JP2004140658A - Information processing apparatus, locational information utilizing system, and image management method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processing apparatus for demonstrating a location where the image is obtained from locational information by transmitting the locational information and the image information separately and editing afterward. <P>SOLUTION: Locational information and a time of acquisition are stored, and image information and a time acquisition are received. Each time of day is compared and stored with their relation. In this way, the image information is classified by the locational information afterward. The locational information stored previously is used as information retrieval, memorandum editing, printing matter editing or the like in a user's house so that convenience of a user 131 and safety are improved. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
An information processing apparatus, a position information use system, and an image management method used by the user 131 to clarify and edit the place where the user 131 has acquired an image with a digital camera or the like while away from home using a personal computer at home. About.
[0002]
[Prior art]
Acquisition of location information by GPS (Global Positioning System) obtained by a mobile phone is introduced by KDDI Corporation as a location information providing service by a mobile phone (for example, see Non-Patent Document 1). A location information management system using a mobile phone is also called a GTPS (Global Telephony Positioning System). There are also products such as Sony's IPS-8000 that are used by connecting to a mobile phone. Acquisition of accurate position information using an FM broadcast station is introduced as D-GPS by the Satellite Positioning Information Center Co., Ltd. (www.gpex.co.jp).
[0003]
Use of location information includes car navigation systems, luggage current location display services such as courier companies, stolen car discovery services by security companies, etc., mobile phone company meeting place notification services, or current location notification services in emergencies . Further, a method of relating the position information obtained by the GPS device and the image information obtained by the digital camera and storing the image obtained at which location is described as “Digital camera photography without failure”. Simultaneous print 5 "Editing" (Shunichi Murakami, published by Media Tech Publishing, October 2001). Kodak has announced a GPS-260 or the like as a digital camera system equipped with a means for acquiring position information using a GPS function. To identify the location where the image was acquired later on the go, use a dedicated digital camera with GPS function, or synchronize the time of the GPS device that records location information with the time of the digital camera, A system for synchronizing the image with the image may be used. However, location information is personal information, and if a digital camera and a GPS device that records location information are lost in the usage method, it is possible that the person in the image and the location of the home from past records may be clarified. There is.
[0004]
[Non-patent document 1]
Nikkei "Morning Edition" December 13, 2001, 6 pages, full-page advertisement
[0005]
[Problems to be solved by the invention]
As described above, in order to ensure the safety of the user 131, it is necessary to transmit the position information to a device different from the device obtained after obtaining the position information. However, it takes time each time to operate the GPS device every time to acquire position information for the purpose of classifying each image acquisition location later, which consumes electric power. In order to calculate the position in detail by a server or the like connected to the Internet or the like, communication costs are required, and it takes 10 to 20 seconds for each image acquisition, which is inconvenient. In particular, when acquiring a plurality of images at locations where the location information is substantially the same, it takes time and effort to acquire the location.
[0006]
The present invention has been made in view of the above problems, and provides an information processing apparatus that transmits position information and image information separately and edits them later so that the location where an image is obtained is clarified by the position information. I do. Further, the present invention provides an information processing apparatus that classifies and edits a plurality of images acquired at almost the same place with images acquired at other places. Still another object is to provide a position information use system and an image management method using the same.
[0007]
[Means for Solving the Problems]
In a portable information device for acquiring position information or an information processing device for acquiring information by connecting to an image acquisition device for acquiring image information, a position information acquired by the portable information device and a first information for specifying the position information Storage means for storing the unique information; receiving means for receiving the image information acquired by the image acquisition device and second unique information identifying the image information; and a storage means for receiving the first unique information and the second unique information. There is provided an information processing apparatus having processing means for comparing unique information and associating the image information with the position information.
[0008]
Further, the storage unit stores third unique information that does not specify position information, and the processing unit processes the first unique information and the third unique information, and has the position information. The first unique information may be detected, and the position information may be associated with the third unique information. Further, the receiving means receives second image information and fourth specific information for specifying the second image information, and the processing means sets the third specific information and the fourth specific information The information may be compared to associate the second image information with the position information. Using the information processing apparatus having such a configuration, the image information and the position information are stored in association with each other with high convenience.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
First Embodiment FIG. 1 is a diagram illustrating an example of a position information use system. The user 131 obtains the position information of the place where the image information is obtained by using a mobile phone or the like, and operates the computer at home after returning home to organize the image information. In other words, by associating the position information with the image information on the computer, the position where the user 131 has obtained the image is clarified and recorded, or the position where the image is printed from a printed matter on which the image is printed is clarified. In this way, the user 131 can record and edit a diary or an album, etc., or search for information related to the vicinity of the position where the image was shot, and can easily and easily use the position information that is easy to forget and express with the image information. Provide equipment. The position information may be any information that has at least one of latitude, longitude, and altitude and is used to specify a position on map information or the like. The position information may be an address, a name specifying a position, a landmark name, or the like. The image information may be still image information or moving image information. The image information may be selected in a file format suitable for a device to be used. For example, a compressed file format such as JPEG or MPEG may be used, and data used for displaying a scene, a person, an object, and the like on a screen, such as a photograph or a video, data transmitted / received via the Internet, or printing. Any data may be used as long as the data is used for the execution.
[0010]
1, the information processing apparatus 1 may be a server, a computer, an IP phone, a printing machine, a digital home appliance, or the like of the user 131 at home. In recent years, home servers and the like have been sold as servers, and it is easy to construct a system linked to other devices. Since the IP telephone is always started, it is easy to receive information. In a printing machine, it is convenient to print by attaching position information to image information. In digital home appliances, it is easy to browse by attaching location information to image information. As another configuration example of the information processing apparatus 1, there is a system having a configuration having a computer of the user 131, a server of the provider, and an information transmission path, and it is possible to cope with a variety of location information use systems. Become. A system is an aggregate composed of components such as computers and computer systems connected by a network, and performs a task having a single purpose as a whole. However, even if the information processing apparatus 1 is configured as a system, it is preferable that the user 131 has an input device or a display device operated by the user from the viewpoint of convenience. Similarly, when the information processing apparatus 1 is configured as a system, examples of a configuration operated by the user 131 include a server, a computer, a fixed telephone, an IP telephone, a printing machine, and a digital home appliance. The configuration operated by the provider includes various servers, computers, storage devices, and the like. As described above, the information processing apparatus 1 may be a system in which the configuration of the user 131 and the configuration of the provider are connected by the information transmission path. When the storage means is stored in a server or the like, the location information can be transmitted from a destination where the image information and the location information are acquired, the location information can be received at a home or office where the image information and the location information are edited later, or the Internet can be used. The information can easily be temporarily stored via the Internet, which is convenient. In addition, by using the server of the provider separately from the computer owned by the user, the user 131, such as an individual, can always connect the computer to the Internet while away from home or keep the computer turned on. It is not necessary to keep it, and the convenience is improved.
[0011]
In FIG. 1, an information processing device 1 includes a storage unit 2 that stores position information a1 acquired by a portable information device 6 and unique information A1 that specifies the position information a1, and image information b1 acquired by an image acquisition device 7. And receiving means 3 for receiving the unique information B1 for specifying the image information b1, and processing means 4 for comparing the unique information A1 and the unique information B1 to associate the image information b1 with the position information a1. Further, the storage unit 2 stores the unique information A2 whose position information is not specified, the processing unit 4 processes the unique information A1 and the unique information A2, detects the unique information A1, and stores the unique information A1 and the unique information A1. A2 may be related. Further, the receiving means 3 receives the image information b2 and the unique information B2 for specifying the image information b2, and the processing means 4 compares the unique information A2 and the unique information B2 to determine the image information b2 and the position information a1. May be related.
[0012]
It is sufficient that the information processing device 1 has a program for operating these units. The unique information only needs to have time information, number information, encryption information, character information, audio information, etc., and may be used in combination. At least after obtaining the image information, the association of the position information or the image information is performed. It should be usable for. The time information is a time specified by year, day, hour, minute, second, or a unique code. Even when the portable information device 6 and the image acquisition device 7 use different devices, the time information is In particular, it is unique information that can be shared and used and easily constructed without providing any means in two devices and synchronizing. However, when the processing unit 4 uses the unique information received from the portable information device 6 and the image acquisition device 7, respectively, the user 131 or the provider may synchronize with each other such as adjusting the time of the device. Further, the unique information may include an identification number for identifying the user 131 or information for identifying the portable information device 6, for example, an ID number, a serial number, a telephone number, an address, and the like.
[0013]
In FIG. 1, when the portable information device 6 and the image acquisition device 7 include a quartz clock, a radio clock, a clock device that obtains time information from a wireless transmission station, and the like, time information can be obtained with high accuracy. In particular, when a radio clock is provided, time information is automatically set and the convenience is high. As the number information, a serial number, a bar code, or the like is used. As the encryption information, for example, an electronic key for encrypting or decrypting the image information is used. The unique information A1 in this example has the time when the portable information device 6 has acquired the position information a1, but is attached to the position information a1 and the image information b1 in common or created by clarifying the relationship. Any information may be used as long as the information is easily classified by the information processing apparatus 1 or easily classified by the user 131. The unique information B1 of this example has at least the time at which the image acquisition device 7 acquired the image information b1, but is uniquely attached to the position information a1 and the image information b1 or created by clarifying the relationship. Any information may be used as long as the information is easily classified by the information processing apparatus 1 or easily classified by the user 131. A case where the unique information is described in a printed matter and printed together with the image information b1 will be described. For example, when the unique information B1 is described in a printed matter and printed together with the image information b1, when the user 131 inputs the unique information B1 described in the printed matter to the information processing apparatus 1, the unique information A1 stored in the storage unit 2 or The position information a1 is specified in comparison with the unique information B1, and the map information is further displayed to make it possible to clarify the location where the image was taken, thereby providing the user 131 with a highly convenient position information use system.
[0014]
The provider is a company that mainly provides a location use system and an image management method, and is, for example, a communication company, a server operator, a portal site operator, a printing company or a device manufacturing company. By using the information processing device 1 operated or partially operated by the provider, the provider can use a location information use system and an image management method as a value-added service for promoting the use of the homepage, or Part of the information can be provided to the user 131. Further, it is also possible to promote the sale of the portable information device 6 and the image acquisition device 7 as devices.
