminal search information transmission unit 144, a specific terminal search result reception unit 141, a search target terminal information storage unit 145, an arbitrary terminal search information transmission unit 146, and an arbitrary terminal search result reception unit 142. The information providing station search information receiving unit 143 and the information providing station search response transmitting unit 147 are configured.

The specific terminal search information transmission unit 144, the specific terminal search result reception unit 143, and the search target terminal information storage unit 145 are used to search whether a predetermined terminal exists in a range where communication with the information providing station is possible. . Information regarding the predetermined terminal is held in the target terminal information storage unit 145, and the specific terminal search information transmission unit 146 transmits search information for the terminal.
When a response to the search is received, the specific terminal search result receiving unit 143 processes the information, and the partner terminal specifying unit 137 holds information on the partner terminal that has received the response.

The arbitrary terminal search information transmitting unit 146 and the arbitrary terminal search result receiving unit 142 are used to search for an arbitrary terminal that is not determined in advance within a range where communication with the information providing station is possible.
The arbitrary terminal search information transmission unit 146 broadcasts search information for an arbitrary terminal. When a response to the search is received, the arbitrary terminal search result receiving unit 141 processes the information, and the partner terminal specifying unit 137 holds information regarding the partner terminal that has received the response.

  The information providing station search information receiving unit 143 and the information providing station search response transmitting unit 147 are used when an information search is received from the terminal. The search information received from the terminal is processed by the information providing station search information receiving unit 143. At the same time, the information providing station search response transmitting unit 147 returns a response to the partner terminal. It is held in the terminal identification unit 137.

Specifically, the information content transmission processing unit 138 includes an information content holding unit 152, an information content transmission unit 153, an information content broadcast unit 154, and an information content transmission request reception unit 151.
The information content held in the information content holding unit 152 is transmitted from the information content transmission unit 153 or the information content broadcast unit 154 toward the terminal. When transmitting from the information content transmitting unit 153, the information content is transmitted to the terminal specified by the counterpart terminal specifying unit 137.
In this case, when specific information content is requested in the information content transmission request, the requested information content is transmitted. Further, when transmitting from the information content broadcasting unit 154, the information content is broadcast without any particular destination terminal being defined.

The information content transmission request reception unit 151 processes the information content transmission request received from the terminal and instructs the information content transmission unit 153 to transmit the information content.
Although the information content holding unit 152 is illustrated as being inside the information providing station 100, the information content holding unit 152 is connected to the network and mounted at a position where information content to be transmitted is acquired from the outside of the information providing station as necessary. It does not matter.

In the information providing station 100 shown in FIG. 19, the transmission processing unit 132 corresponds to the first broadcasting unit, the second broadcasting unit, the first transmitting unit, the second transmitting unit, and the fourth transmitting unit.
The information content broadcasting unit 154 corresponds to the first and second broadcasting units, the information content transmitting unit 153 corresponds to the first transmitting unit and the second transmitting unit, and the information providing station search response transmitting unit 147 is the first. Corresponds to 4 transmitters.
Further, the specific terminal search result reception unit 141 and the arbitrary terminal search result reception unit 142 correspond to the second reception unit, and the information providing station search information reception unit 143 corresponds to the fourth reception unit.

  The position information detection unit 120 corresponds to the first position information detection unit, and the position information processing unit 134 functions as a first position holding unit. The specific terminal search information transmission unit 144 and the arbitrary terminal search information transmission unit 146 correspond to the first and second search broadcast units, and the information content transmission request reception unit 151 corresponds to the request reception unit.

<Terminal configuration>
FIG. 20 is a schematic configuration diagram of an embodiment of the terminal 200. The terminal 200 includes an information processing unit 230, a communication unit 210, and a position information detection unit 220.

  The communication unit 210 is a part for performing data communication with the outside of the information providing station. Since the terminal 200 is assumed to be not always connected to the information providing station, it is desirable that the terminal 200 be configured by a communication device such as radio communication such as radio waves, infrared rays, mobile phones, and PHS, and omnidirectional such as Bluetooth. The short-range wireless communication device is optimal. Note that the communication unit may be realized by a communication device that performs wired communication such as a modem, a LAN, and a connection cable, and by finding an information providing station from within the network or receiving information content from the information providing station 100. no problem.

The position information detection unit 220 is a device for determining the position of the terminal, and can use a widely used GPS system, a position detection system using PHS, or the like.
The information processing unit 230 includes a reception processing unit 231, a transmission processing unit 232, a position information acquisition unit 233, a position information processing unit 234, a timer processing unit 235, an information providing station search processing unit 236, a partner information providing station specifying unit 237, information The content reception processing unit 238 is configured.

The reception processing unit 231 and the transmission processing unit 232 are connected to the communication unit 210 and are parts for performing reception processing and transmission processing, respectively, in data communication with the outside of the terminal.
The timer processing unit 235 is connected to the transmission processing unit 232 and performs control such as transmission at a constant interval. Further, it is connected to the reception processing unit 231 and used to monitor whether a response to the transmission information is returned within a certain time.

  The position information processing unit 234 is connected to the position information detection unit 220 and measures the current position of the terminal. The current position information is held together with the past history in the position information processing unit 234, and when it moves more than a certain distance, it acts on the transmission processing unit 232 to perform transmission processing, or when it does not move more than a certain distance Then, the timer processor 235 is operated to change the transmission interval.

  The information providing station search processing unit 236 is connected to the reception processing unit 231 and the transmission processing unit 232 and searches for an information providing station 100 that can communicate. Information on the partner information providing station that transmits the information content transmission request determined by the search result is held in the partner information providing station specifying unit 237 and used in the information content reception processing unit 238. The information content reception processing unit 238 is connected to the reception processing unit 231 and the transmission processing unit 232 and is used for receiving information content from the information providing station 100.

  More specifically, the information providing station search processing unit 236 includes a specific information providing station search information transmitting unit 244, a specific information providing station search result receiving unit 241, a search target information providing station information storage unit 245, and an arbitrary information providing station search information transmission. 246, an arbitrary information providing station search result receiving unit 242, a terminal search information receiving unit 243, and a terminal search response transmitting unit 247.

  The specific information providing station search information transmitting unit 244, the specific information providing station search result receiving unit 241 and the search target information providing station information accumulating unit 245 determine whether or not the predetermined information providing station exists in a range where communication with the terminal is possible. Used for searching. Information on the predetermined information providing station is held in the target information providing station information storage unit 245, and the specific information providing station search information transmitting unit 244 transmits search information for the information providing station.

  When a response to the search is received, the specific information providing station search result receiving unit 241 processes the information, and the partner information providing station specifying unit 237 holds information on the partner information providing station that has received the response.

  The arbitrary information providing station search information transmitting unit 246 and the arbitrary information providing station search result receiving unit 242 are used to search whether an arbitrary information providing station that is not determined in advance is within a range where communication with the terminal is possible. The arbitrary information providing station search information transmission unit 246 broadcasts search information for an arbitrary information providing station. When a response to the search is received, the arbitrary information providing station search result receiving unit 242 processes the information, and the partner information providing station specifying unit 237 holds information on the partner information providing station that has received the response.

  The terminal search information receiving unit 243 and the terminal search response transmitting unit 247 are used when an information search is received from the information providing station 100. The search information received from the information providing station is processed in the terminal search information receiving unit 243, and a response is returned to the partner information providing station in the terminal search response transmitting unit 247. At the same time, information on the partner information providing station that has performed the terminal search is displayed. The information is provided in the information providing station specifying unit 237.

Specifically, the information content reception processing unit 238 includes an information content reception unit 251, an information content storage unit 252, an information content transmission request transmission unit 253, and an information content transmission request broadcast unit 254.
The information content received by the information content receiving unit 251 is stored in the information content storage unit 252. When an information content transmission request is transmitted to the information providing station, the information content transmission request is transmitted from the information content transmission request transmitting unit 253 or the information content transmission request broadcasting unit 254 to the information providing station. When transmitting from the information content transmission request transmitting unit 253, the information content transmission request is transmitted to the information providing station specified by the partner information providing station specifying unit 237. Further, when transmitting from the information content transmission request broadcasting unit 254, the information content transmission request is broadcast without particularly defining the information provider station of the transmission partner.

  The information content storage unit 252 is illustrated as being inside the terminal. However, the information content storage unit 252 may be connected to the network and send the received information content to the outside of the terminal as necessary. An implementation for outputting to a user by means of screen display or audio output may be used, and an implementation in which information content is not stored in the terminal at that time may be used.

  In the terminal 200 shown in FIG. 20, the information content storage unit 252 corresponds to the storage unit described above, and the reception processing unit 231 corresponds to the first reception unit, the third reception unit, and the fifth reception unit. The information content transmission request broadcast unit 254 corresponds to the first and second request broadcast units.

  The position information detection unit 220 corresponds to the second position information detection unit, and the position information processing unit 234 functions as a second position holding unit. The terminal search response transmission unit 247 corresponds to the third transmission unit, and the information content transmission request transmission unit 253 corresponds to the fifth transmission unit. The specific information providing station search information transmitting unit 244 and the arbitrary information providing station search information transmitting unit 246 correspond to the third search broadcast unit and the fourth search broadcast unit.

  In addition to the illustrated components, the information processing unit 230 of the terminal 200 includes a determination unit that determines the identity of information content, a deletion unit that deletes information content, a discard processing unit, and a setting unit that sets a product sales price. May be further provided.

By the way, as a method for obtaining the positions of the information providing station 100 and the terminal 200 in the position information detection units 120 and 220, there are the following methods.
First, a method using a GPS system or the like that is already widely used as a position determination system can be considered. The information processing apparatus 100 receives radio waves from the three artificial satellites S1, S2, and S3 and determines a position based on the information. The time required to reach the radio wave is obtained from the intensity of the received radio wave information and the difference between the time when the radio wave is emitted from the satellite and the time when the receiver receives the radio wave, and the position is measured based on that.

