JP2004363741A - Mobile communication terminal, position information acquisition support server, and mobile communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile communication terminal, a position information acquisition support server and a mobile communication system which reduces restrictions for acquiring reference position information by designating a place for executing place-related operations and improves handling convenience. <P>SOLUTION: The mobile communication terminal comprises a place information inputting means for a user to input place information, a sending means for sending the place information to a position memorandum WEB server 40 via a portable telephone communication network 20, a receiving means for receiving map image information generated based on the place information from the server 40, a displaying means for displaying the map image on the basis of the map image information, a designating means for the user to designate the relative position of the place on the map image, a sending means for sending the information of the relative position to the server 40, and a receiving means for receiving the information of the absolute position corresponding to the relative position as reference position information from the server 40. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile communication terminal such as a mobile phone that performs a location-related operation associated with a location, and a position that supports acquiring reference position information used for performing the location-related operation via a mobile communication network. The present invention relates to an information acquisition support server and a mobile communication system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there has been known a mobile communication terminal capable of executing a notification operation such as an alarm as a location-related operation previously associated with the mobile communication terminal when the mobile communication terminal moves to a predetermined location (Patent Document 1). 1). In this mobile communication terminal, the reference position information corresponding to the place where the notification operation is desired to be executed is acquired and stored in the storage unit. When the mobile communication terminal moves to the location indicated by the reference position information, the current position information received by the receiving means matches the reference position information stored in the storage means. In this way, control is performed to execute the notification operation when the current position information and the reference position information match.
[0003]
Patent Document 1 discloses a mobile communication terminal (Claim 1 and a first embodiment) in which the reference position information is acquired and stored in a storage unit are different from each other, and includes a mobile communication terminal and a network. A communication system (claim 3, second embodiment) is disclosed.
In the mobile communication terminal described in Patent Document 1 (Claim 1, First Embodiment), the mobile terminal moves to a place where the notification operation is to be performed in advance, and receives position information of the position from the mobile communication network. . Then, when the user operates a predetermined key at the place, the position information received from the mobile communication network is stored in the storage means as the reference position information.
In the communication system described in Patent Document 1 (claim 3 and the second embodiment), when a user specifies a specific area in which a notification operation is performed, a mobile communication terminal transmits a mobile communication network (network). Then, a "location registration request" (location information inquiry signal) to which the specific code indicating the above-mentioned area is added is transmitted. When the mobile communication network receives the “location registration request” transmitted by the mobile communication terminal, the mobile communication network identifies the above-mentioned area from the code included in the “location registration request”, and obtains location information (“network”) indicating the identified area. Number and position number) from the database. The “location registration reception” to which the read location information is added is transmitted to the mobile communication terminal. Upon receiving the “location registration reception” transmitted by the mobile communication network, the mobile communication terminal identifies the location information added to the “location registration reception” and stores the identified location information as the reference location information. Store in the means.
[0004]
[Patent Document 1]
JP 2001-136567 A
[0005]
[Problems to be solved by the invention]
However, in the mobile communication terminal described in Patent Document 1 (Claim 1, the first embodiment), by moving in advance to a place where the notification operation is to be performed, the reference position information is acquired and stored in the storage means. It had to be memorized, and there was a problem that usability was bad.
Further, the communication system described in Patent Document 1 (Claim 3 and the second embodiment) has a problem that the following restrictions are imposed on the designation of the place and the usability is poor. That is, the mobile communication network (network) of this communication system associates location information (network number and location number) with a region name (or telephone number, postal code, address) that can uniquely specify the location information. There is a database stored. When registering the reference position information in the mobile communication terminal, there is a restriction that the user needs to input and specify a region code that can uniquely specify the position information, which is not convenient. Was. For example, if an area name wider than an area name that can uniquely identify the location information is specified, the mobile communication network (network) cannot uniquely identify the location information and read it from the database. Was. Therefore, the reference position information could not be finally obtained, the area name of a smaller area had to be specified again, or the user was inconvenient. Further, it is necessary for the user to memorize the code corresponding to the region where the user wants to execute the above-mentioned notification operation or to check the code, which is also inconvenient.