[0015]
Further, in this example, the information processing apparatus 1 includes a time information acquisition unit 102 including a clock device, and stores the time at which the position information a1 was received from the portable information device 6 as the unique information A1. Examples of a clock device include an atomic clock, a quartz clock, a radio clock, and the like. Further, in this example, the information processing apparatus 1 includes at least the position information receiving unit 101 that receives the position information a1 from the portable information device 6, and at least the unique information A1, the position information a1, the image information b1, and the unique information B1. It has information storage means 5 for storing. It is not necessary to store all of them at the same time. For example, after printing the image information b1 as the unique information A1, only the unique information A1 and the position information a1 may be stored. Further, the information processing apparatus 1 may include an information acquisition unit that acquires at least one of the map information or the regional information specified by the position information a1 from, for example, a server connected to the Internet or a CD-ROM. Thus, by obtaining the map information, the position information a1 can be specified and displayed on the map, and the convenience is high. In addition, by obtaining local information, it is possible to obtain and investigate advertisements, information, telephone numbers, or locations of stores and facilities in the vicinity of the location information a1, and to enhance the memory of the user 131 such as a diary, Convenience is increased.
[0016]
In this example, the storage unit 2 uses an HDD (Hard Disk Drive) as a storage device. The storage device used in the storage means 2 may be any of a magnetic storage device such as a magnetic drive and an optical disk, and a semiconductor storage device such as a semiconductor storage element. However, emphasis is placed on safe storage, and power saving, light weight, It may be selected depending on durability, cost and the like. The data is stored in a storage device using electricity, magnetism, light, or the like. The semiconductor memory device is a ROM (Read Only Memory), a RAM (Random Access Memory), an EEPROM (Electrically Erasable Programmable Read Only Memory), or a FRAM (Ferroelectric Memory, etc.). The storage unit 2 may use a storage medium such as a flexible disk, an MO disk, an SD card (registered trademark), and a memory stick (registered trademark).
[0017]
In FIG. 1, the storage unit 2 may store the position information and the unique information in the order in which they are received by the position information receiving unit 101. The user 131 may have a dedicated storage area in the storage device, and may store the position information and the unique information in the storage area in the order of reception. Also, when the unique information is time information or serial number information, the position information can be stored clearly in order, making it easier for the user 131 to edit and improving the convenience. Further, the position information may be automatically acquired and stored at fixed intervals, or the user 131 or the like may set the time interval by operating the portable information device 6 or the information processing device 1. If the use of the information is permitted by performing personal authentication of the user 131 to use the information stored in the storage unit 2, the safety of the user 131 is improved.
[0018]
In FIG. 1, the storage means 2 is stored in association with the position information a1 and the unique information A1, but the unique information A2 unrelated to the position information may be received from the portable information device 6 and stored. As described above, as an example in which the storage unit 2 stores the unique information whose position information is not specified, the user 131 stores a plurality of pieces of image information whose acquired position information a1 is substantially the same as the unique information A1 and the unique information A2. There is a case where you want to classify later with different information. At this time, the unique information A1 and the unique information A2 may be a difference in time information, a difference in a serial number, a difference in a character string input by the user 131 on the portable information device 6, and the like. Another example of using unique information that does not specify position information is a case where the user 131 inputs information that assists in specifying accurate position information later as unique information A2 because it is difficult to obtain position information underground or the like. can give. The auxiliary information may be a place name, a floor number of a building, or a room number. Further, as another example of using unique information that does not specify position information, for security reasons, etc., it is not desired to associate position information with unique information including a specific character string or the like, or position information is not associated with specific image information. It may be the case that you do not want to associate.
[0019]
In FIG. 1, the receiving unit 3 may be connected to the image acquisition device 7 via a wired information transmission path 9 to receive the image information b1 and the unique information B1. The image information b1 may be moving image information or still image information. In FIG. 1, an information transmission line 9 is configured by hardware connection with a USB connector of the image acquisition device 7, a USB connector of the information processing device 1, and a USB cable, and transmits and receives information by a dedicated protocol. As another configuration of the main information transmission path 9, the information may be stored in a storage medium and may be detached between the image acquisition device 7 and the information processing device 1 to transmit information. In addition, transmission may be performed using short-range wireless communication.
[0020]
In FIG. 1, the processing unit 4 associates the position information a with the image information b. In this example, a plurality of pieces of image information are classified for each position information, and further classified for each acquired time zone. The unique information A1 stored in the storage unit 2 and the unique information B1 received by the receiving unit 3 are compared to associate the image information b1 with the position information a1. When the information used in the storage means 2 is used by the processing means, a personal authentication means may be used, thereby improving security. What is necessary is just to create a processing area in a storage device or the like and process it with a CPU (central processing unit) or the like. In this example, the unique information B1 is classified by the unique information A1, the dependency is clarified, and the position information a1 and the image information b1 are associated. Associating refers to clarifying the relationship between information and information. For example, classification, judgment of one-to-one judgment, judgment that there is no pair, judgment of one from the other can be performed. To do. The classification is to divide position information or image information according to a certain criterion, for example, to make one subordinate to the other. In this example, in particular, the image information b1 specified by the unique information B1 is made dependent on the position information a1 specified by the unique information A1 according to the criteria determined by the user 131. To compare the unique information, for example, the unique information A1, the unique information A2, and the unique information B1 may be arranged in a time series. By comparing the unique information, the unique information B1 related to the image information is related to the unique information A1 having an earlier time. It may be attached.
[0021]
The processing means 4 of FIG. 1 processes the unique information A1 and the unique information A2, and checks whether there is unique information A1 specifying the position information a1 and unique information A2 unrelated to the position information among the plurality of unique information A1. If the unique information A2 exists, the unique information A1 for specifying the position information a1 may be detected, and the position information a1 and the unique information A2 may be associated with each other. Thus, when the receiving unit 3 receives the unique information B3 for specifying the image information b3, the processing unit 4 compares the unique information A2 and the unique information B3 to associate the image information b3 with the position information a1. Furthermore, the presence of the unique information A1 and the unique information A2 makes it possible to classify the image information b3 into the image information b1 and the image information b2, thereby improving convenience.
[0022]
The processing unit 4 in FIG. 1 includes, for example, the position information a1 specified by the unique information A1 whose time is indicated by 13:00 on January 13 and the unique information indicated by the time indicated by 15:15 on January 13 A2, and the image information b1 whose time is specified by the unique information B1 indicated at 13:13 on January 13 and the specific information B2 whose time is indicated by 13:20 on January 13 And the image information b3 specified by the unique information B3 whose time is indicated at 15:20 on January 13 are considered.
[0023]
In this case, when a plurality of pieces of unique information are arranged in order of time, the unique information A1, the unique information B1, the unique information B2, the unique information A2, and the unique information B3 are arranged in this order. Further, when the unique information B1 for specifying the image information is arranged in association with the unique information A1 having an earlier time, the unique information B1 and the unique information B2 are dependent on the unique information A1, and the unique information B3 is dependent on the unique information A2. You. With such a procedure, the image information b1 and the image information b2 are associated with the position information a1, and the image information b3 is similarly associated with the position information a1. At this time, the image information b1 and the image information b2 are distinguished from the image information b3 by the existence of the unique information A1 and the unique information A2. Further, position information different from the position information a1 and image information associated therewith can also be classified according to the difference in the position information.
[0024]
As another example of the procedure performed in the processing procedure 4 in FIG. 1, there are position information a10 specified by the unique information A10 having the number 0001 and position information a11 specified by the unique information A11 having the number 0001. If there is image information b10 specified in the unique information B10 of 0001 and image information b11 specified in the unique information B11 of the number 0002, the user 131 aligns the same numbers and subordinates the image information with the position information. If the setting is made on the basis of the setting, the image information b10 is dependent on the position information a10, and the image information b11 is dependent on the position information a11.
[0025]
In the processing procedure 4 of FIG. 1, as another example of the processing procedure, the unique information for specifying the position information is periodically stored in the information processing apparatus 1, and the unique information at the time of February 13, 13:00 is set. There are a plurality of pieces of unique information, such as the location information a21 specified in the information A21 and the location information a22 specified in the unique information A22 at 15:00 on February 13, and the unique information at 15:00 on February 13 When there is the image information b21 specified in B21, the specific information A22 is specified by searching the plural pieces of specific information having the matching time in the specific information B21, and the position information a22 is one-to-one in the image information b21. May be related.
[0026]
In FIG. 1, an information storage unit 5 stores at least one of the unique information B1, the image information b, the unique information A1, and the position information a1 related by the processing unit 4. When the unique information B1 and the image information b1 are printed, only the unique information B1 and the position information a1 may be stored, or may be selected by an image information editing method. The information storage means 5 may employ the same storage method as the storage means 2. The management fee may be charged according to the capacity stored by the user 131. Storing the position information a1 is convenient for obtaining map information or local information later.
[0027]
In FIG. 1, an information processing device 1 is connected to a portable information device 6 and an image acquisition device 7 to obtain information. Connection means establishing an information transmission path by making a hardware connection and a software connection between two devices. In the hardware connection, the interfaces between the apparatuses are connected by a line that electrically conducts, or wirelessly connected by electromagnetic waves or the like, and display of cryptographic information and transfer of image information by a camera are performed. In the software connection, a device driver of an interface, a protocol, a program for executing the protocol, and the like are stored for each device, and these are operated to exchange data between the devices according to a predetermined rule. The soft connection is based on the rules for correctly transmitting the information described in the information and communication network (1991 by Ohmsha Haruo Akimaru) and the rules for processing the information, regardless of the information transmission path, such as the original communication line. It just needs to be done. The Internet, a LAN, a WAN, or the like may be used. In the transmission and reception of data using the Internet, protocols such as TCP / IP and UDP, and communication services such as HTTP and TELNET are used. In order to prevent information leakage during transmission, it is used in a layer above a transmission protocol such as TCP. It is preferable to perform transmission by encryption using a protocol for transmitting and receiving data after encrypting the data, such as SSL (Secure Sockets Layer) or TLS (Transport Layer Security). In this way, a hardware connection and a software connection are performed, an information transmission path is established, and data may be transmitted between the devices so that information is not leaked to a third party.
[0028]
In FIG. 1, an information transmission line 8 is an information transmission line between the portable information device 6 and the information processing device 1, and may use wireless, wired, or contact. In this example, a wireless telephone communication network and the Internet are used. A combined information transmission path of wireless and wired is used. The information transmission path 9 is an information transmission path between the image acquisition device 7 and the information processing device 1, and may use wireless, wired, contact, or the like. In this example, a wired USB cable is used. The connection in this specification is mainly for establishing an information transmission path.