Next, as practiced in PHS or mobile phones (cellular phones), there is a method of measuring radio wave intensity from a plurality of base stations and communicating with the nearest base station. By using this, it is possible to know which base station is close to the PHS or the mobile phone. Since the communication range of one base station is narrower in the PHS than in the mobile phone, the position can be specified more accurately.
In addition, a plurality of (three) base stations can measure the radio field intensity transmitted from the PHS or the mobile phone, and thereby know the position. Similarly to the above, since the communication range of one base station is narrower in the PHS than in the mobile phone, the position can be specified more accurately.

By the way, in the position detection in the embodiment of the present invention, it is not always necessary to know the position accurately, and it is only necessary to know that it has moved. Further, even if communication is performed without actually moving, extra communication occurs or communication opportunities with different parties are reduced, and no direct demerit is caused by not moving. The following methods can be considered as a method of detecting the movement.
(A) Use a device that measures the distance traveled, such as the number of kilometers traveled by an automobile.
(B) Knowing that the movement has been executed using the speed sensor / acceleration sensor.
(C) The radio wave intensity from a specific radio wave source is measured, and it is considered that the radio wave has moved when the measured radio wave intensity changes.

  In addition to this, the terminal preferably includes an output unit for notifying the user of the received information content. For example, an LCD display, a speaker, or the like can be used as the output unit. In the case of LCD display, the information content may be notified by text information. However, if the location of the store is known, the fact that it has been received over the map showing the location is displayed. A mark or the like may be displayed. The information providing station may also include such an output unit.

  Next, an embodiment of a format of data transmitted between the information providing station and the terminal in the information exchange system of the present invention will be described. FIG. 42 shows an embodiment of a general format of data used in the information exchange system of the present invention.

In FIG. 42, the transmission destination address d1 designates the counterpart device address when sending to a specific device, and broadcast when sending as a broadcast. The source address d2 designates the address of its own device.
The data type d3 specifies the type of data to be transmitted. The subsequent data format (format after the division order at the time of division) may be changed according to the designated data type.

  When dividing and transmitting data, the division order d4 at the time of division and the total number of divisions d5 specify how many pieces of data are sent. For example, if the second data is divided into five pieces of data and transmitted, 2 is designated as the division order and 5 is designated as the total number of divisions. When no division is performed, 1 is set to the division order d4 and the total number of divisions d5. The data length d6 represents the length of data that follows the data length d6. Data d7 contains data corresponding to each data type, for example, information content.

<First embodiment>
FIG. 3 is a conceptual explanatory diagram of the first embodiment of the information exchange system of the present invention.
In this embodiment, the information providing station broadcasts information content, and a terminal existing within a predetermined range receives this information content.
In this case, the information providing station can transmit the information content to the terminal without detecting the communicable partner terminal.

The information providing station 21 broadcasts information content, and a terminal 31 existing within a radius r21 centering on the information providing station 21 can receive the information content broadcast by the information providing station 21. In this case, it is assumed that the information providing station 21 only broadcasts information content and there is no data to be sent from the terminal 31 to the information providing station 21. The radius r21 is a radius of a circle indicating a range having a certain electric field strength when the terminal 31 receives the radio wave strength transmitted from the information providing station 21.
Further, the terminal 32 that does not exist within the radius r21 centered on the information providing station 21 cannot receive the information content broadcast by the information providing station 21.

  In this case, the information providing station 21 cannot know which terminal has received the broadcasted information content, and cannot know which terminal is within the circle having the radius r21. Further, when the information providing station 21 or the terminal moves, for example, the terminal 32 outside the circle with the radius r21 may relatively move within the circle with the radius r21. For this reason, the information providing station 21 can broadcast information content of the same content repeatedly, so that even a terminal that cannot receive the information content at a certain time can receive the information content at a different time.

  As one method for repeatedly broadcasting the information content having the same content, it is conceivable to repeatedly broadcast at regular time intervals. This is because the information providing station 21 does not move, only the terminal 31 moves, only the information providing station 21 moves and only the terminal 31 does not move, or the information providing station 21 and the terminal 31 move together. Is also effective.

  As another method of repeatedly broadcasting the information content of the same content, it is conceivable that the information providing station 21 broadcasts whenever the information providing station 21 moves a certain distance (for example, distance D) or more. This is particularly effective when only the information providing station 21 moves and only the terminal 31 does not move.

FIG. 30 is a conceptual diagram showing a modification of the first embodiment. If the information providing station 21 broadcasts at the position P1, the next broadcast is performed at the position P2 that has moved the distance D, and the next broadcast is performed at the position P3 that has further moved the distance D.
Further, it may be used in combination with repeatedly broadcasting at a constant time interval and broadcasting every time the information providing station 21 moves a certain distance or more. This is particularly effective when both the information providing station 21 and the terminal 31 move.

  Next, FIG. 7 shows an explanatory diagram of transmission of broadcast data in the first embodiment. Here, the information providing station 21 shows a case where data DB11, DB12, DB13, DB14, and DB15 including information contents are broadcast at regular time intervals. Since DB11, DB12, DB13, DB14, and DB15 are broadcast data, it is not guaranteed whether they reach the terminal. In FIG. 7, the broadcast data DB13 and DB14 reach the terminal 31, and the broadcast data DB11, DB12, and DB15 do not reach the terminal 31. The terminal 31 extracts and accumulates information content from the broadcast data that has arrived.

  FIG. 43 shows the format of the data DB (see FIG. 7) used in the first embodiment of the present invention. Here, broadcast is used as the source address. Therefore, since retransmission cannot be performed at the network level, data division for using retransmission cannot be performed. However, if retransmission is not performed and it is assumed that data is lost, division can be used.

FIG. 11 is a flowchart for explaining the operation of the information providing station 21 (100) of FIG. 7 in the first embodiment of the present invention.
The transmission processing unit 132 of the information providing station 21 determines whether or not to end in S111. If not, the transmission processing unit 132 loops S112 and S113. In S112, the transmission processing unit 132 operates the information content broadcasting unit 154 to broadcast the information extracted from the information content holding unit 152 toward the terminal.

  In S113, the transmission processing unit 132 waits for a certain period of time using the timer processing unit 135 and then returns to S111. If the processing is not terminated, the operation of S112 is performed again. It should be noted that the reason why the wait for a certain period of time is placed at the position of S113 is for explanation, and when the end after S112 is selected, the process may return to S111 without performing the wait at S113.

FIG. 12 is a flowchart for explaining the operation of the terminal 31 (200) of FIG. 7 in the first embodiment of the present invention.
The reception processing unit 231 of the information processing unit 230 of the terminal 31 determines whether or not to end in S121. If not, the reception processing unit 231 loops S122 and S123.

  In S122, the reception processing unit 231 determines whether the broadcasted information content has been received by monitoring the communication unit 210. If received, in S123, the reception processing unit 231 operates the information content receiving unit 251 to store the received information content in the information content storage unit 252.

  If the information content broadcast in S122 has not been received, and after the information content received in S123 has been accumulated, the process returns to S121, and if not completed, the operation of S122 is performed again. Note that the loop in the case of not ending is for explanation, and for example, processing such as waiting for a fixed time and saving power consumption may be added before returning to S121 again.

FIG. 31 is a flowchart for explaining the operation of the information providing station 21 in the modification of the first embodiment described with reference to FIG.
The information processing unit 130 of the information providing station 21 determines whether or not to end in S311. If not, the information processing unit 130 loops S312 to S315. In S312, the position information acquisition unit 133 acquires the current position using the position information detection unit 120, and in S313, the distance between the position where the position information processing unit 134 performed the previous broadcast and the current position is a certain value or more. Find out. If it is equal to or greater than a certain value, the process proceeds to S314, and if it does not reach the certain value, the process returns to S311.

  In step S <b> 314, the transmission processing unit 132 takes out the information held in the information content holding unit 152 through the information content broadcasting unit 154 and broadcasts the information content toward the terminal 200 via the communication unit 110. In step S315, the position information processing unit 134 stores the broadcast point and then returns to step S311. If the position information processing unit 134 does not finish the operation, the operation of step S312 is performed again. Note that the loop in the case of not ending is for explanation, and for example, processing such as waiting for a fixed time and saving power consumption may be added before returning to S311 again.

  According to the first embodiment of the present invention, it is possible to efficiently provide and collect information contents without going through complicated communication procedures. Also, if the same information content is broadcast repeatedly at regular time intervals, even if a terminal has not reached communication at a certain time, communication can arrive at another time and information content can be transmitted. In addition, when the same information content is broadcast every time it moves, even if the terminal does not reach the communication when it is broadcast at a certain position, the communication reaches the information when it is broadcast at another position. Content can be transmitted, and there is no need to manage broadcast time intervals. Furthermore, the same information content is not collected repeatedly.

<Second embodiment>
FIG. 4 is a conceptual explanatory diagram of a second embodiment of the information exchange system of the present invention.
This embodiment is characterized in that the terminal side searches for an information providing station and transmits an information content transmission request. The terminal 31 searches for a communicable information providing station, and when it finds a communicable information providing station 21, it sends an information content transmission request to the information providing station 21. Upon receiving the information content transmission request from the terminal 31, the information providing station 21 sends the requested information content to the terminal 31.

  The terminal 31 existing within the radius r 21 centered on the information providing station 21 can send an information content transmission request to the information providing station 21 and can receive the information content transmitted by the information providing station 21. In this case, since it is necessary for the information providing station 21 and the terminal 31 to communicate bidirectionally, the radius r21 has an electric field strength of a certain level or more when the terminal 31 receives the radio wave intensity transmitted by the information providing station 21. This is the smaller value of the radius of the circle indicating the range and the radius of the circle indicating the range having a certain electric field strength when the information providing station 21 receives the radio wave intensity transmitted from the terminal 31.

  Note that the terminal 32 that does not exist within the radius r <b> 21 centering on the information providing station 21 cannot perform bidirectional communication with the information providing station 21 and cannot receive information content from the information providing station 21.