[0006]
The present invention has been made in view of the above problems. It is an object of the present invention to provide a mobile communication terminal, a position information acquisition support server, and a mobile communication system that can reduce the restrictions when specifying the location where the location-related operation is to be performed and acquire the reference location information and improve the usability. To provide.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 includes a place-related operation content storage unit that stores the contents of a place-related operation to be executed in association with a place, and a place-related operation execution unit that executes the place-related operation. Reference position information storage means for storing reference position information corresponding to the location, current position information obtaining means for obtaining position information of the current position where the mobile communication terminal is located, the reference position information and the current position Control means for controlling the location-related operation execution means so as to execute the location-related operation based on the comparison result with the information, wherein the information on the location where the location-related operation is executed is used. Location information input means for inputting by a user, and location information transmission means for transmitting location information input by the location information input means to a location information acquisition support server via a mobile communication network. Map image information receiving means for receiving map image information generated based on the location information from the position information acquisition support server via a mobile communication network, and map image information received by the map image information receiving means Map image display means for displaying a map image based on the map information, relative position designation means for a user to designate a relative position of the place on the map image displayed on the map image display means, and the relative position designation Relative position information transmitting means for transmitting the information on the relative position specified by the means to the position information acquisition support server via a mobile communication network; and information on the absolute position corresponding to the relative position as reference position information. Reference position information receiving means for receiving from the position information acquisition support server via the mobile communication network.
According to a second aspect of the present invention, in the mobile communication terminal of the first aspect, there is provided a location-related operation specifying means for a user to specify the content of the location-related operation.
According to a third aspect of the present invention, in the mobile communication terminal according to the first or second aspect, the current position information obtaining means includes a GPS signal receiving means for receiving a GPS signal transmitted from a GPS satellite, and the GPS signal receiving means. And a current position calculating means for calculating the current position of the mobile communication terminal based on the above.
A fourth aspect of the present invention is a position information acquisition support server that assists in acquiring, via a mobile communication network, position information corresponding to a place where a location-related operation is performed in a mobile communication terminal. Information storage means for storing information of a place designated by the user, information of a map image including the place, information of a relative position on the map image, and information of an absolute position corresponding to the relative position in association with each other; Location information receiving means for receiving location information transmitted from a mobile communication terminal via a mobile communication network, and a map image for reading from the information storage means map information corresponding to the received location information Information reading means, map image information transmitting means for transmitting information of the map image to the mobile communication terminal via a mobile communication network, and mobile communication from the mobile communication terminal Relative position information receiving means for receiving relative position information on the map image transmitted via a network, and reading absolute position information from the information storage means for reading absolute position information corresponding to the relative position information Means, and absolute position information transmitting means for transmitting the information on the absolute position to the mobile communication terminal via a mobile communication network.
According to a fifth aspect of the present invention, there is provided the mobile communication terminal according to any one of the first to third aspects, the position information acquisition support server according to the fourth aspect, and a mobile communication network. is there.
[0008]
In the mobile communication terminal according to the first to third aspects and the mobile communication system according to the fifth aspect, when a user inputs information on a place where the location-related operation is to be performed by the place information input means, the information on the place is displayed. The information is transmitted to the position information acquisition support server via the mobile communication network by the information transmitting means. In the position information acquisition support server, map image information is generated based on the location information transmitted from the mobile communication terminal. When the map image information generated by the position information acquisition support server is received by the map image information receiving means via the mobile communication network, the map image is displayed on the map image display means based on the received map image information. The user confirms the displayed map image, and can specify the relative position information of the place where the place-related operation is desired to be executed by the relative position information specifying means on the map image. When the relative position information specified by the user is transmitted to the position information acquisition support server via the mobile communication network by the relative position information transmitting means, the server reads the absolute position information corresponding to the relative position information. The absolute position information read by the position information acquisition support server is received by the absolute position information receiving means via the mobile communication network, and stored as reference position information in the position information storage means.