[0029]
The portable information device 6 may be any device that is carried by an individual, and is lightweight and power saving. In this example, it is a mobile phone. The portable information device 6 mainly has a function of inserting a mobile phone, a PHS, a portable computer, a wristwatch, a wristwatch-type information device, a portable information terminal, a portable game machine, a GPS receiver, a key holder, an IC card, and an IC tag. Portable devices, notebook computers, or devices and systems that combine these devices. The portable information device 6 has a position information acquisition unit 111 and a position information transmission unit 113, acquires the position information a1, and transmits this to the information processing device 1. Furthermore, the portable information device 6 includes a unique information acquisition unit 112 that issues unique information A1 for specifying the position information a1. The unique information A1 for specifying the position information is stored in the information processing device 1 together with the position information a1. May be sent to At this time, if the unique information A1 is time information, it is necessary to have a clock device such as a quartz clock or a radio clock. If the unique information is a serial number, it is necessary to have a counter circuit. If the portable information device 6 and the image acquisition device 7 have means for transmitting and receiving information by short-range wireless communication or the like, when the shutter of the image acquisition device 7 is pressed, the portable information device 6 automatically outputs the position information a1 to the information. It may be transmitted to the processing device 1. The portable information device 6 may be an integrated device with the image processing device 7, but the position information a1 and the image information b1 may be transmitted to the information processing device 1 using another information transmission path or without being transmitted integrally. To ensure safety.
[0030]
In FIG. 1, a position information acquisition unit 111 calculates and specifies a current position of the portable information device 6 by obtaining a signal from inside or outside and processing the signal by a program. In this example, the position information of the portable information device 6 is acquired when it is desired to specify the place where the image determined by the user 131 has been acquired, but as another example, the position information is acquired continuously. A past position may be recorded. In this example, the current position is acquired when the user 131 makes any input to the portable information device 6. When the locations where the images are obtained are substantially the same, the number may be one, and when the images are obtained at a plurality of places during a trip or the like, the number may be a plurality of times, and the user 131 may make the determination. This is when the input means 5 is operated.
[0031]
The current position of the portable information device 6 is specified by the position information acquisition unit 111 in FIG. The signal used for specifying the current position includes a radio GPS signal using a GPS satellite, a radio signal obtained from a base station of a mobile phone, a wired signal obtained from a fixed device such as a ticket gate, and a portable information device 6. May be coordinate data or address data on a map acquired, map information indicating the current position, or a fixed number of the device such as an IP address where the installation location is clear. In this example, the current position acquisition means 9 has a GPS receiving function, a storage unit for storing a program for calculating latitude and longitude using GPS signals, a CPU for processing data with the program, and the like. And position information by specifying the longitude. Further, the portable information device 6 may receive the correction data, correct the current position, and precisely specify the current position. The current position may be specified on a map by obtaining map information of a peripheral map from outside. At this time, a program that receives the map information, a program that specifies the calculated current position on the map, a program that transmits the specified coordinate data to the outside, and receives the map information near the latitude and longitude included in the coordinate data You may memorize it. In addition, a base station of a mobile phone or the like may have a position information acquisition unit, as long as the position information of the portable information device held by the user 131 can be obtained.
[0032]
In FIG. 1, the position information transmitting means 112 may transmit the position information a1 to the information processing apparatus 1 in a determined communication format through an information transmission path connecting the wireless telephone communication network and the Internet. For example, the transmission is performed using an electronic mail or a communication service of a protocol. After the position information acquisition unit 111, the acquired position information may be temporarily stored inside the portable information information device 6 and transmitted to the information processing device 1. Although the security is improved by not storing the location information in the portable information device 6, for example, the location information transmitting unit 112 may automatically operate periodically or according to the number of acquired cases. . The wireless telephone communication network is a mobile phone or a PHS, but may be a wireless LAN or the like.
[0033]
The image acquisition device 7 is a digital camera, a video camera, or the like. It has an image information acquisition unit 121 and a unique information acquisition unit 122. In this example, the image processing apparatus further includes an image information storage unit 123 and an image information transmission unit 124. The image information acquisition means 121 may be constituted by a CCD camera, an operation circuit thereof, and the like. The unique information acquisition unit 122 issues unique information B1 for specifying the image information b1, and stores it in the image information storage unit 123 together with the image information b1. The image information storage means 123 may be stored by the same storage method as the storage means 2. A storage medium such as a semiconductor storage medium or an easily distributable IC card may be inserted into the portable information device 6 like a cassette or a card to form a storage medium. The image information transmitting unit 124 transmits the image information b1 and the unique information B1 to the information processing device 1. In this example, transmission is by wire. However, when the image information storage unit 123 uses a magnetic storage device or a semiconductor storage device, the user 131 removes the semiconductor storage medium from the image acquisition device 7 and attaches the semiconductor storage medium to the information processing device 1. It is done by connecting. When the unique information B1 is time information, the time information can be acquired with higher accuracy by having a clock device such as a quartz clock or a radio clock. If the unique information is a serial number, a counter circuit may be provided.
[0034]
FIG. 2 is a configuration example of a method for acquiring position information. The position information of this example mainly indicates the current position of the portable information device 6 or a position that has existed in the past. The portable information device 6 mainly acquires position information by using at least one of the four methods, and specifies the current position. The portable information device 6 has a position information acquisition unit 111 adapted to each method. First, a method for specifying the current position using a GPS signal which is a wireless signal transmitted from a GPS satellite 503a, and second, a wireless signal transmitted from a wireless transmitting station 503b such as a base station such as a mobile phone or an FM broadcasting station. And a third method for specifying the current position using a wired signal transmitted from the fixed device 503c. A fourth method is to specify the current position by self-contained navigation using an output signal output from an internal sensor.
[0035]
Referring to FIG. 2, a first method of acquiring the current position will be described. Acquisition of position information by GPS may use a method introduced by KDDI Corporation, SONY Corporation, and Satellite Positioning Information Center Corporation. The first method of acquiring the current position may be used as a means for correcting the identification of the current position by another method in addition to the identification of the current position.
[0036]
In FIG. 2, the specification of the current position by GPS has been generally used for specifying the current position of an aircraft or a ship. In recent years, it has also been used to identify the current position of a car using a car navigation system or the current position of a pedestrian using a mobile phone. Utilizes a GPS satellite 503a monitored by the US Department of Defense. The GPS satellite 503a orbits the earth at a cycle of 12 hours around the earth. In the United States, about 24 satellites are arranged in different orbits at an altitude of 20,000 km. The GPS satellite 503a carries a GPS signal including a pseudo-random code (Pseudo-Random Code) by radio waves and unilaterally transmits the signal to the ground. When the portable information device 6 starts the receiving program, the GPS signal receiving function is operated, the information transmission path 502a is established, and the GPS signal is received from the GPS signal receiving device 501a. From the pseudo random code included in the GPS signal, the arrival time at which the GPS signal reaches the portable information device 6 from the GPS satellite 503a is specified. “Arrival time” × “GPS signal transmission speed” = “distance from GPS satellite 503a to portable information device 6”. Similarly, the current position is specified by triangulation from the distances from the other two satellites. For example, assuming that the arrival time of the GPS signal is 0.05 seconds and the transmission speed of the GPS signal is 297600 km / sec, which is the transmission speed of radio waves, the distance is 14880 km. The portable information device 6 exists on a spherical surface having a radius of 14880 km. If the distances from the other two GPS satellites are 22100 km and 24100 km, the point where the three spheres overlap is the current position of the portable information device 6. Although there are two overlapping points, one point is specified by actually selecting a point existing on the earth, using a fourth GPS satellite, or using the earth as one sphere. The more GPS satellites to use, the easier it is to calculate the current position accurately.
[0037]
In FIG. 2, the pseudo random code referred to in the first method includes a C / A code and a P code, and the C / A code is used by a private company and is carried by a radio wave of 1575.42 MHz. The GPS satellite 503a transmits a GPS signal including a pseudo-random code indicating the time of transmission using an atomic clock, and determines the arrival time from the difference between the time when the portable information device 6 transmits using the internal clock and the time when it is received. Identify. Since the error of the internal clock of the portable information device 6 cannot be solved by triangulation, the portable information device 6 performs processing such as correcting the error of the internal clock. The C / A code has an error intentionally to prevent abuse. For this reason, the current position B2 is calculated from a GPS signal or the like at a radio transmitting station whose current position B1 is reliable or a ground station that establishes an information transmission path therewith, and the deviation such as the tendency of the deviation between the current position B1 and the current position B2 is calculated. The portable information device 6 calculates the amount of the error, transmits the data to the portable information device 6 from the wireless transmission station, and corrects the error-corrected current position C1 using the GPS signal received by the portable information device 6. The current position C2 may be accurately specified by correcting the data. Error correction such as calculation of the current position C2 is performed by an external device such as a server by transmitting data over an information transmission path such as a wireless telephone communication network and the Internet, and receiving data as corrected position information C2. May be. The current position C2 may be calculated after receiving the correction data including the deviation amount of the GPS signal itself and correcting the GPS signal received by the portable information device 6. The portable information device 6 may have a GPS signal receiving function to receive a GPS signal. The GPS signal receiving function includes, for example, an antenna for receiving radio waves, a filter for separating radio waves of a target frequency band from other radio waves, a GPS signal receiving unit 2a having a demodulation circuit for extracting a GPS signal from radio waves, and the like. And a storage unit for storing a program for identifying GPS signals, a CPU for processing data in accordance with the program, and the like, and forming a GPS satellite 503a and an information transmission path 502a using these. The position information acquiring unit 111 may store a wireless receiving unit that wirelessly receives the correction data, and a program that corrects the shift amount using the correction data.