  As one means for searching for an information providing station with which the terminal 31 can communicate, a method is conceivable in which bidirectional communication is attempted to a specific information providing station 21 and a response from the partner information providing station 21 is waited for. In this case, the search for the information providing station succeeds if a response is returned, and the search for the information providing station fails if no response is returned. The search procedure of the information providing station 31 may be performed independently of the information content transmission procedure. Alternatively, a bidirectional communication is attempted by sending an information content transmission request to a specific information providing station 21, and a response is made. As described above, the search procedure and the information content transmission procedure may be realized simultaneously by returning the information content.

  As another means for searching for an information providing station with which the terminal 31 can communicate, a method of broadcasting for searching without specifying the information providing station and waiting for a response from the information providing station is conceivable. In this case, the search for the information providing station succeeds if a response is returned, and the search for the information providing station fails if no response is returned.

  In this case, responses may be returned from a plurality of information providing stations. The search procedure of the information providing station may be performed independently of the information content transmission procedure, or the information content transmission request is broadcasted and the information content is returned as a response, so that the search procedure and the information content transmission procedure are performed. May be realized simultaneously.

  Further, as a method for searching for an information providing station, it is conceivable to search repeatedly at regular time intervals. This is because the information providing station 21 does not move, only the terminal 31 moves, only the information providing station 21 moves and only the terminal 31 does not move, or the information providing station 21 and the terminal 31 move together. Is also effective.

As another method for searching for an information providing station, it is conceivable to search for an information providing station every time the terminal 31 moves a certain distance or more. This is particularly effective when only the terminal 31 moves and the information providing station 21 does not move.
FIG. 32 is a conceptual diagram showing a modification of the second embodiment. If the terminal 31 searches for the information providing station at the position P1, the terminal 31 performs the next search at the position P2 that has moved the distance D, and further performs the next search at the position P3 that has moved the distance D.

  Further, it is also possible to use a combination of repeatedly searching at fixed time intervals and searching for an information providing station each time the terminal 31 moves more than a fixed distance. This is particularly effective when both the information providing station 21 and the terminal 31 move.

  When the terminal 31 fails to search for the information providing station, the terminal 31 cannot obtain the information content, and therefore needs to search for the information providing station again. On the other hand, when the search for the information providing station is successful, since the information content is once obtained, the necessity for the search again becomes lower than in the above case. Further, even if the information providing station is searched again at equal time intervals, it is highly possible that the same information providing station is searched and only the same information content is obtained.

  Therefore, once the search for the information providing station is successful, it is more likely that the information providing station will obtain updated information content if the time until the next search for the information providing station is increased. There is a high possibility that the provider station is located within the search range.

  For this reason, even if the search for the information providing station is repeatedly performed at regular time intervals, the time T1 until the next search is performed when the search for the previous information providing station is successful is the search for the previous information providing station. If it fails, it is preferable to make the time longer than the time T2 until the next search is performed.

  Further, when the terminal 31 moves, the possibility that a new information providing station is located within the search range increases. Therefore, when the search for the information providing station is repeated at regular time intervals, if the moving distance from the position of the terminal 31 at the time of the previous information providing station search is small, the next search is performed from the previous search for the information providing station. If the movement distance from the position of the terminal 31 at the time of the previous information providing station search is large, the time from the previous information providing station search to the next search is shortened. It is preferable.

Next, FIG. 8 is an explanatory diagram of the data flow in the second embodiment.
In FIG. 8, the terminal 31 shows a case where the search of the information providing station SB21, SB22, SB23, SB24, SB25 is performed at regular time intervals. The search may be performed by transmitting SB21, SB22, SB23, SB24, and SB25 to a specific information providing station 21, or may be transmitted to any information providing station without specifying a specific information providing station. May be.

  In FIG. 8, the information providing station searches SB23 and SB24 succeed and discover the information providing station 21, and responses SR23 and SR24 are returned to the terminal 31, respectively. On the other hand, the search for information providing stations SB21, SB22, and SB25 is not successful and the information providing station cannot be found.

  When the information providing station 21 is found, the terminal 31 transmits information content transmission requests DR23 and DR24 to the information providing station 21. Upon receiving the information content transmission requests DR23 and DR24, the information providing station 21 transmits data DT23 and DT24 including the information content to the terminal 31, and the terminal 31 extracts and stores the information content from the transmitted data DT23 and DT24. .

  In FIG. 8, search SB21, SB22, SB23, SB24, SB25 of the information providing station is performed at regular time intervals. For example, since the search SB23 of the information providing station is successful, the next information providing station A modification in which the interval to the search SB24 is increased can be considered. Further, as described above, the search interval of the information providing station can be changed according to the moving distance of the terminal 31.

  Next, the format of data SB, SR, DR and DT (see FIG. 8) used in the second embodiment of the present invention will be described. FIG. 44 shows the data format of the search data SB of the information providing station. Here, the address d1 of the transmission destination may be designated as “any information providing station” instead of entering the specific information providing station 21 (multicast). In the case of multicast, SB can be received by any information providing station. Note that a parameter for designating the requested information content may be added as the data d7.

  FIG. 45 shows the data format of the response SR for the information providing station search data SB. FIG. 46 shows the data format of the information content transmission request DR from the terminal. Here, a parameter for designating the requested information content may be added as the data d7.

  FIG. 47 shows a data format of “data including information content” DT transmitted from the information providing station. Here, unlike the DB of the first embodiment, this DT data can be retransmitted at the network level because the transmission destination is represented by a single address. Retransmission at the network level means that, for example, when data indicating the division order 1, 2, 3, 5 is received with the total number of divisions 5, it is determined that the data indicating the division order 4 is lost, and the transmission destination to the transmission source 4 is a procedure in which a retransmission request is made and the data is retransmitted from the transmission source to the transmission destination.

FIG. 13 is a flowchart for explaining the operation of the information providing station 21 (100) of FIG. 8 in the second embodiment of the present invention.
The reception processing unit 131 of the information processing unit 130 of the information providing station 21 determines whether or not to end in S131, and if not ended, S132 to S134 are looped.

  In S132, the reception processing unit 130 monitors the communication unit 110 to determine whether an information providing station search from the terminal 31 has been received. When receiving in S132, the reception processing unit 131 stores the information of the counterpart terminal 31 in the counterpart terminal specifying unit 137 via the information providing station search information receiving unit 143. In S134, the information providing station search information receiving unit 143 returns a response to the search to the terminal 31 via the information providing station search response transmitting unit 147, the transmission processing unit 132, and the communication unit 110. Thereafter, the process returns to S131.

  If it is not received in S132, it is determined using the partner terminal specifying unit 137 whether or not the information content transmission request receiving unit 151 has received the information content transmission request from the terminal in S133. If received in S133, the information content transmission request receiving unit 151 transmits the information content to the terminal 31 via the transmission processing unit 132 and the communication unit 110 using the information content transmitting unit 153 in S135, and returns to S131. . If it is not received in S133, nothing is done and the process returns to S131. Note that the loop in the case of not ending is for explanation, and for example, processing such as waiting for a certain time and saving power consumption may be added before returning to S131 again.

FIG. 14 is a flowchart for explaining the operation of the terminal 31 (200) of FIG. 8 in the second embodiment of the present invention.
The transmission processing unit 232 of the information processing unit 230 of the terminal 31 determines whether or not to end in S141. If not, the transmission processing unit 232 loops S142 to S147.

  In S142, the information providing station is searched. Specifically, the information processing unit 230 uses the specific information providing station search information transmitting unit 244 to extract information on the target information providing station stored in the search target information providing station information storage unit 245, and the communication unit This information is transmitted via 210. Next, in S143, the reception processing unit 231 monitors the communication unit 210 and determines whether there is a response from the information providing station. If there is no response, the process returns to S147 and waits for a predetermined time.

  When there is a response from the information providing station 21, the specific information providing station search result receiving unit 241 checks that the received data is a response, and stores the content of the response in the partner information providing station specifying unit 237. . In S144, an information content transmission request is sent to the information providing station 21. Here, the transmission processing unit 232 operates the information content transmission request transmission unit 253 to send an information content transmission request to the target information providing station stored in the partner information providing station specifying unit 237 via the communication unit 210. Send.

  Thereafter, in S145, the reception processing unit 231 monitors the communication unit 210 and determines whether information content is sent from the information providing station 21. When the information content is received, the reception processing unit 231 operates the information content receiving unit 238 to store the received information content in the information content storage unit 252 in S146.

  If the information content is not received in S145, and after the information content received in S146 is accumulated, the process returns to S147, the transmission processing unit 232 waits for a certain time, and if not completed, the operation of S141 is performed again. It should be noted that the reason why the wait for a certain period of time is placed at the position of S147 is for the sake of explanation, and when ending is selected after S143, S145, and S146, the process may return to S141 without performing the wait at S146.

  In the modification of the second embodiment described with reference to FIG. 32, the following changes may be made as the operation of the terminal 31. Instead of S147 in FIG. 14, a step of determining whether or not a certain distance has been moved after performing the previous search and a step of performing a loop in and after S142 only when the distance has moved by a certain distance or more may be provided.

  According to the second embodiment of the present invention, the information content is obtained on the terminal side after searching for the information providing station based on the broadcast data from the terminal, so that the information content can be provided more reliably and efficiently. And can be collected. In addition, since the search for the information providing station is repeatedly performed, the communication can reach the information providing station that has not reached the communication at a certain point in time to obtain the information content. In addition, instead of searching for information providing stations at regular time intervals, the interval can be increased or decreased depending on the situation as described above, thereby enabling flexible search, early detection of information providing stations, and redundant reception of information contents. It is possible to collect information more efficiently in terms of prevention.

<Third embodiment>
FIG. 5 is a conceptual diagram showing a third embodiment of the information exchange system of the present invention.
Here, the case where information content is transmitted only to the terminal discovered by the search after the terminal search performed from the information providing station 21 is shown.
The information providing station 21 searches for a communicable terminal and sends information content to the terminal 31 when a communicable terminal 31 is found. The terminal 31 existing within the radius r <b> 21 centering on the information providing station 21 can return a response when searched to the information providing station 21, and can receive the information content transmitted by the information providing station 21. it can.