As described above, by once displaying the map image including the location where the location-related operation is performed on the mobile communication terminal, the map image including the location can be visually confirmed. Then, when the user specifies the relative position of the place on the map image displayed on the mobile communication terminal, the reference position information corresponding to the place can be acquired and stored in the storage means. Therefore, the reference position information can be obtained without having to go to the above place in advance. Further, even if a wide area is input as the location information, a more accurate location of the location can be specified on the map image displayed on the mobile communication terminal. In addition, since the position designation on the map image can be performed while visually confirming, the above-mentioned location designation can be easily performed as compared with the case where designation is made only by character information such as a place name and an address. .
In the mobile communication terminal according to the second aspect, the user can specify the content of the location-related operation by the location-related operation specifying means.
In the mobile communication terminal according to the third aspect, the current position of the mobile communication terminal can be calculated based on the GPS signal received from the GPS satellite. Can be obtained with precision.
The mobile communication terminal according to any one of claims 1 to 3 includes a geomagnetism detecting unit that detects geomagnetism at a location where the mobile communication terminal is located, and the mobile communication terminal based on a detection signal from the geomagnetic detection unit. Azimuth calculating means for calculating the azimuth of the direction in which the body communication terminal is moving may be provided. In this case, the azimuth of the moving direction of the mobile communication terminal can be calculated by the azimuth calculation means based on the detection signal of the terrestrial magnetism detection means for detecting the terrestrial magnetism at the location where the mobile communication terminal is located. Based on the information of the calculated direction, it is possible to determine which direction the user is facing at the current position.
[0009]
In the position information acquisition support server according to the fourth aspect, it is possible to support the acquisition of reference position information by the mobile communication terminal. That is, the position information acquisition support server includes information on a place designated by the user, information on a map image including the place, information on a relative position on the map image, and information on an absolute position corresponding to the relative position. Are stored in the information storage means in association with each other. When the location information receiving means of the location information acquisition support server receives the information of the location transmitted from the mobile communication terminal via the mobile communication network, the location information receiving means The corresponding map image information is read from the information storage means. The map image information read from the information storage means is transmitted to the mobile communication terminal via the mobile communication network by the map image information transmitting means. The mobile communication terminal that has received the map image information displays the map image corresponding to the location input by the user as described above, and displays the relative position information of the location where the location-related operation is performed on the displayed map image. Can be specified. When the relative position information on the map image transmitted from the mobile communication terminal via the mobile communication network is received by the relative position information receiving means, the absolute position information reading means corresponds to the received relative position information. The absolute position information is read from the information storage means. The absolute position information transmitting means transmits the read absolute position information to the mobile communication terminal via the mobile communication network.
[0010]
Note that the above “mobile communication terminal” includes a PDC (Personal Digital Cellular) system, a GSM (Global System for Mobile Communication) system, a TIA (Telecommunications Insulation Association Telecommunications Association Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Telecommunications Mobile Phone) Mobile phones standardized by The "mobile communication terminal" includes a telephone such as a PHS (Personal Handyphone Service) and a car telephone, and also includes an information communication terminal to which a mobile telephone module is added.
Examples of the “place-related operation” include display of a text or image preset by a user, output of sound, alarm by sound or vibration, and any operation that can be executed by the mobile communication terminal. .
Further, the “contents of the location-related operation” may include information on an execution mode when the location-related operation is performed. For example, information on an execution mode to be executed when the mobile communication terminal enters the location input by the user or information on an execution mode to be executed when approaching the location input by the user may be included. In addition, an execution mode to be executed when the mobile communication terminal comes out of the area of the location input by the user, and an execution mode to be executed when the mobile communication terminal is likely to depart from the area of the location input by the user Information may be included.
The "location information" input by the user includes a local name, a part of an address, a telephone number, and a postal code. Further, the “location information” may include information specifying the size of a location (area) in which the location-related operation is executed.