[0038]
Referring to FIG. 2, a second method of acquiring the current position will be described. In this method, the current position is acquired by a wireless signal from a wireless transmission station 503b whose position is known in advance. The radio transmission station 503b may store data representing the current position, or acquire the current position using GPS or the like. The wireless transmission station 503b is a device having a short-range wireless communication function such as an FM station, a base station of a mobile phone, a ticketing device or a ticket gate device of a station, an ETC base station of a highway, or Bluetooth. Has a transmission function. The information transmission path 502b between the wireless transmission station 503b and the portable information device 6 may use electromagnetic waves, that is, transmission using radio waves, particularly FM broadcast networks, mobile telephone networks, short-range wireless communication, and the like. The wireless signal includes coordinate data on the map, data indicating the current position on the map, latitude data, longitude data, altitude data, address data such as the address of a prefecture, and the distance from the wireless transmission station 503b. Data, map information, identification number data such as an IP address for specifying the radio transmission station 503b, and correction data of the current position obtained from a GPS satellite may be included. The portable information device 6 needs to have a wireless signal receiving function of receiving a wireless signal, and may have a configuration corresponding to the information transmission path 502b to be used. The wireless signal receiving function includes, for example, an antenna 501b that receives a radio wave, a filter that separates a radio wave of a target frequency band from other radio waves, a demodulation circuit that extracts a radio signal from the radio wave, and a device that transmits and receives data wirelessly. And a storage unit for storing a program for identifying a radio signal and acquiring a current position, and a CPU for processing data in accordance with the program, and establishes an information transmission path 502b with a radio transmission station 503b. do it. The wireless transmission station 503b may include at least one of the position information acquisition unit 111, the position information transmission unit 113, and the unique information acquisition unit 112. The second method of acquiring the current position may be used as a means for correcting the identification of the current position by another method in addition to the identification of the current position.
[0039]
Referring to FIG. 2, a third method of acquiring the current position will be described. In this method, the current position is acquired by a signal from the fixing device 503c whose position is known in advance. The fixing device 503c only needs to store data representing the current position, or acquire the current position using GPS or the like. The fixing device 503c may be an automatic cash dispenser such as a financial institution, a ticket release device such as a convenience store, a ticket issuing device such as a station or an event hall, a ticket gate device, a fixed telephone, a cash register in a store, or the like. An information transmission path 502c between the portable information device 6 and the fixing device 503c uses an electric wire, a connector, or the like. In the present specification, the case where the portable information device 6 is brought into contact with the fixing device 503c to be electrically connected is also included. The wired signal is electrically conveyed through the information transmission path 502c, and like the wireless signal, the coordinate data on the map, the data indicating the current position on the map, the latitude data, the longitude data, the altitude data, Address data such as a prefectural address, identification number data such as an IP address for specifying the fixed device 503c, and map information may be included. In identifying the current position using the identification number data, the location where the fixing device 503c is installed needs to be clear to the administrator or the provider. For example, the location where the fixing device 503c is installed corresponds to the identification number data. In addition, the fixed position of the fixed device 503c is identified by the identification number data, or the current position of the fixed device 503c is identified by the GPS signal. You can do it. The unique device 503c may have at least one of the position information acquisition unit 111, the position information transmission unit 113, and the unique information acquisition unit 112 in the case of the unique device 503b.
[0040]
In FIG. 2, the portable information device 6 used in the third method may have a wired signal receiving function of receiving wired data. The wired signal receiving function includes, for example, an interface 503c for connecting a cord and receiving a wired signal, a protocol for transmitting and receiving data between the portable information device 6 and the fixed device 503c, or a program for identifying the wired signal and acquiring the current position. What is necessary is just to have the memory | storage part which memorize | stores etc., and the CPU which processes data according to a program. When the portable information device 6 is connected to the fixed device 503c, a wired signal used by the portable information device 6 to acquire the current position is automatically input from the fixed device 503c to the portable information device 6. Alternatively, the portable information device 6 or the fixed telephone 503c may have a button, and a signal may be input to the portable information device 6 when the button is pressed. The fixed device 503c stores a GPS signal obtained from a GPS satellite, compares it with a certain current position, and transmits correction data to be corrected as a wired signal 502c. The correction data received by the portable information device is a GPS signal obtained separately. May be corrected, and the current position may be corrected to obtain the current position with high accuracy. The third method of acquiring the current position may be used as a means for correcting the identification of the current position by another method in addition to the identification of the current position.
[0041]
Referring to FIG. 2, a fourth method of acquiring the current position will be described. As a method for specifying or correcting the current position inside, self-contained navigation generally used in a car navigation system or the like may be used, and the portable information device 6 has an internal sensor such as an acceleration sensor or an angular velocity sensor. Then, it stores the change over time of the distance traveled and the angle of rotation, and obtains the route that has moved. Storing the traveled route using the internal sensor in this way is called self-contained navigation. Car navigation systems are often used in conjunction with GPS. It is mainly used for correcting a current position acquired by a GPS signal in a tunnel or a building where a GPS signal or a radio signal is hard to be obtained as a base point, or acquiring a position in a vertical direction. The azimuth may be acquired using a magnetic force sensor and used for acquiring position information. The portable information device 6 used in the fourth method may have such a self-contained navigation function. The self-contained navigation function may include an internal sensor, a program for calculating a route from an output signal of the internal sensor, a storage unit for storing the route, and a CPU for processing data according to the program. If the GPS signal is not received, the route traveled by the self-contained navigation may be stored, and the current position may be corrected to obtain the current position accurately. The fourth method for acquiring the current position may be used mainly as a means for correcting the identification of the current position by another method.
[0042]
In FIG. 2, the portable information device 6 has a combination of the first to fourth methods for acquiring position information, and may acquire the current position with higher accuracy by combining the first to fourth methods. In this example, a GPS signal obtained from a GPS satellite is corrected as a radio transmitting station 503b by a correction signal which is correction data from a base station of a mobile phone, and a precise current position is specified, and the current position is determined with an accuracy within 100 m. To get. The position information acquisition unit 111 of the present example has a GPS signal receiving function, and specifies the current position by the GPS signal. In addition, it has a wireless signal receiving function, corrects the current position, and specifies the position with high accuracy. The portable information device 6 may receive or store the map information from the wireless transmission station 503b or the like and display the current position.
[0043]
A method of using this example will be described mainly with reference to FIG. The user 131 reports on the store inside the department store. The user 131 carries the portable information device 6 and the image acquisition device 7 outside. The user 131 expects to acquire an image and connects the portable information device 6 to the information processing device 1. The user 131 acquires the position information a1 by pressing one input button of the information processing apparatus 1 at the entrance of the department store building. In the position acquisition, the current position is specified by the position information acquisition unit 111 to acquire the position information a1. The user 131 may operate the portable information device 6 before and after acquiring the position information, input the character string d1 as “XX department store”, and associate the character string d1 with the position information a1. At this time, the character string d1 may be a part of the unique information A1. This makes it easier to evoke the storage of the image based on the character string recorded at the location where the image information is obtained, and the convenience of the user 131 is improved by providing means for searching by the character string. Further, the time at which the position information a1 was obtained may be obtained as unique information from the unique information obtaining unit 112, but may not be used in this example. After acquiring the position information a1, the portable information device 6 transmits the position information a1 to the information processing device 1 through the information transmission path 8 by the position information transmitting unit 113.
[0044]
In FIG. 1, the position information a1 is received by the position information receiving means 101 of the information processing apparatus 1 and stored in the storage means 2, and at the same time, the time at which the position information a1 is stored is obtained by the unique information obtaining means 102. This is assumed to be unique information A1. The position information a1 and the unique information A1 are stored in association with each other. The character string d1 may be stored at the same time. The association may be stored by an attribute in the database. Information may be linked, rows or columns may be the same, or the same reference numerals may be added. In this example, the position information a1 is made dependent on the time information A1, and is managed and stored by the ID number of the user 131. Similarly, when the position information is transmitted, it may be stored in the storage means 2 in order. However, when a plurality of users 131 share and use the information processing apparatus 1, the user 131 is specified by an authentication device, an authentication number, a user number, a password, or the like, and information is stored in the storage area of the user 131. It should just accumulate. For example, the information stored in the database may be managed by an ID number or the like assigned to the user 131. It is also possible to collect a maintenance fee for a system that performs authentication by selling the authentication device or performing authentication by the authentication device.
[0045]
In FIG. 1, a user 131 operates the portable information device 6, stores the position information a1 and the unique information A1 in the information processing device 1, and then presses a shutter of the image processing device 7 to obtain an image acquiring unit. At 121, image information b1 is acquired. For example, an entrance of a department store may be photographed. Further, the unique information acquisition unit 122 automatically acquires the unique information B1 as the time at which the image information b1 was acquired, and associates the image information b1 with the unique information B1 to the semiconductor storage medium in the image information storage unit 123. It is memorized. The image information b1 is stored as a file in the JPEG format, and the unique information B1 is stored as attribute information of the image information b1 as a time when the image information b1 was created. Similarly, the unique information B2 and the image information b2 may be stored.
[0046]
On the other hand, when the user 131 enters the inside of the building, operates the portable information device 6 at the desired store, sets so as not to acquire the position information, and presses the button, the unique information acquisition unit of the information processing device 1 102 operates to acquire the unique information A2 as time information, which is transmitted from the portable information device 6 to the information processing device 1 and stored in the storage unit 2 in the same manner as the unique information A1. At this time, the portable information device 6 may be operated to input “xx store” as the character string d2 and transmit the unique information A2 to the information processing device 1. Further, the user 131 operates the image acquisition device 7 to store the image information b3 and the acquisition time as the unique information B3. Further, the user moves to another place, acquires the image information b4 and the unique information B4, and holds the acquired information in the image acquisition device. The position information a3 and the unique information A3 are acquired by the portable information device 6 and transmitted soon. You. The transmission soon may be during the operation of the program of the portable information device 6, the connection operation to the information processing device 1, the input of a character string by the user, or the accumulation of several pieces of preset position information. .
[0047]
In FIG. 1, when the user returns home and connects a USB line to the image acquisition device 7 and the information processing device 1 as the image information transmitting unit 124 and transfers a file, the file is received by the image information receiving unit 3. At this time, the image information b1 and the unique information B1 may be temporarily stored in the information processing device 1. The user 131 compares the unique information stored in the storage unit 2 with the unique information received by the image information receiving unit 3, and sets a method for classifying the image information based on the position information. In this example, the unique information stored in the storage unit 2 is arranged in time order, and arranged as unique information A1 and unique information A2. Further, the unique information A1 that does not specify the position information is extracted, and the position information a1 specified by the unique information A1 whose time is earlier is associated with the unique information A2. Further, the unique information received by the image information receiving means 3 is added and arranged in chronological order, such as unique information A1, unique information B1, unique information A2, and unique information B2. Further, the unique information B1 existing between the times from the unique information A1 to the unique information A2 is classified depending on the unique information A1. In this way, the image information b1 specified by the unique information B1 and the position information a1 specified by the unique information A1 are associated and stored in the information storage unit 5. Similarly, the unique information B2 is classified depending on the earlier unique information A2, and the image information b2 specified by the unique information B2 is associated with the position information A1 specified by the unique information A2. It is stored in the storage means 5.