  In this case, since it is necessary for the information providing station 21 and the terminal 31 to communicate bidirectionally, the radius r21 has an electric field strength of a certain level or more when the terminal 31 receives the radio wave intensity transmitted by the information providing station 21. This is the smaller value of the radius of the circle indicating the range and the radius of the circle indicating the range having a certain electric field strength when the information providing station 21 receives the radio wave intensity transmitted from the terminal 31. Note that the terminal 32 that does not exist within the radius r <b> 21 centering on the information providing station 21 cannot perform bidirectional communication with the information providing station 21 and cannot receive information content from the information providing station 21.

As one means for searching for a terminal with which the information providing station 21 can communicate, for example, a method of attempting bidirectional communication addressed to a specific terminal 31 and waiting for a response from the partner terminal 31 is conceivable.
In this case, if a response is returned, the search for the terminal succeeds, and if no response is returned, the search for the terminal fails. The search procedure of the terminal 31 may be performed independently of the information content transmission procedure, or the search procedure and the information content transmission procedure may be realized simultaneously by sending the information content to a specific terminal 31. Good.

  One means for searching for a terminal with which the information providing station 21 can communicate is, for example, a method of broadcasting for searching without specifying a terminal and waiting for a response from the terminal. In this case, if a response is returned, the search for the terminal succeeds, and if no response is returned, the search for the terminal fails. In this case, responses may be returned from a plurality of terminals. Note that this terminal search procedure may be performed independently of the information content transmission procedure, or the search procedure and the information content transmission procedure may be realized simultaneously by broadcasting the information content and returning a response. . In this case, the difference from the first embodiment is that the communication procedure is bidirectional communication and a response is returned to the information providing station 21.

  As one method for searching for terminals, it is conceivable to search repeatedly at regular time intervals. This is because the information providing station 21 does not move, only the terminal 31 moves, only the information providing station 21 moves and only the terminal 31 does not move, or the information providing station 21 and the terminal 31 move together. Is also effective.

  As another method for searching for a terminal, it may be possible to search for a terminal every time the information providing station 21 moves a certain distance or more. This is particularly effective when only the information providing station 21 moves and the terminal 31 does not move.

FIG. 33 is a conceptual diagram showing a modification of the third embodiment. If the information providing station 21 searches for a terminal at the position P1, the next search is performed at the position P2 that has moved the distance D, and the next search is performed at the position P3 that has further moved the distance D.
Further, it is also possible to use a combination of repeatedly searching at fixed time intervals and searching for a terminal each time the information providing station 21 moves more than a fixed distance. This is particularly effective when both the information providing station 21 and the terminal 31 move.

  When the information providing station 21 fails to search for a terminal, it is necessary to search for the terminal again because information content cannot be passed to the terminal. On the other hand, when the search for the terminal is successful, the information content is once passed, so that the necessity for the search again becomes lower than in the above case. Further, even if the terminal search is performed again, there is a high possibility that the same terminal is searched and only the same information content can be delivered.

Once the terminal search is successful, the information content of the information provider is updated or the information content is deleted on the terminal side by extending the time until the next terminal search. The possibility that a new terminal is located within the search range is increased.
Therefore, even if the terminal search is repeated at regular time intervals, the time T1 until the next search is performed when the previous terminal search is successful is the next time when the previous terminal search fails. It is preferable to make it longer than time T2 until the search is performed.

  In addition, when the information providing station 21 moves, the possibility that a new terminal is located within the search range increases. Therefore, when the terminal search is repeated at regular time intervals, if the moving distance from the position of the information providing station 21 in the previous terminal search is short, the search from the previous terminal search to the next search is performed. It is preferable to lengthen the time and shorten the time from the previous terminal search until the next search is performed when the moving distance from the position of the information providing station 21 in the previous terminal search is large.

Next, FIG. 9 shows an explanatory diagram of the data flow in the third embodiment.
FIG. 9 shows a case where the information providing station 21 performs terminal search SB31, SB32, SB33, SB34, and SB35 at regular time intervals.
The search may be performed by transmitting SB31, SB32, SB33, SB34, and SB35 to a specific terminal 31, or may be transmitted to an arbitrary terminal without defining a specific terminal.

  In FIG. 9, terminal search SB33 and SB34 succeed and discover the terminal 31, and responses SR33 and SR34 are returned to the information providing station 21, respectively. On the other hand, the terminal search SB31, SB32, SB35 is not successful and the terminal cannot be found. When the terminal 31 is found, the information providing station 21 transmits the data DT33 and DT34 including the information content to the terminal 31, and the terminal 31 extracts and accumulates the information content from the transmitted data DT33 and DT34.

  In FIG. 9, terminal search SB31, SB32, SB33, SB34, SB35 is performed at regular time intervals. For example, since the terminal search SB33 is successful, the interval until the next terminal search SB34 is performed. A modification example in which the length is increased is conceivable. Further, the search interval of the terminal can be changed according to the moving distance of the information providing station 21.

Next, the format of the data SB, SR and DT used in the third embodiment of the present invention is shown in FIGS.
FIG. 48 shows data SB for searching for a terminal, but the address d1 of the transmission destination may be designated as “any terminal” instead of entering the specific terminal 31 (multicast). In the case of multicast, SB can be received by any terminal.

FIG. 49 shows the response SR transmitted from the terminal, but a parameter for designating the requested information content may be added as the data d7.
FIG. 50 shows “data including information content” DT transmitted from the information providing station. However, unlike the DB of the first embodiment, the transmission destination address d1 is represented by a single address. Can be resent.

FIG. 15 is a flowchart for explaining the operation of the information providing station 21 (100) of FIG. 9 in the third embodiment of the present invention.
The transmission processing unit 132 of the information providing station 21 determines whether or not to end in S151. If not, the transmission processing unit 132 loops S152 to S155.

  In S152, the transmission processing unit 132 operates the arbitrary terminal search information transmission unit 146 to search for a terminal via the communication unit 110. In S153, it is determined whether there is a response from the terminal. Here, the reception processing unit 131 monitors the communication unit 110 and determines whether or not the received data is a response by the arbitrary terminal search result reception unit 142. If the received data is a response, the reception processing unit 131 sends the response to the counterpart terminal specifying unit 137. accumulate.

  If there is no response, the process returns to S155 and the transmission processing unit 132 waits for a predetermined time. If there is a response from the terminal 31, the information content is transmitted to the terminal 31 in S154. Here, the transmission processing unit 132 operates the information content transmission unit 153 to transmit the information content to the terminal stored in the counterpart terminal specifying unit 137 via the transmission unit 110.

  Then, the process returns to S155, waits for a certain time, and if not finished, the operation of S151 is performed again. It should be noted that the reason why the wait for a certain period of time is placed at the position of S155 is for the sake of explanation.

  FIG. 16 is a flowchart for explaining the operation of the terminal 31 of FIG. 9 in the third embodiment of the present invention.

  The reception processing unit 231 of the terminal 31 determines whether or not to end in S161, and if not, loops S162 to S165. In S162, it is determined whether a terminal search from the information providing station 21 has been received. Here, the reception processing unit 231 monitors the communication unit 210 and checks with the terminal search information reception unit 243 whether the received data is a terminal search. When the terminal search data is received, the information is stored in the partner information providing station specifying unit 237.

  If the terminal search is received in S162, the terminal search response transmission unit 247 returns the response of the terminal search to the information providing station 21 via the transmission processing unit 232 and the communication unit 210 in S163 and returns to S161.

  If no terminal search is received in S162, it is determined in S164 whether information content has been sent from the information providing station 21. Here, the reception processing unit 231 monitors the communication unit 210, and the information content receiving unit 251 determines whether the received data has information content. If received, the reception processing unit 231 operates the information content receiving unit 251 to store the received information content in the information content storage unit 252 in S165.

  When the information content is not received in S164, and after the information content received in S165 is accumulated, the process returns to S161. Note that the loop in the case of not ending is for explanation, and for example, a process of waiting for a certain time and saving power consumption may be added before returning to S161 again.

As an operation of the information providing station 21 in the modified example of the third embodiment described with reference to FIG. 15, instead of S155 in FIG. 15, a step of determining whether or not a certain distance has been moved after performing the previous search; This step can be realized by providing a step of performing a loop from S152 onwards only when the robot moves a certain distance or more.
According to the third embodiment of the present invention, since the information providing station searches for a terminal at regular time intervals and transmits information content when the search is successful, the terminal that has not reached communication at a certain point in time. On the other hand, at another point in time, communication reaches and information content can be provided.

<Fourth embodiment>
FIG. 6 is a conceptual diagram showing a fourth embodiment of the information providing system of the present invention.
Here, the terminal 31 is broadcasting an information content transmission request, and the information providing station 21 that has received the information content transmission request transmits information content to the terminal 31 that has broadcast the information content transmission request.
In this case, the terminal can request information content from the information providing station without detecting a communicable partner information providing station.

  The terminal 31 existing within the radius r 21 centered on the information providing station 21 can send an information content transmission request to the information providing station 21 and can receive the information content transmitted by the information providing station 21.

  In this case, since it is necessary for the information providing station 21 and the terminal 31 to communicate bidirectionally, the radius r21 has an electric field strength of a certain level or more when the terminal 31 receives the radio wave intensity transmitted by the information providing station 21. This is the smaller value of the radius of the circle indicating the range and the radius of the circle indicating the range having a certain electric field strength when the information providing station 21 receives the radio wave intensity transmitted from the terminal 31. Note that the terminal 32 that does not exist within the radius r <b> 21 centering on the information providing station 21 cannot perform bidirectional communication with the information providing station 21 and cannot receive information content from the information providing station 21.

  In this case, the terminal 31 cannot know in advance which circle of the information providing station has the radius r21. Further, when the information providing station 21 or the terminal moves, for example, the terminal that has been outside the circle of the radius r21 It is also conceivable that 32 moves relatively within a circle of radius r21. Therefore, by repeatedly broadcasting the same information content transmission request, the terminal 31 can receive the information content transmission request at different times even if it is an information providing station that could not receive the information content transmission request at a certain time. It becomes possible.