Further, the control and information processing in the mobile communication terminal or the server can also be realized by executing a predetermined program on a computer provided in the terminal or the server. The delivery of the program used in the computer may be performed using a recording medium such as an FD or a CD-ROM in which the program is recorded as digital information, or may be performed using a communication network such as a computer network.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a mobile phone as a mobile communication terminal will be described.
FIG. 1 shows an overall configuration of a mobile communication system including a mobile phone 10 according to an embodiment of the present invention and a mobile phone web server (hereinafter, referred to as a “location memo web server”) 40 as a location information acquisition support server. FIG. The location-related operation is a predetermined operation set in association with the location such that when the user moves with the mobile phone to a specific location set in advance, the mobile phone executes the operation. In the present embodiment, a case where an operation of displaying a memo (hereinafter, referred to as a “place memo”) which is text information preset by a user in association with a place is executed as the place-related operation will be described.
[0012]
In the mobile communication system shown in FIG. 1, a mobile phone communication network 20 as a mobile communication network is composed of base stations, exchanges, dedicated lines, routers, firewalls, and the like. The mobile phone communication network 20 includes a location registration server 30, an information providing server 35, and a location memo web server 40. Each of the servers 30, 35, and 40 may be configured by a single computer device, or may be configured by connecting a plurality of computers that respectively perform a plurality of functions via a network. The location memo web server 40 may be a public web server 40 ′ that is open to the public on the Internet 50 connected to the mobile phone communication network 20 via the gateway devices 21 and 51.
[0013]
The location registration server 30 is a server that registers and manages information on the current location where each mobile phone 10 is located, that is, location information on the management area where each mobile phone 10 is located. This management area may be an area composed of one cell that is controlled by a base station that wirelessly communicates with each mobile phone, or may be an area where a plurality of adjacent cells are managed as one group. A typical size of one management area is several km to several hundred m. The location registration of each mobile phone 10 with the location registration server 30 is performed at power-on, periodically, and each time the cell in which the mobile phone 10 is located changes.
[0014]
The information providing server 35 distributes various information such as regional information, position information (latitude, longitude, address) of the corresponding management area, and content information from a base station of each management area through a predetermined communication channel. As described above, when the mobile phone 10 performs the receiving operation at a predetermined timing with respect to the communication channel through which various information is transmitted, the information transmitted through the communication channel can be acquired and stored in the internal memory. . The reception operation for each communication channel can be executed at a timing set in advance by an initial setting or at a timing set by a user. This receiving operation may be performed periodically or irregularly.
In particular, regarding the communication channel to which the location information of the management area is distributed, the reception is performed when the power of the mobile phone is turned on, at a regular timing set in advance in advance, and at a timing when the management area where the mobile phone is located is changed. Perform the action. By this receiving operation, each mobile phone 10 can always update the position information (latitude, longitude, address) of the management area where the mobile phone exists to the latest information.
[0015]
FIG. 2 is a functional block diagram of the location memo web server 40 as the location information acquisition support server. The location memo web server 40 is a server that assists a user operating a mobile phone to obtain reference position information corresponding to a location where the location memo is to be displayed. The location memo WEB server 40 includes a system bus, an internal storage device including a CPU, a RAM and a ROM, an external storage device including a hard disk drive (HDD) and an optical disk drive, and a mobile phone communication network for communicating with each mobile phone 10. Communication device. The location memo WEB server 40 executes a predetermined program on hardware such as a CPU to execute an information storage unit 401, a location information receiving unit 402, a map image information reading unit 403, a map image information transmitting unit 404, a relative The functions of the position information receiving unit 405, the absolute position information reading unit 406, and the absolute position information transmitting unit 407 are realized.
[0016]
The information storage means 401 corresponds to information of a place that may be designated by the user, information of a map image including the place, information of a relative position of a management area on the map image, and the relative position. Information on the absolute position of the management area is stored in association with each other.
The location information receiving means 402 receives location information transmitted from the mobile phone 10 via the mobile phone communication network 20.