[0048]
FIG. 4A is a display screen 202 of the information processing apparatus 1 when the content stored in the storage unit 2 is browsed. The user 131 may operate while viewing the display screen 202. If the processing means 4 is automatically performed, the display need not be performed. What is necessary is just to set a classification method in the classification setting of a screen. As the classification source folder, a semiconductor storage medium of the image acquisition device 7 in which the image information b1 and the unique information B1 connected by the USB line are stored may be set. As the file system, a method in which the image information b is compressed and stored may be selected.
[0049]
FIG. 4B shows the image information b1, the unique information B1, the image information b2, the unique information B2, the position information a1, the character string d1, and the unique information A1 which are classified by the processing means 4 and stored. It is an example of a display screen of the information processing device 1 shown when browsing what is stored in the device. An image 301 displays the image information b1 on the display device. The unique information B1 may be displayed below the image. When an image is selected, it may be enlarged. The plurality of images indicate that the images were shot at the position specified by the position information a1. The memo may be displayed as a character string d1 on the portable information device 6. The month, day, and time at time 303 are unique information A1. When the map 302 is selected, the screen of FIG. 5C may be displayed.
[0050]
FIG. 5C shows a map information distribution server which is specified using the latitude and longitude of the position information a1, for example, 1 km on all sides, and which maps information to the information processing apparatus 1 via a CD-ROM or the Internet. And may be displayed. Reference numeral 306 denotes a landmark such as a building, and a landmark, an address, a place name, and the like, such as "bank" and "shimo-tomi". The location where the image was taken may be displayed by a mark 305 or the like so that the user 131 and the viewer can be understood.
[0051]
FIG. 5D shows a display screen 202 of the information storage unit 5 of the information processing apparatus 1 which is browsed when the user 131 corrects the automatic association between the position information and the image information by the classification of the processing unit 4. It is. The browsing screen 308 displays the position information in a list. It is sufficient that one line displays the information of the position information and is linked to the browsing screen 309. The browsing screen 309 is linked to “January 13, 1:13 デ Department Store” at the top of the row of the browsing screen 308, and may be displayed by clicking this row. At this time, “Jan. 13, 3:20 0003” on the browsing screen 309 is associated with the information in the “Jan. 13, 1:13 OO department store” column. If it is determined that it is appropriate to associate the information with “3:15 Jan. 13, XX store” on the browsing screen 308, the user may move the mouse to change the subordination and record again. The movement mark 307 indicates that the subordination is being changed. Further, since the image information b3, the position information a1, the unique information B3, and the character string d2 are dependent on the unique information A2, the image including the time 303, the image 301, and the unique information b1 in FIG. Different information is displayed for the time of the image including. However, since they have the same position information a1, almost the same map information may be displayed as shown in FIG.
[0052]
Second Embodiment FIG. 3 is a configuration example of a device used in the position information use system of the present embodiment. The mobile phone 61 includes a mobile phone 61 operated by the user 131 on the go, a digital camera 71 operated by the user 131 on the go, and an information processing device connected to these to obtain information. The information processing apparatus in FIG. 3 is a system including a server 11a operated by a provider, a storage device 11b, a LAN 11c, a computer 11d operated by a user 131, and an information transmission path 11e via the Internet 10, This corresponds to the information processing device 1 in FIG. The mobile phone 61 has a GPS signal receiving device corresponding to the portable information device 1 of FIG. 1, obtains a GPS signal from the GPS satellite 503a via the information transmission path 502a, and determines the latitude and longitude of the current position. The position information e is obtained by calculation. Further, the mobile phone 61 has a clock device and obtains the time at which the position information e was obtained as the unique information E. Further, the mobile phone 61 has a CPU, a storage device, a clock device, an input button, a transmitting / receiving device for a wireless telephone, a liquid crystal display device, and a system bus connecting these components. The unique information E may be acquired by the base station 81b. In this case, the information processing apparatus 1 includes the base station 81b having the unique information acquiring unit 102, the wireless telephone communication network 81c, and the information transmission path 81d. 1 may correspond to the wireless information transmission path 81a.
[0053]
In FIG. 3, an information transmission line composed of a wireless information transmission line 81a, a base station 81b, a radio telephone communication network 81c, and an information transmission line 81d via the Internet 10 corresponds to the information transmission line 8 in FIG. The position information e and the unique information E are transmitted from the mobile phone 61 to the server 11a. The digital camera 71 corresponds to the image acquisition device 7 in FIG. 1 and has a CCD camera to acquire image information f, and has a clock device to acquire the time at which the image information was acquired as unique information F. In addition, in this example, the system includes a CPU, a modem, a USB interface, an input device, a monitor, a storage device, and a system bus connecting these components. The USB line 91a mainly forms the information transmission path 9 in FIG. 1, and the image information f and the unique information F are transmitted from the digital camera 71 to the computer 11d. The computer 11d is an IP phone, a home server, a modem, a PDA, or the like. In this example, the computer 11d includes a CPU, a modem, a USB interface, a keyboard, a monitor, a storage device, and a system bus for connecting these components. The computer 11d has the receiving unit 3 and the processing unit 4 shown in FIG.
[0054]
In FIG. 3, the server 11a has a position information receiving unit 101 and a time information obtaining unit 102, and in this example, connects a CPU, a storage device, a modem, a LAN interface, a clock device, and these components. It has a system bus and the like. The storage device 11b includes a storage device, which has the storage unit 2 of FIG. 1 and the information storage unit 5 and stores the unique information E and the position information e in a database to be stored. , A LAN interface, a keyboard, a monitor, a storage device, and a system bus for connecting these components. The database stored in the storage device 11b is permitted to be used by the user 131 by contracting with the provider. The personal code and identification number can be input from the computer 11d, and the user 131 can use the database with a dedicated adapter. The user 131 can use the location utilization system safely by saving the user's trouble and improving the anonymity of the user 131 by performing personal authentication for permitting the user and further automatically connecting to the server 11a. it can.
[0055]
In the respective means shown in FIG. 1, the program for operating each device, each configuration and each function shown in FIG. 3 uses JAVA (registered trademark) in this example, and uses Windows (registered trademark) and Mac OS (Registered trademark) and various platforms such as Linux. As a result, the position information use system can be efficiently operated and managed between several types of devices. Even if various program languages such as other C ++ and Visual Basic (registered trademark) are used, the devices may be operated by exchanging data with each other. The computer 11d or the like may receive and use a program required by the location information utilization system via the Internet when necessary.
[0056]
This example will be described with reference to FIGS. In the mobile phone 61, when the user 131 inputs an operation start using the input device 201, the position information acquisition unit 111, the unique information acquisition unit 112, and the position information transmission unit 113 are periodically operated and repeated. The position information acquisition unit 111 operates the GPS signal receiving device to calculate and specify the current position from the received GPS signal, and acquires position information e. At the same time, the output signal output from the clock device is read by the unique information acquisition means 112 to acquire the unique information E. The position information e at this time is a combination of latitude and longitude, and the unique information E is a combination of day, hour, and minute. At this time, it may have a year or a second. Further, the acquired position information e and unique information E are transmitted by packet communication by operating the wireless telephone transmitting / receiving device by the position information transmitting means 113, and the wireless telephone information transmission path 81a, the base station 81b and the wireless telephone Via the communication network 81c and the information transmission path 81d, the modem of the server 11a is operated and received by the position information receiving means 101. Further, the information is transmitted via the LAN 11c by the storage means 2 to operate the storage device of the storage device 11b to store only the unique information E and the position information e, or only the unique information E '. In this example, as an example of the combination of the specific information E and the position information e to be obtained, or the specific information E ′, the specific information E1 and the position information e1 are stored, only the specific information E2 is stored one minute later, and two minutes later. The unique information E3 and the position information e3 are received and stored.
[0057]
1 and 3, the mobile phone 61 connects to the server 11a, logs on, and stores the unique information E or the position information e in a storage area to which the user 131 is permitted to use. As another example, the position acquisition unit 111 and the unique information acquisition unit 112 operate after the identification number dedicated to the user 131 is input to the mobile phone 61 using the MITS of IDS Co., Ltd. and connected to the server 11a. May be. When an adapter dedicated to the user 131 is connected to the mobile phone 61, the position obtaining unit 111 and the unique information obtaining unit 112 may operate after connecting to the server 11a. As the adapter, a dedicated adapter of a quick access service of E-System Co., Ltd., or a key holder type dedicated adapter of Marx Software Security (www.marx.com) may be used. The service of providing the storage area to the user 131 is provided by NTT-ME Co., Ltd. as a service for storing information (Nihon Keizai Shimbun, January 29, 2002, morning edition, page 31, service frontline). If the user 131 inputs an ID or password permitted to use or connects to the site using an adapter, a highly convenient location information use system can be provided.
[0058]
1 and 3, a user 131 pushes an input device of a digital camera 71, a CCD camera is operated by an image acquisition unit 121 to acquire image information f, and time information is read from a clock device to read unique information F. Get as A plurality of sets of the image information f and the unique information F may be acquired, and the image information f and the unique information F are stored in the image information storage unit 123 by operating a storage device. In this example, as examples of the combination of the image information f and the unique information F, the image information f1 and the unique information F1, the image information f2 and the unique information F2, the image information f3 and the unique information F3, and the image information f4 and the unique information F4 are included. get.
[0059]
1 and 3, after the user 131 returns home, the user 131 operates the computer 11d to connect to the server 11a via the Internet 10. The computer 11d acquires the unique information E1, the position information e1, the unique information E2, the unique information E3, and the position information e3 from the server 11a. The server 11a allows the user 131 to input an ID and a password, confirms authentication information using an IC card, confirms personal information using biometry, and performs personal authentication. Information may be transmitted to 11d.
[0060]
Further, the user 131 connects the digital camera 71 to the computer 11d via the USB line 91a, and outputs the image information f1 and the unique information F1, the image information f2 and the unique information F2, the image information f3 and the unique information F3, and the image information. f4 and the unique information F4 are transmitted by the image information transmitting means 124 to the computer 11d using the information transmission path 9. When the digital camera 71 is connected to the computer, the unique information E and the position information e may be automatically acquired from the server 11a.