  As one method for repeatedly broadcasting information content transmission requests having the same content, it is conceivable to broadcast repeatedly at regular time intervals. This is because the information providing station 21 does not move, only the terminal 31 moves, only the information providing station 21 moves and only the terminal 31 does not move, or the information providing station 21 and the terminal 31 move together. Is also effective.

  As another method of repeatedly broadcasting information content transmission requests having the same content, it is conceivable to broadcast each time the terminal 31 moves a certain distance or more. This is particularly effective when only the terminal 31 moves and the information providing station 21 does not move.

FIG. 34 is a conceptual diagram showing a modification of the fourth embodiment. If the terminal 31 broadcasts at the position P1, the next broadcast is performed at the position P2 that has moved the distance D, and the next broadcast is performed at the position P3 that has further moved the distance D.
Further, it may be used in combination of repeatedly broadcasting at a certain time interval and broadcasting every time the terminal 31 moves a certain distance or more. This is particularly effective when both the information providing station 21 and the terminal 31 move.

  When the terminal 31 cannot obtain the information content from the information providing station, it is necessary to broadcast the information content transmission request again in order to obtain the information content. On the other hand, when the information content is obtained from the information providing station, since the information content is once obtained, the necessity of broadcasting the information content transmission request again becomes lower than in the above case. Also, even if the information content transmission request is broadcast again, there is a high possibility that only the same information content will be returned from the same information providing station.

When information content is sent, the information content of the information provider is updated or the new information provider is within the search range by lengthening the time until the broadcast of the next information content transmission request. The possibility of being located increases.
Therefore, when the information content transmission request broadcast is repeated at regular time intervals, the time T1 until the next broadcast is performed when the information content is sent to the previous broadcast is the previous broadcast. However, it is preferable to make the time longer than the time T2 until the next broadcast when the information content is not sent.

  Further, when the terminal 31 moves, the possibility that a new information providing station is located within the search range increases. For this reason, when the information content transmission request broadcast is repeated at regular time intervals, if the moving distance from the position of the terminal 31 at the time of the previous information providing station search is small, the information content transmission request broadcast starts from the previous information content transmission request broadcast. The time until the next broadcast is lengthened, and if the moving distance from the position of the terminal 31 at the time of the previous information providing station search is large, the time from the broadcast of the previous information content transmission request to the next broadcast is increased. It is preferable to shorten it.

  Next, FIG. 10 shows an explanatory diagram of the data flow in the fourth embodiment. The terminal 31 shows a case where data RB41, RB42, RB43, RB44, and RB45 including an information content transmission request are broadcast at regular time intervals.

  Since RB41, RB42, RB43, RB44, and RB45 are broadcast data, it is not guaranteed whether they reach the information providing station. In FIG. 10, the broadcast data RB43 and RB44 reach the information providing station 21, and the broadcast data RB41, RB42 and RB45 do not reach the information providing station 21.

  On the other hand, the information providing station 21 that has received the information content transmission requests RB43 and RB44 transmits data DT43 and DT44 including the information content to the terminal 31, and the terminal 31 extracts the information content from the transmitted data DT43 and DT44. accumulate.

Next, FIGS. 51 and 52 show the formats of data RB and DT used in the fourth embodiment of the present invention.
FIG. 51 shows the format of the information content transmission request RB transmitted from the terminal, but a parameter for designating the requested information content may be added as the data d7.
FIG. 52 shows data DT including information content transmitted from the information providing station. Unlike the DB of the first embodiment, since the transmission destination is represented by a single address, retransmission at the network level is possible. It is.

FIG. 17 is a flowchart for explaining the operation of the information providing station 21 (100) of FIG. 10 in the fourth embodiment of the present invention.
The reception processing unit 131 of the information providing station 21 determines whether or not to end in S171. If not, the reception processing unit 131 loops S172 and S173. In S172, it is determined whether an information content transmission request broadcast from the terminal 31 has been received.

  In S172, the reception processing unit 131 monitors the communication unit 110. When the received data is an information content transmission request, the reception processing unit 131 operates the information content transmission request reception unit 151 to obtain the terminal information and the partner terminal identification unit 137. To accumulate.

  When this information content transmission request is received, the information content is transmitted to the terminal 31 in S173. In S173, the transmission processing unit 132 operates the information content transmission unit 153 to transfer the information stored in the information content holding unit 152 to the terminal stored in the counterpart terminal specifying unit 137 via the communication unit 110. To send.

  If the information content transmission request broadcast in S172 is not received, or after the information content is transmitted to the terminal 31 in S173, the process returns to S171, and if not finished, the operation of S172 is performed again. Note that the loop in the case of not ending is for explanation, and for example, before returning to S171 again, processing such as waiting for a fixed time to save power consumption may be added.

FIG. 18 is a flowchart for explaining the operation of the terminal 31 in the fourth embodiment of the invention.
The transmission processing unit 232 of the terminal 31 determines whether or not to end in S181. If not, the transmission processing unit 232 loops S182 to S184. In S <b> 182, the transmission processing unit 232 operates the information content transmission request broadcasting unit 254 to broadcast the information content transmission request to the information providing station via the communication unit 210.

  Thereafter, in S183, the reception processing unit 231 monitors the communication unit 210 to determine whether information content has been sent from the information providing station 21. If received, the reception processing unit 231 operates the information content receiving unit 251 in S184 to store the received information content in the information content storage unit 252.

  When the information content is not received in S183 and after the information content received in S184 is accumulated, the process returns to S185 and the transmission processing unit 232 waits for a certain period of time. It should be noted that the reason why the wait for a certain period of time is placed at the position of S185 is for explanation, and when ending is selected after S183 and S184, the process may return to S181 without performing the wait at S185.

FIG. 35 is a flowchart for explaining the operation of the terminal 31 in the modification of the fourth embodiment of the present invention described with reference to FIG.
The information processing unit 230 of the terminal 31 determines whether or not to end in S351, and if not ended, it is structured to loop S352 to S356.

  In step S <b> 352, the position information acquisition unit 233 acquires the current position using the position information detection unit 220. In S353, the position information processing unit 234 checks whether the distance between the position where the previous broadcast was performed and the current position is a certain value or more. If it is equal to or greater than a certain value, the process proceeds to S354, and if it does not reach the certain value, the process returns to S351.

  In S354, the transmission processing unit 232 operates the information content transmission request broadcasting unit 254, and broadcasts the information content transmission request to the information providing station via the communication unit 210. Thereafter, in S355, the reception processing unit 231 determines whether information content has been sent from the information providing station 21 by monitoring the communication unit 210.

  If received, the reception processing unit 231 operates the information content reception unit 251 to store the received information content in the information content storage unit 252 in S356. If the information content is not received in S355, and after the information content received in S356 is accumulated, the process returns to S351, and if not completed, the operation of S352 is performed again. Note that the loop in the case of not ending is for explanation, and for example, processing such as waiting for a fixed time and saving power consumption may be added before returning to S351 again.

  According to the fourth embodiment of the present invention, since the terminal side repeatedly broadcasts the information content request from the terminal at regular time intervals, the information providing station that has not reached the communication at a certain point in time is also provided. At another point in time, communication arrives and information content can be obtained. Further, it is possible to efficiently provide and collect information contents without going through complicated communication procedures.

<About determination of information content identity>
Next, in the present invention, another embodiment relating to reception of information content will be described. In the first embodiment of the present invention, information content having the same content is repeatedly broadcast from the information providing station 21, and the information content having the same content may be accumulated redundantly in the terminal 31. From the viewpoint of effective use of the memory resources of the terminal 31, it is sufficient to store only one information content having the same content.
In other words, it is preferable that a determination unit is provided in the terminal to determine whether the received information content is the same as the information content that has already been stored, so that the same information content is not stored again. .

  21, 22, and 23 are conceptual diagrams for receiving information content broadcast from a plurality of information providing stations 22, 23, and 24 using the first embodiment of the present invention at the terminal 31.

FIG. 21 is a conceptual diagram when the point where the terminal 31 is present is a position where any information content broadcast by the information providing stations 22, 23, 24 can be received.
FIG. 22 is a conceptual diagram showing that information contents broadcast from non-moving information providing stations 22, 23, and 24 are sequentially received as the terminal 31 moves.
In FIG. 23, the terminal 31 does not move, and the information providing stations 22, 23, 24 move so that the information content broadcast from the information providing stations 22, 23, 24 that could not be received before can be received. It is a conceptual diagram showing becoming.

Although not particularly illustrated, a case where both the terminal 31 and the information providing stations 22, 23, and 24 move is also conceivable. These drawings are diagrams for explaining the operation viewed from the terminal 31, and therefore other terminals may exist in addition to the terminal 31.
In these figures, when the information providing station 22 repeatedly broadcasts the same information content, once the information content broadcast from the information providing station 22 is received, the second time from the information providing station 22 There is no need to receive broadcasted information content. Therefore, it is effective that information contents broadcast from the same information providing station are regarded as the same contents and are not stored.

  Even if information content is repeatedly broadcast from the same information providing station, the information content may be updated inside the information providing station over time. In order to deal with such a situation, it is preferable to limit the period of time when information contents repeatedly broadcast from the same information providing station are considered to be the same. Thereby, even when the information content is updated inside the information providing station, the updated information content can be received and stored.

  In addition, when the terminal 31 makes a request for information content transmission to a specific information providing station 21 instead of the broadcast format, duplicate reception can be avoided in the same manner. When the terminal 31 previously made an information content transmission request to the information providing station 21 and received the information content from the information providing station 21, the terminal 31 transmits the information content to the same information providing station 21 for a certain period of time. By not making a request, it is possible to avoid receiving duplicate information content.