The map image information reading means 403 reads from the information storage means 401 information of a map image corresponding to the location information received from the mobile phone 10.
The map image information transmitting unit 404 transmits the map image information read by the map image information reading unit 403 to each mobile phone 10 via the mobile phone communication network 20.
The relative position information receiving means 405 receives information on the relative position on the map image transmitted from the mobile phone 10 via the mobile phone communication network 20.
The absolute position information reading means 406 reads from the information storage means 401 the information on the absolute position of the management area corresponding to the information on the relative position received from the mobile phone 10.
The absolute position information transmitting means 407 transmits the absolute position information read by the absolute position information reading means 406 to the mobile phone 10 via the mobile phone communication network 20.
[0017]
FIG. 3 is a block diagram illustrating an example of a hardware configuration of the mobile phone 10 used in the present embodiment. The mobile phone 10 includes a control unit 111 as a control unit, an internal memory 112 as an information storage unit, a wireless communication unit 113 as an information reception unit, and an antenna 114. The control unit 111 is connected to a microphone 116 and a speaker 117 via an audio processing unit 115, a display unit 119 via an image processing unit 118, and a key operation unit 120.
[0018]
The control unit 111 includes, for example, a CPU, a cache memory, and a system bus. The control unit 111 executes a predetermined control program to transmit and receive data to and from each unit, such as the internal memory 112 and the wireless communication unit 113. Control.
The internal memory 112 is composed of, for example, a semiconductor memory such as a RAM or a ROM, and stores a control program executed by the control unit 111 and various data. The internal memory 112 is also used as a storage unit for storing a map image and reference position information downloaded from the location memo web server 40.
The wireless communication unit 114 is controlled by the control unit 111 and performs wireless communication with a base station of the mobile phone communication network 20 via the antenna 114 by a predetermined communication method. By this wireless communication, it is possible to perform voice telephone communication with a specific cellular phone or the like, or perform data communication for transmitting and receiving e-mail and transmitting and receiving various information from the location memo WEB server 40. .
The voice processing unit 115 encodes a transmission voice signal input from the microphone 116 by a predetermined method and sends the encoded signal to the control unit 111. The audio processing unit 115 decodes the received audio signal received by the wireless communication unit 113 and outputs the signal from the speaker 117. Further, the voice processing unit 115 outputs a sound signal such as a ringtone melody stored in the internal memory 112 or a sound effect used in an application program from the speaker 117.
The image processing unit 118 processes image data received by the wireless communication unit 113 and image data such as icons and menus stored in the internal memory 112 and displays the processed data on a display unit such as a liquid crystal display (LCD). .
The key operation unit 120 includes a data input key (numeric keypad, * key, # key), a call start key, an end key, a scroll key, a multi-function key, and the like. Used for scrolling or selecting displayed information.
[0019]
FIG. 4 is a functional block diagram of the mobile phone 10 of the present embodiment. The mobile phone 10 executes a predetermined program on the hardware shown in FIG. 3 to execute a location-related operation content storage unit 101, a location-related operation execution unit 102, a reference position information storage unit 103, and a current position information acquisition unit 104. , The control unit 105, the location information input unit 106, and the reference position information acquisition unit 107.
[0020]
The location-related operation content storage unit 101 is configured by the internal memory 112 and the like, and stores the content of the location-related operation associated with the location to be executed when the user moves to a predetermined location. In the present embodiment, the content of the location-related operation includes the content of the location memo, which is text information displayed on the display unit 119, the presence / absence of an alarm, the type of music output when an alarm is present, and the like.
The location-related operation execution means 102 includes a control unit 111, a display unit 119, a speaker 117, etc., and displays a location memo whose contents are stored in the location-related operation content storage means 101, or when there is an alarm. Sound an alarm. As the sounding of the alarm, a preset music piece may be output.
The reference position information storage means 103 includes an internal memory 112 and stores reference position information corresponding to a location.