[0061]
In FIG. 3, the computer 11d processes the unique information E1, the position information e1, the unique information E2, the unique information E3, and the position information e3 by the processing means 4, and detects, for example, the unique information E2 that does not specify the position information e. Then, the position information e1 specified by the immediately preceding unique information E1 in time order is associated with the unique information E2. That is, the unique information E1 and the position information e1, the unique information E2 and the position information e1, and the unique information E3 and the position information e3 are stored in the storage device of the computer 11d.
[0062]
Further, unique information E1 and position information e1, unique information E2 and position information e1, unique information E3 and position information e3, image information f1 and unique information F1, image information f2 and unique information F2, image information f3, and image information f4 And the unique information F4, the unique information E1, the position information e1, the unique information F1, the image information f1, the image information f2, and the unique information F2, the unique information E2, the position information e2, the unique information F3, and the image information f3, and the like. The unique information E3, the position information e3, the unique information F4, and the image information f4 are associated with each other. The information associated with the processing means 4 is stored in the storage device by the information storage means 5.
[0063]
Third Embodiment FIG. 6 includes a mobile phone 62 operated by a user 131, an information processing device 12, and an information transmission path 82. Further, a server 601 and an information transmission path 402 are provided. The mobile phone 62 of this example shows a case where the portable information device 6 of FIG. 1 and the image acquisition device 7 of FIG. 1 are integrated, or a case where they are connected wirelessly or by wire. In this example, a mobile phone with a digital camera may obtain the current position by three-point survey with a base station or by GPS. The mobile phone 62 includes a unique information acquisition unit 401, and when the user 131 desires and inputs an image, the image acquisition unit 121 may acquire the image information h1. Next, the unique information G1 may be acquired by the unique information acquisition unit 401, and the unique information G1 may be attached to the image information h1 and stored in the image information storage unit 123. At the same time, the user 131 obtains the position information g1 by the position information obtaining unit 111 by operating the mobile phone 62, and attaches the unique information G1 to the position information g1. The information is transmitted to the information processing device 12 via the information transmission path 82.
[0064]
In FIG. 6, image information h1 and position information g1 to which the same unique information G1 is respectively attached are separately transmitted to the information processing device 12 and stored in the storage unit 2. This prevents leakage of personal information represented mainly by the position information of the user 131 or the person appearing in the image. When the mobile phone 62 is set to acquire the location information, the location information g1 and the unique information G1 may be automatically acquired when the image information h1 is acquired. In this case, the setting is such that the location information is not acquired. When the image information h1 is obtained, the unique information G1 is automatically obtained, and the position information g1 is not obtained. With such a setting unit, it is necessary for the information processing apparatus 1 to determine whether the position information is specified or not by using the storage unit 2 or the processing unit 4. In this example, the user 131 selects the method of classifying the position information and the image information, and performs the processing collectively by determining whether the unique information specifies the position information or not the position information. To ensure convenience.
[0065]
In FIG. 6, the position is acquired one by one, for example, when images are continuously obtained at a position close to each other, the power consumption of the mobile phone 62 is suppressed, and the user 131 uses the mobile phone 62 while obtaining the location information. Eliminate the hassle of holding and improve convenience. When acquiring the image information h2, the user 131 acquires the image information h1 at substantially the same position as the image information h1, so that the position information acquiring unit 111 is not operated, and the unique information G2 is transmitted to the position information transmitting unit 113 by the information processing apparatus. 12 and stored in the storage means 2. The unique information G2 is attached to the image information g2 and stored in the image information storage unit 123. The image information h1 and the image information h2 are transmitted to the server 601 of the outsourcing company to be printed or the information processing device 12 at the home of the user 131 by the image information transmitting means 123, for example, when ordering the printing from the outsourcing company. . The transmission destination may be a personal computer such as a friend instead of the outsourcing contractor.
[0066]
The unique information G1 and the position information g1 and the unique information G2 stored in the storage unit 2 are processed by the processing unit 4 to process the unique information G1 and the unique information G2, and the unique information G2 that does not specify the position information g1 is detected. For example, the unique information G2 is associated with the position information G2 specified by the unique information G1 whose previous number is referred to by the serial number. At this time, when the processing method is selected by the operation of the user 131 and the unique number G3, which is the next sequential number, is stored in the storage unit 2, the position information specified by the unique information G3 g3 may be associated with the unique information G2.
[0067]
In FIG. 6, the server 601 prints after receiving the image information g1 and the unique information G1 and the image information g2 and the unique information G2 by the receiving unit 602. The user 131 may receive the printed matter of the image information g1 in which the unique information G1 is described at home and the image information g2 in which the unique information G2 is described from the outsourcing company by home delivery or the like. Next, when the user 131 inputs the unique information G1 described in the printed matter to the information processing apparatus 12, the user 131 searches the stored unique information for the unique information G1, specifies the position information g1, and displays the position information g1. As a result, the user 131 browses the place where the image information g1 described in the printed matter is obtained with good convenience. Further, the information processing device 12 may obtain map information or local information around the place where the image was captured from the specified position information g1. Further, when the user 131 inputs the unique information G2 described in the printed matter to the information processing device 12, the user 131 specifies and displays the position information g1.
[0068]
These can provide similar services even with a digital camera equipped with a high-speed communication function. However, in the present invention, even if the position information and the image information are transmitted separately, each can be specified later, and even the printed matter can be specified, and the safety and convenience of the user 131 are improved. FIG. 7 is a configuration example of a printed matter. A still image of the image information g is printed. Further, time information 702 is described as the unique information G. The unique information G may be a date and a serial number, a serial number, or barcode information. When the user 131 inputs the unique information G to the information processing device 12, the acquired position may be displayed on the map.
[0069]
Fourth Embodiment Another position information utilization system using FIG. 3 will be described. The position information utilization system of this example classifies images acquired by the digital camera 71 by the user 131 at a place where the user goes out, etc. later, efficiently classifies the images according to when and where they are acquired, and allows the user 131 to browse the images. Information about “when” and “where” is likely to become important personal information, especially when both are gathered. In order to improve the safety of the user 131, when positional information is accumulated, it is transmitted to the information processing device via the information transmission path. Then, the position information may not be stored in the mobile phone 61 as much as possible. The “when” information is time information and the like, and the “where” information is positional information such as latitude and longitude. When displaying the map, it is easy to display the position information by clarifying a specific point when displaying the map with the latitude and longitude. If the location information is a place name, address, landmark, facility name, or the like, the user 131 can easily understand and have good convenience. However, the program for specifying the place name and the like from the latitude and longitude is provided by the mobile phone 61 and the server. 11a or the computer 11d.
[0070]
In FIG. 3, the location information is acquired by using the mobile phone 61 and transmitted to the server 11a via the information transmission path at a convenient opportunity, and the location information is not stored in the mobile phone 61. You may do so. A convenient opportunity may be determined in consideration of communication costs and security. The provider may set in advance on the mobile phone 61 or the server 11a, or the user 131 may use the mobile phone 61 or the computer 11d to set. Just set it. The convenient opportunity is that the user 131 presses the button of the mobile phone 61 for a certain period of time after the mobile phone 61 starts acquiring the location information, or is set by the number of the location information or the like. Good. The certain time may be measured using the mobile phone 61 or a counter provided in the server 11a. The information transmission path from the mobile phone 61 to the server 11a may be a commonly used information transmission path such as the wireless telephone communication network 81c of the mobile phone 61 or the wireless LAN communication network. It is only necessary that the position information can be transmitted to the server 11a at an opportunity convenient for the user 131 and the provider.
[0071]
In FIG. 3, since the position information of the user 131 is stored in the storage device 11b at a convenient opportunity, the position information regarding the image can be safely provided to the user 131 or a person who the user 131 desires. For example, the image may be transmitted by e-mail or the like, but the position information may not be extracted from the storage device 11b unless the user 131 inputs information specifying the desired person to the server 11a. Even if the position information of the user 131 is extracted from the storage device 11b, the information can be decrypted if the user 131 does not have a device used by the person who desires the information. Instead, it may not be possible to obtain position information. The user who desires the user 131 is, for example, a person who wants to share the position information. By using the present system, it is possible to prevent the image information and the position information from being simultaneously leaked to a third party. For example, it is possible to prevent a person's own face and home position from leaking to a third party. The information specifying the person desired by the user 131 may be a password, a nickname, an address, or a serial number of a device that secures an information transmission path with the server 11a and retrieves position information from the storage device 11b. Information to be used may be determined depending on the nature and convenience. Further, the user may be provided with convenient information according to the current location of the provider to the user 131 to improve the convenience in conjunction with another system. 131 must be set. Other systems include a system for advertising based on location information, a system for guiding to a specific location, and a system for transmitting a discount coupon or the like.
[0072]
As an example of the system configuration, as shown in FIG. 3, a mobile phone 61 and a digital camera 71 that the user 131 uses while traveling, and a computer 11d that the user 131 uses at home or at the office, If the communication company or the provider has a base station 81b and a wireless telephone communication network 81c provided by a contract with the user 131, and the provider further comprises a server 11a, a storage device 11b, and a LAN 11c provided by a contract with the user 131 Good. Further, the location information utilization system of the present example may transmit and receive information between the mobile phone 61 and the server 11a and transmit and receive information between the computer 11d and the server 11a via the Internet 10. As the information transmission path of the present example, a dedicated information transmission path may be used for the Internet 10 and the information transmission path between the Internet 10 and the computer 11d. Good.
[0073]
The mobile phone 61 is the portable information device 1 in FIG. 1 held by the user 131, and in this example, may be a GPS mobile phone. Any other device may be used as long as it can acquire information that can later determine the position information of the accuracy required by the user 131 and transmits the position information to the server 11a. The mobile phone 61 transmits a signal obtained from the GPS satellite 501a from the mobile phone 61 to a position calculation server (not shown) of the mobile phone company, and performs correction on the position calculation server side to calculate position information J1. In this example, the position information J1 is data of latitude and longitude, and the position information J1 is transmitted from the position calculation server to the server 11a via the mobile phone 61.
[0074]
As an example of the information transmission path, the position information J1 is transmitted from the position calculation server to the Internet 10, the wireless telephone communication network 81c, the base station 81b, and then to the mobile phone 61. By transmitting the location information J1 to the server 11a via the mobile phone 61, the concealment of the location information use system is secured using the encryption system and the serial number stored in the mobile phone 61, and the security is improved. May be. As another example of the information transmission path for transmitting the position information J, an information transmission path transmitted from the position calculation server to the server 11a via the Internet 10 may be used. Although the user 131 has convenience, it is only necessary that the location calculation server previously set an IP address or the like to be sent to the server 11a, or that the server 11a have a means for connecting to the location calculation server. The portable information device 61 may be a device such as a car navigation device that can specify the position of the user 131 outside. However, even in car navigation, it is necessary to connect to the server 11a and the storage device 11b via a wireless information transmission path or the like and store the position information as in the case of the mobile phone 61.