  Further, the information providing station 21 may determine whether or not to transmit the same information content repeatedly, and the same information content may not be transmitted again to the same terminal. For example, when the information providing station 21 receives an information content transmission request from the terminal 31 and has previously transmitted information content to the terminal 31, information is transmitted to the same terminal 31 for a certain period of time. It is preferable not to transmit the content. If the same information content is broadcast repeatedly, there is no need to set a limit on the period, but if the implementation is such that the terminal 31 discards the information content after a certain period of time, a limit is set on the period. Is valid.

  However, it is desirable to transmit new information content to the terminal 31 when the information content is updated. In addition, the same effect can be obtained when the terminal 31 transmits an information content transmission request including information such as information content received from the information providing station 21 before and information such as the time. When the information content transmission request includes that the information content has been received from the information providing station 21 before, it is not necessary to keep the previously transmitted history in the information providing station 21. Further, when the information content transmission request includes the time when the information content was previously received from the information providing station 21, the information content held by the terminal 31 compared with the time when the information content was updated. Can be determined by the information providing station 21.

<Disposal of information content>
By the way, even if the duplicate information content is not stored, in the information exchange system as shown in FIGS. 21, 22, and 23, the information content exceeding the storage capability of the terminal 31 is sent from a plurality of information providing stations. There is a case. Also, a large amount of information content may be sent from a single information providing station 21. In such a case, it is necessary to discard unnecessary information content in accordance with the storage capability of the terminal 31.

In general, it is desirable to leave new information content when there is no difference in qualitative importance between information contents.
FIG. 24 is a conceptual diagram showing an information content storage method that leaves up to three latest information contents.
The terminal 31 acquires the information contents DATA1, DATA2, DATA3, DATA4, and DATA5 in this order. In that case, all the information contents DATA1, DATA2, and DATA3 are accumulated.

When the information content DATA4 is received, since the maximum number of information contents that can be stored is 3, the oldest received information content DATA1 is deleted, and the information contents DATA2, DATA3, and DATA4 are stored and left. Similarly, when the information content DATA5 is received, the information content DATA2 is deleted, and the information contents DATA3, DATA4, and DATA5 are accumulated and left. The maximum number depends on the system design and may be three or more.
Also, importance may be given to the information content itself, and the information contents may be deleted in order from the lowest importance.

  FIG. 25 is a conceptual diagram showing an information content accumulation method in which the number of information contents is not limited and the memory for accumulation is limited, unlike the case of FIG. The terminal 31 has 8 Kbytes as an area for storing information contents, and can store any number of information contents within a range not exceeding this. The unit of the storage area varies depending on the system design and is not limited to 8 Kbytes.

  It is assumed that the terminal 31 acquires the information contents DATA1, DATA2, DATA3, DATA4, and DATA5 in this order, and the respective capacities are 1 Kbyte, 2 Kbyte, 3 Kbyte, 4 Kbyte, and 1 Kbyte. Since the information content DATA1 is 1 Kbyte, it can be stored. The information content DATA2 can be stored because the sum of the capacity with the information content DATA1 is 3K, and the information content DATA3 can also be stored because the sum of the capacity with the information contents DATA1 and DATA2 is 6K.

  If the information content DATA4 is to be stored, the sum of the capacities of the information content DATA1, DATA2, and DATA3 becomes 10K, so it is necessary to delete unnecessary information content. Even if the oldest received information content DATA1 is deleted, the sum of the capacities of the information contents DATA2, DATA3, and DATA4 is 9K, so that it cannot be stored yet, and the next oldest information content DATA2 is also deleted.

  As a result, the sum of the capacities of the information contents DATA3 and DATA4 becomes 7K, and the information contents DATA4 can be stored. On the other hand, when the information content DATA5 is received next time, the sum of the capacities of the information contents DATA3, DATA4, and DATA5 is 8K, which is a range that can be stored, and therefore it is not necessary to delete the information content DATA3 at this time.

FIG. 26 is a flowchart for performing the storage method of FIG. 24 in the information content storage unit of the terminal 31. The terminal 31 receives the information content (S261), and checks whether the total number of the stored information content and the received information content is less than the storable number (S262). If the number is less than the storable number, the process proceeds to S264. If the number is not less than the storable number, the oldest information content is deleted (S263) and then the process proceeds to S264.
Then, the information content received in S264 is accumulated, and the operation ends.

  FIG. 27 is a flowchart for performing the storage method of FIG. 25 in the information content storage unit of the terminal 31. The terminal 31 receives the information content (S271), and checks whether the capacity of the received information content is equal to or less than the storable capacity (S272). If it is not less than the capacity that can be stored, since it cannot be stored originally, the received information content is discarded (S276), and the process ends. If the capacity is less than the capacity that can be stored, the process proceeds to S273, and it is checked whether the total capacity of the stored information content and the received information content is less than the capacity that can be stored. If it is not less than the storable capacity, the oldest stored information content is deleted (S274), and the process returns to the condition determination in S273 again. If it is determined that the capacity is less than the capacity that can be stored, the process proceeds to S275, where the received information content is stored, and the operation ends.

<About information content genre broadcasting and genre registration>
The processing in the case of receiving information content exceeding the storage capability of the terminal 31 has been described using FIGS. 24 and 25, but only the information content desired by the terminal 31 may be received. Information content exceeding the storage capability of the terminal 31 is less likely to be received.
Therefore, a case will be described in which only the information content desired by the terminal 31 or the information content belonging to the desired category is delivered from the information providing station 21 to the terminal 31.

  As the simplest implementation method, when the terminal 31 transmits an information content transmission request to a specific information providing station 21, the desired information content may be specified in the information content transmission request. However, this method has a problem that the terminal 31 has to know in advance which information providing station has the desired information content.

  Therefore, in order to solve this problem, in the present invention, when the terminal 31 requests the information content from the information providing station, the terminal 31 does not request the information content itself but specifies the category to which the information content belongs. That's fine. For example, if the terminal is a personal information terminal, classifications such as music, movies, sports, and regional information can be applied as categories, or the personal information itself can be transmitted to the information provider station. A method of determining information content to be sent to the terminal based on information such as address, age, and sex is also conceivable. The personal information transmitted by the terminal in this case can be regarded as broad category information.

  The first method of designating the category to which the information content belongs has the information providing station 21 when the information providing station 21 has the information content that matches the information content type requested from the terminal 31. This is a method of returning information content to the terminal 31.

  In the information content transmission requests DR23, DR24 in the second embodiment (FIG. 8) of the present invention and the data RB41, RB42, RB43, RB44, RB45 including the information content transmission request in the fourth embodiment (FIG. 10), The terminal 31 can specify the information content type. In addition, the designation of information content type may be included in the terminal search responses SR33 and SR34 in the third embodiment (FIG. 9) of the present invention.

  Upon receiving these, the information providing station 21 transmits the information content to the terminal 31 when it has information content that matches the information content type. Note that an information content transmission request specifying an information content type is sent to a specific information providing station 21 by designating the information content type when broadcasting data including the information content transmission request of the fourth embodiment (FIG. 10). Instead of sending it, it is possible to send it to any information provider.

  The second method of specifying the category to which the information content belongs is that the information content type requested from the terminal 31 is registered in the information providing station 21, and the information providing station is entered when the matching information content is input or updated. 21 is a method of returning the information content to the terminal 31.

  When the information providing station 21 receives the designation of the information content type from the terminal 31 as in the first method, the information providing station 21 stores the information content type and the information of the terminal 31 that has sent the information content type in combination. To do. Thereafter, when the information content of the designated category is added or updated (the update is regarded as an input in a broad sense), the information providing station 21 sends the information content to the terminal 31 that designates the information content type. Send.

  Note that an information content transmission request specifying an information content type is sent to a specific information providing station 21 by designating the information content type when broadcasting data including the information content transmission request of the fourth embodiment (FIG. 10). Instead of sending it, it is possible to send it to any information provider.

  Furthermore, when data including information content in the first embodiment (FIG. 7) is broadcast, there is also a method of broadcasting data including information content that matches the sum of information content types requested from a plurality of terminals.

  FIG. 28 shows a conceptual diagram of genre designation of desired content. Here, the terminals 32, 33, and 34 respectively designate the genres “movie”, “movie and music”, and “sports” to the information providing station 21. In this case, if the information providing station 21 holds information content that matches any genre of “movie, music, and sports”, it broadcasts data including the information content at regular intervals. In this case, the information providing station 21 does not need to store the information content type and the information of the terminal 31 that has sent the information content in combination, and may simply have the sum of the information content types.

In addition to simply registering the information content type desired by the terminal 31 with the information providing station 21, if there is a means for canceling the registration, unnecessary information content transmission can be avoided.
When the information providing station 21 receives the specified cancellation of the information content type from the terminal 31, the information providing station 21 deletes the canceled information content type from among the stored information content types previously sent by the terminal 31. To do.

  The data flow in the embodiment shown in FIG. 28 will be described with reference to FIG. The terminal 31 first transmits the desired genre “movie” and registers it in the information providing station 21. Thereafter, the information providing station 21 transmits information content movie information 1 and movie information 2 to the terminal 31 when it is input. Since the music information 1 is not the genre desired by the terminal 31, it is not transmitted.

  Next, the terminal 31 transmits the desired genre “sports” and additionally registers it with the information providing station 21. After that, when the sports information 1 and the movie information 3 are input as information contents, the information providing station 21 matches the genre “movie, sports” desired by the terminal 31 and transmits it to the terminal 31.

  Thereafter, the terminal 31 transmits to the information providing station 21 a cancellation of the desired genre regarding “movie”. The information providing station 21 changes the desired genre of the terminal 31 from “movie, sports” to “sports” and stores it. Thereby, when the information providing station 21 inputs the information content movie information 4, it does not transmit to the terminal 31, and when the information content sports information 2 is input, it transmits to the terminal 31.

Next, an information exchange system in which information is provided bi-directionally between two terminals will be described.
FIG. 38 is a conceptual diagram showing that information content is exchanged between an information processing device E that holds information content G and an information processing device F that holds information content H.