The current position information acquisition unit 104 is configured by the control unit 111, the wireless communication unit 113, the antenna 114, and the like, and acquires position information (latitude, longitude, address) of the current position where the mobile phone 10 is located.
The control unit 105 is configured by a control unit 111, based on a comparison result between the reference position information stored in the reference position information storage unit 103 and the current position information acquired by the current position information acquisition unit 104, When both pieces of location information match, the location-related operation execution means 102 is controlled to display a location memo or sound an alarm.
The location information input means 106 includes a key operation unit 120 and the like, and is used when a user inputs location information (area name, address, telephone number, postal code, etc.) for displaying a location memo.
The reference position information obtaining means 107 obtains reference position information (latitude, longitude, address) corresponding to the location input by the user from the location memo web server 40 via the mobile phone communication network 20.
[0021]
As shown in FIG. 5, the reference position information acquiring unit 107 includes a location information transmitting unit 107-1, a map image information receiving unit 107-2, a map image displaying unit 107-3, and a relative position specifying unit 107-. 4, a relative position information transmitting unit 107-5, and a reference position information receiving unit 107-6.
The location information transmitting unit 107-1 transmits the location information input by the user to the location memo web server 40 via the mobile phone communication network 20.
The map image information receiving means 107-2 receives the map image information generated based on the information of the place from the place memo WEB server 40 via the mobile phone communication network 20.
The map image display means 107-3 displays a map image based on the map image information received from the location memo WEB server 40.
The relative position specifying means 107-4 is used when the user specifies the relative position of the place on the map image displayed on the map image display means 107-3.
The relative position information transmitting means 107-5 transmits information on the relative position specified by the user to the location memo WEB server 40 via the mobile phone communication network 20.
The reference position information receiving means 107-6 receives the information on the absolute position corresponding to the relative position from the place memo WEB server 40 via the mobile phone communication network 20 as the reference position information.
[0022]
FIG. 6 shows an example of a data format commonly used for the reference position information and the current position information to be compared with each other in the present embodiment. The position information shown in FIG. 6 is composed of latitude data (6 bytes), longitude data (6 bytes), and address data (128 bytes). Latitude and longitude are represented by decimal numbers. The address is described in the text of the Shift-JIS code.
[0023]
FIG. 7 is a sequence diagram showing the exchange of information between the mobile phone 10 and the location memo WEB server 40 on the mobile phone communication network 20 when registering the reference position information in the mobile phone 10.
First, the user operates the mobile phone 10 to activate predetermined application software downloaded from a download server of the application software. When the software is activated, a screen for inputting information of a registration target place (search place) for which a place memo is to be displayed is displayed (see FIG. 8A). On this screen, the user inputs information of a place (search place) where the place memo is to be displayed. As the location information, a local name, a part of an address, a telephone number, and the like can be input.
Next, when the user inputs the above search location and clicks the “send” button, the information of the input search location is transmitted to the location memo web server 40. The location memo WEB server 40 searches the map image of the corresponding position for information based on the received search location information. Then, the information of the searched map image is transmitted to the mobile phone 10. Here, when there are many candidates for the searched map image, a list of the candidates may be transmitted to the mobile phone 10 so that the user can select the list.
Next, the user displays the map image received from the location memo WEB server 40 on the display unit 119 (see FIG. 8B). Then, by operating the scroll keys, the mark (star-shaped mark in FIG. 8B) is moved to the place to be registered on the displayed map screen and clicked, and information on the relative position on the map image is displayed. (Coordinate information) is transmitted to the location memo web server 40. The location memo WEB server 40 searches for information (latitude, longitude, address) of the absolute position to be registered based on the received relative position information (coordinate information) on the map image. Then, the searched absolute position information (latitude, longitude, address) is transmitted to the mobile phone 10 as reference position information.
Next, the user checks the absolute position information (latitude, longitude, address) received from the location memo WEB server 40 on the screen (see FIG. 8C), and then clicks the “Save” button. As a result, the absolute position information (latitude, longitude, address) is registered (stored) in the mobile phone 10.