[0075]
The digital camera 71 is an image acquisition device, and by using the position use system of the present example, the user 131 does not need to store the mobile phone 61 or a communication device such as a wireless LAN in the digital camera 71, and the user 131 can use the digital camera 71. With the above, it is possible to conclude a contract with a communication company, to take time to communicate high-quality images, to suppress the power consumption of the digital camera 71, and to ensure the convenience of the user 131. The digital camera 71 may be a video camera. In the case of a moving image, moving image information may be transmitted to the computer 11d, and the computer 11d may separate and classify the information as "when" and "where".
[0076]
The digital camera 71 may be a device such as a PDA that acquires information other than images. At this time, the time when the character information input to the PDA is stored is stored as unique information, which is transmitted to the computer 11d later to clarify the "when" and "where" of the character information input. Can be.
[0077]
In FIG. 3, the system includes a server 11a, an information transmission path 11c, and a storage device 11b mainly managed by a provider, a computer 11d individually managed by a plurality of users 131, and a computer 11d and a server 11b. It has an Internet 10 for communicating. The provider may be a person who keeps the position information of the user 131 or a person who earns money in a game using the position information. An advertisement requester or a person who earns income may be used for an advertisement using location information.
[0078]
The position information may be managed in a database so as to be stored for each user 131. In this example, the storage device 11b only needs to have a database. In the case where the user 131 is an organization, the position information may be managed in a database for each of the employees, members, and contractors to which the user belongs. If there is enough storage capacity and the number of users 131 to use is limited, the storage device 11 may be stored in the server 11a.
[0079]
The information processing apparatus 11 transmits / receives information to / from the mobile phone 61, and therefore, an interface for establishing an information transmission path with the mobile phone 61, an interface for receiving position information transmitted from the mobile phone 61, and information for identifying the user 131. It has an interface for receiving, and an interface for receiving information related to position information such as character information and voice information transmitted from the mobile phone 61. An interface that informs the mobile phone 61 that the information processing apparatus 11 has succeeded or failed to receive the position information J. The user 131 confirms and corrects the position information J on the screen of the mobile phone 61 by using map information and operation. It is convenient to have an interface for transmitting and receiving information. In this example, these interfaces and functions such as firewall are stored in the server 11a. The provider may provide a program to be installed on the mobile phone in order to handle the information of the location use system, or may store the program in the server 11a as a program that runs on the browser of the mobile phone 61.
[0080]
When the computer 11d recognizes the establishment of the information transmission path from the digital camera by wireless, wired, or contact, it automatically downloads the position information j1 and the time information J1 from the storage device 11b. Next, the image information k1 and the time information K1 for specifying the image information k1 are downloaded, and the processing means compares and classifies the time information J1 and the time information K1, and the time information J1 contains the position information j1 and the image information k1. Are dependent on each other to associate the image information k1 with the position information j1.
[0081]
FIG. 8 is an example of a classification method for associating position information with image information. The classification method is a process performed by the processing unit 4 to summarize the image information, the position information, and the unique information, and shows an example. The processing unit 4 may classify the image information by “when” in the time information and then “where” in the position information. The method of displaying in a hierarchy after the processing means 4 is such that the classification based on time information includes year, month, day, hour, minute, second, number, time range set by the user 131, and time range set by the user 131. For example, it is only necessary to select an item that is easy to browse, and it is easy to display information managed in the database. As a method of classifying based on position information, there are mainly three classification methods as shown in FIG. 8, and image information is classified based on position information. The classification method shown in FIG. 8A will be described. The arrow 810 is an arrow indicating the order of the unique information. If the unique information is time as in this example, the direction of the arrow 810 is the direction of the new time, and the arrow indicates the time. If the unique information is a serial number, the direction of the arrow 810 may be the direction of the new number. An arrow 811 indicates time information J1 at which the mobile phone 61 has acquired the position information j1. The time information J1 is mainly the time information J1 at which the user 131 indicates the intention to acquire the position information by pressing a button of the mobile phone 61 or the like, and the position information j1 is obtained. The time information J1 specifies the position information j1. It is stored because it is a database. The intention of the user 131 to acquire the position information is, for example, when the user 131 performs an operation of operating a program for acquiring the position information of the mobile phone 61 or presses a button for acquiring an image of the digital camera 71. This may be a case in which a program for acquiring position information is operated on the mobile phone 61 by communication or the like.
[0082]
The arrow 812 indicates the time information J2 and is stored in a database or the like so as not to specify the position information. For example, the user 131 expects to obtain substantially the same position information j1, and operates with the intention of not obtaining the position information, or the mobile phone 61 obtains the position information and obtains the position information within a range set by the user 131 in advance. May be determined. An arrow 813 indicates time information J3 at which the user 131 moves and acquires position information j3 from the positions in the time information J1 and the time information J2. Further, in the figure, an arrow indicating time information J4 for acquiring position information j4 is also shown.
[0083]
In FIG. 8A, a circle 814 indicates time information k1 at which the digital camera 71 obtained the image information K1. Further, between the arrows 811 and 812, the image information k2 and the time information K2, that is, two pieces of image information are acquired. Between arrow 812 and arrow 813, image information k3 and time information K3 are obtained once at the time indicated by circle 815. Further, from the arrow 813 to the next arrow, two pieces of image information k4 and time information K4, and two pieces of image information k5 and time information K5 are obtained. As a classification method in the processing means 4, first, the time information J1, the time information J2, and the time information J3 are further processed to detect the time information J2 that does not specify the position information, and then the position information is added to the time information J2. Relate. In the present example, in the arrow 810, the time information J1 of the arrow 811 that is one time older than the arrow 812 and that specifies the position information is detected, and the position information j1 specified by the time information J1 is further converted to the time information. Relate with J2. For example, the position information j1 may be stored in the database so as to specify the position information j1 from the time information J2.
[0084]
Furthermore, classification is performed based on the times of arrows and circles so that the user 131 can easily use the time. For example, as in a classification frame 816, three pieces of image information obtained from an arrow 811 to an arrow 812 are collected. This classifies the position information j1, the image information k1, and the image information k2 so as to be dependent on the time information J1. Similarly, the image information k3 included in the classification frame 817 and the position information j1 are dependent on the time information J2. Position information J3 and two pieces of image information are subordinate to the time information Jc. In this way, the image information from the time when the position information is obtained to the time when the next position information is obtained is collectively classified and subordinated, and the image until the position information is obtained before the position information is obtained Information may be grouped together and subordinate.
In FIG. 8A, the time information indicated by the arrow 812 that does not specify the position information is stored in the storage unit 2, and the image information acquired by the processing unit 4 at the time indicated by the circle 815 is replaced with the position information. May be classified as image information unrelated to.
[0085]
As a second classification method, as shown in FIG. 8B, the time at which the position information is acquired and the time information to be acquired next are classified using an intermediate time point as a delimiter. The meanings of the arrows and circles are the same as those in FIG. First, an arrow 821, an arrow 822, an arrow 824, etc., indicating time information for specifying position information are detected. An intermediate time 826 between the times of the arrow 821 and the arrow 823 is calculated, and the arrow 822 indicates the time on the arrow 823 side with the center time 826 as the center. Therefore, the arrow 822 indicates the position information j10 specified by the time information J10 of the arrow 823. The information is stored in association with the time information J9.
[0086]
Further, the image information is classified. As for the image information, a time earlier than the center time 826 is related to the position information specified by the time information of the arrow 821, and exists before the center time 826 and before the center time 827. Is associated with the position information j10, but the image information acquired at the times indicated by the circles 829 and 830 is associated with the time information J9 indicated by the arrow 822 and the position information j10. That is, it is classified into the classification frame 825 and is classified separately from the circle 831. If there is image information acquired between the center time 826 and the arrow 822, it may be related to the time information Jn. The image information acquired at the time indicated by the circle 831 is stored in association with the time information J10 indicated by the arrow 823. In addition, they are classified by an intermediate time 825 which is an intermediate time between the arrows 822 and 823. That is, the image information and the position information acquired at the time indicated by the circle classified into the classification frame 825 may be dependent on the time information indicated by the arrow 822.
[0087]
FIG. 9, FIG. 10, FIG. 11, and FIG. 12 are examples of the display method of the screen of the computer 11d. This is after the association between the position information and the image information is completed. In this example, since the position information, the image information, and the time information are associated after the processing unit 4, a hierarchical structure such as a screen 910 may be displayed as shown in FIG. What is necessary is just to put together the target information in one hierarchy. When the button 901 is selected, it may be displayed. The “for user” indicates a hierarchy used by the user 131. Hierarchy 911 of year, month, day, hierarchy 913 of position information as a hierarchy below, hierarchy 914 of time information at which position information was acquired as a subordinate, file of image information k1, file 915 of image information k2 as a subordinate, and further What is necessary is just a file of the information j1. In addition, a file of a character string or voice information input by the mobile phone 61 and a file of explanatory information added by the computer 11d may be subordinately stored. In addition to being displayed in a hierarchical manner as described above, various information items dependent on the hierarchical layer 913 are displayed side by side as shown in FIG. 10, buttons for displaying the dependent information items are displayed, and as shown in FIG. , May be displayed. Reference numeral 930 in FIG. 11 indicates month information having a hierarchy 911 and a hierarchy next to the date. The calendar of the previous month is displayed by an arrow 931. A bold frame 932 indicates that the position information and the image information are stored, and the days that are not stored are not a bold frame like the frame 933. Instead of making the column a thick frame, the details of the stored information may be displayed by changing the color of the column, changing the shape, changing the character shape, or placing the mouse display on the column . The color of the column may change depending on the stored information.