  FIG. 38A shows that the information processing apparatus E holds the information content G and the information processing apparatus F holds the information content H. Then, it is assumed that the information processing device E wants the information content H that the information processing device F has, and the information processing device F wants the information content G that the information processing device E has. In this case, since the mutual interests match, the information content H of the information processing device F is passed to the information processing device E, and the information content G of the information processing device E is passed to the information processing device F for exchange. Is established (FIG. 38 (2)).

This operation includes (1) a “confirmation step” for confirming that the other party holds the information content desired by the other party and the information content desired by the other party, and (2) the information content desired by the other party. It consists of an “exchange step” to be exchanged (FIG. 38 (3)). Since ancient times, commercial activities beginning with bartering have unconsciously performed these two steps. However, when information is exchanged between information processing apparatuses, it is necessary to divide the steps consciously. In addition, regarding the specific “confirmation step” and “exchange step”, various implementations including those conventionally used can be considered.
For example, in the “confirmation step”, a “confirmation request” for confirming whether one of the information devices holds the information content desired by the information device is transmitted to the other information processing device. In the case where the other party who has received the information content requested by the confirmation request, an “answer” indicating that it is retained may be transmitted to one information processing apparatus.

  FIG. 39 is a modification of FIG. 38, in which the information processing apparatus E that holds the information content G wants the information content H to be exchanged with the information that the information content G is held and the provision and exchange of the information content G Is sent to an arbitrary information processing apparatus using broadcast (FIG. 39 (1)). Among the information processing devices that have received the broadcast, an information processing device that does not hold the information content H or does not want the information content G does not respond to the broadcast.

  Among the information processing devices that have received the broadcast, the information processing device F that holds the information content H and desires the information content G responds to the broadcast and exchanges the information content. In this case, the “confirmation step” includes a broadcast from the information processing apparatus E and a response of the information processing apparatus F to the broadcast, and the “exchange step” includes actual information content exchange (FIG. 39 (2)).

40 and 41 are further modified examples of FIGS. 38 and 39, and the information content H owned by the information processing apparatus F is obtained by processing the information content I received from the information processing apparatus E in advance.
Here, since it is thought that it is useful for an understanding to show the concrete application example called a questionnaire answer, the explanation is given.

  The information processing apparatus E sends a questionnaire question sheet (information content I) to the information processing apparatus F. The information processing apparatus F creates a questionnaire response (information content H) by answering the questionnaire question (processing the information content I to obtain the information content H). The information processing device F sends a questionnaire response (information content H) to the information processing device E, and obtains some crude product (information content G) in return.

  In FIG. 40, when answering a questionnaire question, that is, when processing information content, a questionnaire question (information content I) is output to the user, and an answer (information content H) is created according to the user operation.

  On the other hand, in FIG. 41, an answer (information content H) is created from a questionnaire question form (information content I) according to predetermined processing information. This means that, for example, information that can be disclosed such as name, address, age, and hobby is registered in the information processing apparatus F in advance, so that information content can be exchanged without a user operation. Yes.

<Information recording medium>
Each processing and function of each information processing apparatus, information providing station, and terminal is realized as a program. This program is stored in a computer-readable recording medium, and each process is realized by the program.

Examples of recording media include tape systems such as magnetic tapes and cassette tapes, magnetic disks such as FD and hard disks, disk systems such as optical disks such as CD-ROM / MO / MD / DVD, IC cards and optical cards. Any medium such as a card system, a mask ROM, an FPROM, an EEPROM, a semiconductor memory such as a flash ROM, and the like that holds a fixed program may be used.
As broadcasted music data, music data input by television or radio broadcasting, radio waves from wireless stations, cable broadcasting, broadcasting using a network, or the like can be considered. The communicated music data includes input by wired communication such as a modem, a LAN, a connection cable, etc., and wireless communication such as radio waves, infrared rays, mobile phones, and PHS.

<Specific example>
Next, a specific example of a portable automatic information collection device using the information exchange system of the present invention will be described. Hereinafter, a case where shopping information such as a personal computer is collected as information content will be described. However, the present invention is not limited to this and can be used for collecting similar information. As short-distance wireless communication means for exchanging information, a radio wave medium used in a wireless LAN defined by Bluetooth or IEEE802.11, or infrared rays can be used.

FIG. 36 is a conceptual diagram for explaining the operation of an automatic information collecting device that collects shopping information as information content.
Assume that the stores A, B, and C transmit price information related to the products sold by the stores through short-range wireless communication. A user with an automatic information collection device walks along the street and collects information in the order of stores A, B, and C. Here, the information providing station 21 installed in each store corresponds to the automatic information collecting device carried by the user and corresponds to the terminal 31.

In the example of FIG. 36 (1), the user first receives and stores “personal computer 100,000 yen, word processor 50,000 yen” as the product price information transmitted from the store A at the position A. Next, as the product price information transmitted by the store B, “PC 80,000 yen, word processor 60,000 yen” is received and stored at the position B. Finally, “PC 120,000 yen, word processor 40,000 yen” is received and stored as product price information transmitted from the store C at the position C.
In this way, just by walking along the street facing the store, a list of sales prices of each store is stored in the automatic information collecting device.

  In the example of FIG. 36 (2), a genre is designated in advance, and only price information regarding the personal computer is collected. First, “PC 100,000 Yen” is received and stored as product price information transmitted by the store A. Next, “personal computer 80,000 yen” is received and stored as product price information sent by store B. Finally, “PC 120,000 yen” is received and stored as product price information transmitted by the store C. In this way, simply by walking along the street facing the store, a list of sales prices of each store related to only the desired product is stored in the automatic information collecting device.

In the example of FIG. 36 (3), an automatic information collecting device that accumulates only product price information indicating the lowest price is shown.
First, “PC 100,000 yen, word processor 50,000 yen” is received and stored as merchandise price information transmitted by store A.

  Next, “PC 80,000 yen, word processor 60,000 yen” is received as merchandise price information sent by store B, but store B is cheaper for computers and store A is cheap for word processors. "10,000 yen, A shop word processor 50,000 yen" is stored as information, and the PC price of A shop and the word processor price information of B shop are discarded.

Finally, even if “PC 120,000 yen, word processor 40,000 yen” is received as product price information sent by store C, “B store PC 80,000 yen, C store word processor 40,000 yen” is stored as information. The PC price of the C store and the word processor price information of the A store are discarded.
As described above, as is clear from the specific example of the information exchange system of the present invention, the user can automatically store the shopping information by simply walking with the automatic information collecting device without having to repeat complicated input operations. In addition, only shopping information relating to a desired product genre can be automatically collected.

  In the specific example of FIG. 36, consider the case where the procedure of the first embodiment as shown in FIG. 7 is applied. In this case, the information providing station 21 of each store regularly broadcasts the data DB, and the user terminal 31 receives this data DB. When this first embodiment is applied, there is a part lacking in the reliability of information because it is basically one direction, but the terminal 31 only needs to have at least a reception processing function, and there is an advantage that the function can be easily implemented. is there.

  Next, consider a case where the second embodiment as shown in FIG. 8 is applied. In this case, the data SB is transmitted every time the user's terminal 31 moves at a certain time or a certain distance, and when the user falls within a predetermined range, the information providing station of each store 21 receives this data SB. Then, the information providing station 21 of each store returns the data SR. Thus, after the search procedure is completed, the data DR is transmitted from the terminal 31 to the information providing station 21, and the information providing station 21 that has received this DR transmits the data DT corresponding to the DR to the user terminal.

  In this case, there are the following advantages. Since the first action is performed from the terminal side that needs the information content, the transmission of the information content or the terminal search is performed efficiently. Further, when the user is not nearby, the information providing station 21 does not need to perform any transmission. The terminal 31 can specify information (or genre) that the terminal 31 wants to provide using SB or DR.

  Each store can know the information of the partner terminal through the DR, and can know to which consumer the information content has been distributed. Since DR designates the other party, personal information is not sent to an unspecified number. Since a network-level retransmission mechanism can be used, there is an advantage that transmission of DT is reliable and long information content can be transmitted.

  Next, consider the case where the third embodiment as shown in FIG. 9 is applied. In this case, the user terminal 31 receives data SB (multicast) periodically transmitted from the information providing station 21 of each store. In response to this, a response SR is returned at the user terminal. Further, the information content data DT is transmitted from the information providing station 21 of the store, and the user terminal 31 receives it. The application of the third embodiment has the following advantages.

  Since the data SR transmitted periodically has a smaller data amount than the DT including the information content, the communication load can be reduced. The terminal 31 can specify the information (or genre) desired to be obtained using the SR. Each store can know the information of the partner terminal through the SR, so it can know to which consumer the information content has been distributed. Since a network-level retransmission mechanism can be used, there is an advantage that transmission of DT is reliable and long information content can be transmitted.

  Next, consider the case where the fourth embodiment as shown in FIG. 10 is applied. In this case, the information providing station 21 of each store receives the data RB transmitted from the user's terminal 31 periodically or every time it moves a certain distance. Then, the information providing station 21 of the store that has received this data transmits data DT including the information content, and the user terminal 31 receives this data DT. The application of the fourth embodiment has the following advantages.

  Since the action is performed from the terminal side that needs the information content, the transmission of the information content or the terminal search is efficiently performed. Further, when the user is not nearby, the information providing station 21 does not need to perform any transmission. The terminal 31 can specify information (or genre) that the user wants to obtain using the RB. Each store can know the information of the partner terminal through the RB, so it can know to which consumer the information content has been distributed. Since a network-level retransmission mechanism can be used, there is an advantage that transmission of DT is reliable and long information content can be transmitted.

  FIG. 37 is a conceptual diagram for explaining the operation of an automatic information collecting device that collects gasoline price information as information content. As the information content collection method itself, the one described in the first to fourth embodiments can be used as in the specific example of FIG. Assume that the gas stations A, B, and C all send price information of 95 yen / L through short-range radio. An automobile equipped with an automatic information collecting device collects information in the order of gas stations A, B, and C by running on the street. Here, the gas station corresponds to the information providing station 21, and the automobile corresponds to the terminal 31.