Next, the user inputs the content of the location memo displayed when the user moves to the location on the mobile phone 10 (see FIG. 8D). At this time, an alarm to be activated along with the display of the location memo may be set, and the music played at the time of the alarm may be selected. Thereafter, the mobile phone 10 enters a state of waiting for a location update event.
[0024]
FIG. 9 is a flowchart showing the control in the mobile phone 10 when the user is moving with the mobile phone 10 in which the reference position information and the contents of the location memo are registered. FIG. 10 is an explanatory diagram showing a state of movement of the mobile phone 10 moving together with the user. A curve shown by a bold line in FIG. 10 is a movement locus of the mobile phone 10. The management area A is a management area in which the mobile phone 10 is present at the time of starting movement, and the management area C is a management area in which reference position information is registered as a place where a user displays a place memo.
When the user moves with the mobile phone 10 in which the reference position information and the contents of the location memo are registered, the following control is executed in the mobile phone 10.
First, when the management area where the mobile phone 10 is located changes and a location update event occurs, the information providing server 35 of the mobile phone communication network 20 outputs the current location information (latitude, longitude) of the management area as the current location information. , Address). For example, when moving to the management area B, position information (latitude, longitude, address) corresponding to the management area B is received. The received position information of the current position is compared with the registered reference position information. Here, when the user arrives at the point P in the management area C from the management area B in FIG. 10, the mobile phone 10 sets the location information (latitude, longitude, address, etc.) corresponding to the management area C as the current location information. ) To receive. Then, when the received position information of the current position is compared with the registered reference position information, both the position information match. When the position information of the current position and the reference position information match in this way, it is determined that the mobile phone 10 has entered the management area C corresponding to the reference position information of the preset location, and the user inputs the information in advance. A place memo is displayed, and when an alarm is set, a preset music is played from the speaker.
By sounding the alarm composed of the music, the user can be notified that he / she has arrived at the above-mentioned set place to call attention. Further, by displaying the location memo on the display unit 119 of the mobile phone 10, it is possible to inform the user of information to be confirmed when the user arrives at the location or text information set in advance as information to be confirmed. .
[0025]
As described above, according to the present embodiment, it is possible to acquire the reference position information used for performing the place-related operation without having to go to the place where the place-related operation is to be performed in advance. Even if it is input, it is possible to specify a more accurate position of the place on the map image displayed on the mobile phone 10. In addition, since the position designation on the map image can be performed while visually confirming, the above-mentioned location designation can be easily performed as compared with the case where designation is made only by character information such as a place name and an address. . Further, it is not necessary for the user to memorize a specific code which is set in advance so as to correspond to the place where the place-related operation is executed, or to confirm the code every time the code is input. Therefore, there are few restrictions when acquiring the reference position information by designating the place where the place-related operation is executed, and the usability can be improved.
Further, according to the present embodiment, the content of the location-related operation to be executed by the mobile phone 10, such as the content of the text information of the location memo and the presence or absence of the alarm, can be set in advance by the user.
Further, according to the present embodiment, since the position information of the current position of the mobile phone 10 can be received and acquired from the mobile phone communication network 20, the mobile phone itself has a function of measuring or calculating the current position. You don't have to.
[0026]
In the above-described embodiment, a case has been described in which a place-related operation (display of a place memo and sounding of an alarm) is executed when a user enters a management area registered in advance. The operation may be performed. Further, the location-related operation may be executed when the reference position information comes out of the management area in which the reference position information is registered in advance or when the reference position information is about to come out of the management area.