[0088]
In this way, by storing the image information using the time information and the position information at which the image information was obtained, the target image information is obtained from the time information stored by the user 131, and further stored by the user 131. The image information is obtained from the position information, and the convenience of the user 131 for managing the image information is improved. Also, by preparing the selection icon for publication 906 as shown in FIGS. 9 to 11, it is possible to move and input image information browsed using the present system as image information to be published on the Internet 10. Having the function of selecting and combining further enhances the convenience of the user 131. FIG. 12 shows information at the time of acquiring the position information obtained by the mobile phone 61 in the hierarchy 913 as an information column 943 and an information column 944, respectively. The information field 943 only needs to display, for example, the time information indicated by the arrow 813 in FIG. 8 and the character string “XX exhibition hall” input by the mobile phone 61 at that time. The last display of “3” may be any number as long as the number of pieces of image information to be stored is displayed. A circle 944 is displayed when there is no character information. When the information field 943 is selected, a specific classification 913 in FIG. 9 may be selected, a specific image may be displayed as shown in FIG. 10, or a place where the image is obtained on a map may be displayed. The search button 905 in FIG. 9 may be used to search for information using time information, position information, or the like.
[0089]
【The invention's effect】
According to the present invention, by comparing two pieces of unique information later and associating the position information acquired in the past with the image information, it is made clear where the acquired image information was taken. Since the image information and the position information acquired in the past are sent separately, the leakage of the personal information of the user 131 is prevented and the safety is improved. By storing still image information such as printed matter and moving image information of a moving image in association with position information, a location where the image was shot for later editing can be stored, and the convenience of the user 131 is improved. Furthermore, if the unique information is described in each of the position information and the unique information, and the unique information is described even if one of the printed matter is provided by having means for easily specifying one from the other, the personal information of the user 131 can be described. The other can be easily identified without spillage, improving safety and convenience. Used as a portable device for providing the user 131 with the functions of a portable information device and an image acquisition device that the user 131 handles and carries on a daily basis without complicating the image information and the positional information. The simplicity and lightness improve the convenience of the user 131. In this way, the time information, the number information, the encryption information, and the character information can be easily obtained by a portable device without purchasing a sophisticated image acquisition device equipped with a GPS signal reception function. Associating information with image information is easy for the user 131 to manage, edit, and convenient. Further, in a mobile phone or the like, the image capacity of a digital camera is large, and transmitting image information by a mobile phone does not require transmission time, communication cost, and labor for contracting with a communication company, and is convenient for the user 131. . In addition, by automatically storing a plurality of pieces of position information sequentially, every time the user 131 obtains image information, the trouble of operating the means for obtaining position information every time is eliminated, and the convenience is improved. In addition, since the position information and the image information are managed by the time information, it is easy to handle in a time series, and the user 131 has good convenience in editing. Further, convenience is good, for example, images can be displayed in the order in which the user 131 has visited.
[0090]
In the first and second embodiments, the user 131 operates the information processing apparatus to obtain the map information and the regional information from the acquired positional information, so that the positional information obtained from the character information, the time information, and the image information is displayed on the map. In such a case, information on the area such as a nearby store is investigated, or the information is edited again in a diary or the like, thereby facilitating subsequent editing and improving the convenience of the user 131. Also, unique information that does not specify position information is stored in the storage means, and is associated with position information specified by other unique information in the processing means, so that a plurality of images are obtained at substantially the same position. The convenience of the user 131 is improved by saving the trouble of acquiring the position information, and further by relating the position information to the classification information and storing the classified information so that the information can be easily browsed or the target image information can be easily specified. To improve. In addition, by storing unique information that does not specify position information in the storage unit and classifying image information that is not related to the position information in the processing unit, for example, an image in which a person's face appears is not related to the position. In this way, security is improved so that personal information is not leaked. In addition, convenience is improved because the user 131 selects safety.
[0091]
In addition, when acquiring image information and position information by another device, there is no need to connect, edit, or relate the image information and the location by taking time and effort at the time of shooting. If image information and location information are always attached and described together and released, it will be specified where, when, and in what state the individual was, and personal information such as the home location will be excessively disclosed. However, even if the position information and the image information are separately stored, the security can be improved because the image information and the position information can be easily associated later.
[0092]
With such an effect, the user 131 is encouraged to use the portable information device and the image acquisition device, and is promoted to use the programs and sites used in these devices. This is effective in preventing loss of the storage medium during going out and leakage of position information and the like, thereby improving security. In addition, the burden on the storage capacity of the portable information device can be reduced, such as reducing the risk that the position information and the image information of an individual are simultaneously leaked while going out by storing the position information and the image information in a storage medium and carrying it around. Thus, the convenience of the user 131 is improved. It also promotes the use of communication and the use of information providing devices. The information processing device performs personal authentication of the user 131, confirms that the user 131 is himself, and permits use. As a result, the information leakage of the user 131 is prevented, the reliability is improved, the information for each user 131 is easily managed, and the efficiency of the system management is improved.
[0093]
In the third embodiment, the position information and the image information can be transmitted separately. The image information with a large communication capacity is transmitted by another method, and the position information is changed by changing the transmission time, so that the storage medium is lost while transmitting or going out, and the position information and the image information leak simultaneously. Can be prevented, personal information of the user 131 can be protected, and security can be improved. When the image information is transmitted from the image acquisition device to a third party, leakage of the personal information of the user 131 is prevented by providing a means for separately storing the position information without transmitting the position information and relating the position information later. Further, when the image information is printed with the unique information described, the location where the printed matter is photographed can be viewed on a map from the position information specified from the recorded unique information, and the convenience of the user 131 is improved. improves.
[0094]
In the fourth embodiment, the portable information device has a function of deleting the position information after transmission by time, the number of cases, the operation of the user 131, and the like, thereby preventing the long-term storage of the position information, The use of the storage capacity of the device is made more efficient, and the risk of leakage of location information, which is important personal information, even if the portable information device is lost, is reduced. In addition, by separating the position information from the image information and storing it in the information processing device, the provider can safely share the position information closely related to the image information to a specific person, The desired degree of security can be set arbitrarily. A feature of the position information use system shown in this example is that the position information acquired by the portable information device is stored in the information processing device as needed. As a result, the security of the position information of the individual user 131 is improved, and various information using the position information and the image information is easily provided from the provider to the user 131.
[Brief description of the drawings]
FIG. 1 is a first configuration of each means of an embodiment of the present invention.
FIG. 2 is a configuration example of a current position acquisition method of the present invention.
FIG. 3 is a configuration of an apparatus used in a position information utilization system according to an embodiment of the present invention.
FIG. 4 is a configuration of a display screen according to an embodiment of the present invention.
FIG. 5 is a configuration of a display screen according to an embodiment of the present invention.
FIG. 6 shows a second configuration of each means of the embodiment of the present invention.
FIG. 7 is a configuration of a printed matter according to an embodiment of the present invention.
FIG. 8 is an example of a processing unit according to an embodiment of the present invention.
FIG. 9 is a configuration of a display screen according to an embodiment of the present invention.
FIG. 10 is a configuration of a display screen according to an embodiment of the present invention.
FIG. 11 shows a configuration of a display screen according to an embodiment of the present invention.
FIG. 12 is a configuration of a display screen according to an embodiment of the present invention.
[Explanation of symbols]
1 Information processing device
2 storage means
3 receiving means
4 Processing means
5 Information storage means
6 Portable information devices
7 Image acquisition device
8 Information transmission path
9 Information transmission path
131 users

Claims (16)

In a portable information device for acquiring position information or an information processing device for acquiring information by connecting to an image acquisition device for acquiring image information, a position information acquired by the portable information device and a first information for specifying the position information Storage means for storing the unique information; receiving means for receiving the image information acquired by the image acquisition device and second unique information for specifying the image information; An information processing apparatus having processing means for comparing the unique information and the image information and the position information; The storage unit stores third unique information that does not specify position information, and the processing unit processes the first unique information and the third unique information, and stores the first unique information. The information processing apparatus according to claim 1, wherein the position information is detected by specifying the position information, and the position information is associated with the third unique information. The receiving means receives second image information and fourth unique information for specifying the second image information, and the processing means converts the third unique information and the fourth unique information to each other. The information processing apparatus according to claim 2, wherein the second image information is associated with the position information by comparison. The information processing apparatus according to claim 2, further comprising an information storage unit configured to store at least one of the first unique information, the second unique information, the image information, and the position information. The information processing apparatus according to claim 2, wherein the first unique information includes a time at which the portable information device has acquired the position information. The information processing apparatus according to claim 2, wherein the first unique information or the third unique information includes character information or audio information. 5. The information processing apparatus according to claim 2, wherein the second specific information or the fourth specific information includes a time at which the image acquisition apparatus acquires the image information. 6. The information processing apparatus according to claim 2, wherein the position information includes at least one of a latitude, a longitude, and an altitude. The information processing apparatus according to claim 2, wherein the image information includes moving image information or still image information. 3. The information processing apparatus according to claim 2, wherein personal authentication is performed to acquire information stored in the storage unit. Claims have at least one of a quartz clock, a radio clock, and an atomic clock, and acquire, as unique information, a time at which positional information is received from the portable information device, or a time at which the positional information is received and stored. Item 3. The information processing device according to item 2. A server for receiving information via the portable information device and the network, a computer for receiving the information via the image acquisition device and a wired, wireless or storage medium, and an information transmission path between the server and the computer. The information processing apparatus according to claim 2, further comprising: A portable information device that obtains position information, first specific information that specifies the position information, and third specific information that does not specify the position information; and obtains image information and second specific information that specifies the image information. An image acquisition device, the information processing device according to any one of claims 1 to 13, an information transmission path between the portable information device and the information processing device, the information processing device and the image acquisition device A position information utilization system having an information transmission path with the system. A first step of storing the position information and the first unique information for specifying the position information, a second step of storing the third unique information, and the image information and the second unique information for specifying the image information A third step of receiving the first unique information and the third unique information, a fourth step of associating the first unique information with the third unique information, and a fourth step of associating the first unique information with the third unique information. And a fifth step of comparing and storing the image information and the position information in association with each other. A first step of storing position information and first unique information that specifies the position information, a second step of storing third unique information, and a step of storing the first unique information and the third unique information. A third step of storing them in association with each other, a fourth step of receiving image information and second specific information for specifying the image information, and a step of receiving the first specific information, the third specific information, and the second specific information. An image management method including a fifth step of comparing the unique information and storing the image information and the position information in association with each other. A first step of storing the position information and the first unique information for specifying the position information, a second step of storing the third unique information, and the image information and the second unique information for specifying the image information A third step of receiving the second image information, a fourth step of receiving the second image information and the fourth unique information for specifying the second image information, and a step of receiving the first image information and the second unique information. Comparing information, associating the image information with the position information, comparing the third unique information with the fourth unique information, and associating the second image information with the unique information A fifth step, an image management method including a sixth step of comparing the first unique information with the third unique information and storing the second image information and the position information in association with each other.

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