  In general, gasoline only needs to be refueled when it runs out, and if it is full, you don't have to buy it at any cost. On the other hand, if the gas runs out, it will be necessary to refuel even if it is slightly higher. Therefore, it is assumed that the price of gasoline desired to be purchased can be set and changed in the automatic information collecting device mounted on the automobile.

  As shown in FIG. 37, for example, when the tank is full, there is no gasoline price set value (for convenience, 0 yen), and when the remaining amount is about half, the set value is 90 yen and the remaining amount is 1 When the value is / 10 or less, the setting value is set to 100 yen. Here, if there is a gas station where gasoline can be purchased at a price lower than the set value, information on the gas station may be collected.

At position A, the fuel tank is full and no refueling is required, so there is no set value. Therefore, the gasoline price information from the gas station A is not collected.
At position B, the fuel tank is nearly half, but there is still room, so 90 yen is set as the set value. The price of the gas station B is 95 yen / L, which is higher than the set value. Therefore, the gas price information from the gas station B is not collected.
At position C, the fuel tank needs to be refueled even if the fuel tank is close to the sky and is slightly higher, so 100 yen is set as the set value. Since the price of the gas station C is 95 yen / L, which is below the set value, the gasoline price information from the gas station C is collected.

In this embodiment, the set value of the gasoline sales price may be set by the driver himself, or the price may be changed in conjunction with the fuel tank. It is also effective to notify that the gasoline price information is collected by voice or display at the time of collection, or to display the position of the gas station where the gasoline price information was collected on the navigation device. Further, the set value of the gasoline sales price is changed based on the remaining gasoline amount, but may be changed based on the travel distance of the automobile.
Further, in collecting information other than the specific examples described above, when changing the set value of the sales price of a product other than gasoline, a setting standard specific to the product may be used.

The information providing station may be a fixed information transmission base station on a street corner or a portable information device held by another person. It is possible to automatically collect the information content provided by each information providing station simply by walking with the automatic information collecting device described above.
Or as a terminal which receives information, the fixed information receiving base station in a street corner may be sufficient, or the portable information apparatus which another person has may be sufficient. It is possible to automatically supply information content held by itself to a terminal capable of receiving information simply by walking with the automatic information providing device.

It is a conceptual diagram of the near field communication system which this invention assumes. It is explanatory drawing of the communicable range of the near field communication system which this invention assumes. It is a conceptual diagram which shows 1st Example of the information exchange system of this invention. It is a conceptual diagram which shows 2nd Example of the information exchange system of this invention. It is a conceptual diagram which shows 3rd Example of the information exchange system of this invention. It is a conceptual diagram which shows 4th Example of the information exchange system of this invention. It is a figure explaining the flow of data in 1st Example of this invention. It is a figure explaining the flow of data in 2nd Example of this invention. It is a figure explaining the flow of the data in 3rd Example of this invention. It is a figure explaining the flow of the data in 4th Example of this invention. It is a flowchart explaining operation | movement of the information provision station 21 in 1st Example of this invention. It is a flowchart explaining operation | movement of the terminal in 1st Example of this invention. It is a flowchart explaining operation | movement of the information provision station in 2nd Example of this invention. It is a flowchart explaining operation | movement of the terminal in 2nd Example of this invention. It is a flowchart explaining operation | movement of the information provision station in 3rd Example of this invention. It is a flowchart explaining operation | movement of the terminal in 3rd Example of this invention. It is a flowchart explaining operation | movement of the information provision station in 4th Example of this invention. It is a flowchart explaining operation | movement of the terminal in 4th Example of this invention. It is a schematic block diagram of the information provision station of the information exchange system of this invention. It is a schematic block diagram of the terminal of the information exchange system of this invention. It is a conceptual diagram (1) which receives in terminal 31 information content broadcasted from a plurality of information providing stations using the 1st example of this invention. It is a conceptual diagram (2) which receives in the terminal 31 the information content broadcasted from the some information provision station using 1st Example of this invention. It is a conceptual diagram (3) which receives in terminal 31 the information content broadcasted from the some information provision station using 1st Example of this invention. It is a conceptual diagram which shows one Example of the information content storage method which leaves up to three newest information contents. It is a conceptual diagram which shows the information content storage method which provides the restriction | limiting in the memory for storing the newest information content, and stores. It is a flowchart for performing the storage method of FIG. 24 in the information content storage part of a terminal. It is a flowchart for performing the storage method of FIG. 25 in the information content storage part of a terminal. It is a conceptual diagram showing designation | designated of the genre of desired content with respect to an information provision station. It is a conceptual diagram which shows the flow of the data between the information provision station in the conceptual diagram of FIG. 28, and a terminal. It is a conceptual diagram showing the modification of 1st Example of this invention. It is a flowchart explaining operation | movement of the information provision station in the modification of 1st Example. It is a conceptual diagram showing the modification of 2nd Example of this invention. It is a conceptual diagram showing the modification of 3rd Example of this invention. It is a conceptual diagram showing the modification of 4th Example of this invention. It is a flowchart explaining operation | movement of the terminal in the modification of 4th Example. It is a conceptual diagram explaining operation | movement of the automatic information collection apparatus in this invention. It is another conceptual diagram explaining operation | movement of the automatic information collection apparatus in this invention. It is a conceptual diagram explaining operation | movement of the information exchange system in this invention. It is another conceptual diagram explaining operation | movement of the information exchange system in this invention. It is another conceptual diagram explaining operation | movement of the information exchange system in this invention. It is another conceptual diagram explaining operation | movement of the information exchange system in this invention. It is explanatory drawing of one Example of the general format of the data of the information exchange system of this invention. It is explanatory drawing of the data format of broadcast data DB of 1st Example of this invention. It is explanatory drawing of the data format of search data SB of 2nd Example of this invention. It is explanatory drawing of the data format of the response SR of 2nd Example of this invention. It is explanatory drawing of the data format of the transmission request DR of 2nd Example of this invention. It is explanatory drawing of the data format of the information content data DT of 2nd Example of this invention. It is explanatory drawing of the data format of search data SB of 3rd Example of this invention. It is explanatory drawing of the data format of the response SR of 3rd Example of this invention. It is explanatory drawing of the data format of the information content data DT of 3rd Example of this invention. It is explanatory drawing of the data format of the transmission request RB of 4th Example of this invention. It is explanatory drawing of the data format of the information content data DT of 4th Example of this invention.

Explanation of symbols

21 Information providing station 31, 32 Terminal 100 Information providing station 110 Communication unit 120, 220 Position information detection unit 130, 230 Information processing unit 131, 231 Reception processing unit 132, 232 Transmission processing unit 133, 233 Position information acquisition unit 134, 234 Position information processing unit 135, 235 Timer processing unit 136 Terminal search processing unit 137 Partner terminal specifying unit 138 Information content transmission processing unit 200 Terminal 210 Communication unit 236 Information providing station search processing unit 237 Partner information providing station specifying unit 238 Information content receiving process Part

Claims (8)

A short-range wireless communication means capable of communicating only within a predetermined distance range, a terminal that performs short-range wireless communication with an information providing station,
The short-range wireless communication means
A search broadcasting unit that broadcasts information providing station search information to a given information providing station at regular time intervals;
A first receiving unit that receives response information transmitted from the information providing station;
A first transmission unit that transmits an information content request to the information providing station that has transmitted the response information when the response information is received;
A second receiving unit for receiving information content transmitted from the information providing station;
A terminal comprising a storage unit for storing received information content. It is an information providing station that includes short-range wireless communication means that can communicate only within a predetermined distance range and performs short-range wireless communication with a terminal.
The short-range wireless communication means
An information content holding unit for storing information content registered in advance;
A third receiving unit for receiving information providing station search information transmitted from the terminal;
A second transmitter that transmits response information when the information provider search information is received;
A request receiving unit for receiving an information content request transmitted from the terminal;
An information providing station, comprising: a third transmission unit that transmits the information content to a terminal that has transmitted the information content request when the information content request is received. An information exchanging method for a terminal that includes short-range wireless communication means capable of communicating only within a predetermined distance range and performs short-range wireless communication with an information providing station,
The short-range wireless communication means
Broadcast information provider search information to any information provider at regular intervals,
Receiving response information transmitted from the information providing station that has received the information providing station search information;
When the response information is received, an information content request is transmitted to the information providing station that has transmitted the response information,
Receiving the information content transmitted from the information provider in response to the information content request;
A terminal information exchange method, wherein the received information content is stored. An information exchange method of an information providing station that includes short-range wireless communication means that can communicate only within a predetermined distance range and performs short-range wireless communication with a terminal,
The short-range wireless communication means
Receiving information providing station search information transmitted from the terminal by broadcasting;
The response information is transmitted to the terminal that has transmitted the information providing station search information,
Thereafter, the information content request transmitted from the terminal is received,
An information exchange method of an information providing station, wherein information content registered and held in advance is transmitted to a terminal that has transmitted the information content request. An information exchange program for a terminal that performs short-range wireless communication that enables communication only within a predetermined distance range with an information providing station,
On the computer,
A search broadcast function for broadcasting information provider station search information to any information provider station at regular time intervals;
A first receiving function for receiving response information transmitted from the information providing station;
A first transmission function that, when receiving the response information, transmits an information content request to an information providing station that has transmitted the response information;
A second receiving function for receiving information content transmitted from the information providing station;
An information exchange program for realizing a storage function for storing received information content. An information exchange program of an information providing station that performs short-range wireless communication that enables communication only with a terminal within a predetermined distance range,
On the computer,
An information content holding function for storing information content registered in advance;
A third receiving function for receiving information providing station search information transmitted by broadcasting from the terminal;
A second transmission function for transmitting response information when the information providing station search information is received;
A request receiving function for receiving an information content request transmitted from the terminal;
An information exchange program for realizing, in a terminal that has transmitted an information content request, a third transmission function for transmitting the information content stored in advance.   A computer-readable recording medium storing the information exchange program according to claim 5.   A computer-readable recording medium storing the information exchange program according to claim 6.

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