[0027]
Further, in the above embodiment, the case where the position information of the current position of the mobile phone 10 is obtained from the information providing server 35 has been described. However, the GPS signals from a plurality of GPS satellites are received and the current position information of the mobile phone 10 is obtained. You may make it acquire. In this case, the current position information acquiring means 104 of the mobile phone 10 is provided with a GPS signal receiving means for receiving a GPS signal transmitted from a GPS (Global Position System) satellite, and a current position of the mobile phone based on the GPS signal. And a current position calculating means for calculating the current position. When the current position information of the mobile phone 10 is calculated by receiving the GPS signal from the GPS satellite in this way, the current position information of the mobile phone 10 can be obtained with an accuracy of several meters to several tens of meters. In this case, the reference position information is registered with the accuracy of several meters to several tens of meters in accordance with the accuracy of the current position information of the mobile phone obtained using the GPS signal.
In order to further improve the positional accuracy of the current position information of the mobile phone 10, the current position information is calculated by further combining the GPS signal, the detection signal of the acceleration sensor, and the detection signal of the terrestrial magnetism sensor as terrestrial magnetism detecting means. You may make it. When the acceleration sensor or the terrestrial magnetism sensor is used, the movement amount and the movement direction of the mobile phone 10 can be detected with high sensitivity, so that the accuracy of the calculated value of the current position information is improved.
[0028]
In particular, the terrestrial magnetism sensor detects terrestrial magnetism at a location where the mobile phone 10 is located, and can calculate the direction in which the mobile phone 10 is moving based on the detection signal of the terrestrial magnetism sensor. Based on the information of the calculated direction, it is possible to determine which direction the user is facing at the current position. Accordingly, the location-related operation is performed by associating the azimuth of the traveling direction of the user with the location information and executing the location-related operation when the user is approaching or going out of the location designated by the user. The types of execution modes can be diversified.
[0029]
【The invention's effect】
According to the first to fifth aspects of the present invention, it is possible to acquire the reference position information used for performing the place-related operation without having to go to the place where the place-related operation is to be performed in advance. Even if an area is input, it is possible to specify a more accurate position of the place on the map image displayed on the mobile communication terminal. In addition, since the position designation on the map image can be performed while visually confirming, the above-mentioned location designation can be easily performed as compared with the case where designation is made only by character information such as a place name and an address. . Further, it is not necessary for the user to memorize a specific code set in advance so as to correspond to the location where the location-related operation is executed, or to check the code. Therefore, there is an effect that there is little restriction when acquiring the reference position information by designating the place where the place-related operation is executed, and the usability can be improved.
In particular, according to the invention of claim 2, there is an effect that the user can set the contents of the place-related operation desired by the user.
In particular, according to the third aspect of the present invention, the current position of the mobile communication terminal can be calculated based on the GPS signal received from the GPS satellite, so that the current position of the mobile communication terminal can be accurately obtained. There is an effect that can be.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an overall configuration of a mobile communication system including a mobile phone and a location memo web server according to an embodiment of the present invention.
FIG. 2 is a functional block diagram of a location memo web server.
FIG. 3 is an exemplary block diagram showing an example of a hardware configuration of a mobile phone used in the embodiment.
FIG. 4 is a functional block diagram of the mobile phone.
FIG. 5 is a functional block diagram showing a detailed configuration of a reference position information acquiring unit of the mobile phone.
FIG. 6 is an explanatory diagram of a data format of reference position information and current position information.
FIG. 7 is a sequence diagram showing information exchange between the mobile phone and the location memo web server when registering reference position information.
FIGS. 8A to 8D are explanatory diagrams of screens displayed on a display unit of a mobile phone when a user registers reference position information.
FIG. 9 is a flowchart showing control on the mobile phone when the user is moving with the mobile phone.
FIG. 10 is an explanatory diagram illustrating a state of movement of a mobile phone that moves together with a user.
[Explanation of symbols]
10 Mobile phone
20 Mobile phone communication network
30 location registration server
35 Information server
40 location memo web server

Claims (5)

Place-related operation content storage means for storing the contents of the place-related operation to be executed in association with the place, place-related operation execution means for executing the place-related operation, and reference position information for storing reference position information corresponding to the place Storage means, current position information obtaining means for obtaining position information of a current position where the mobile communication terminal is located, and executing the location-related operation based on a comparison result between the reference position information and the current position information Control means for controlling the location-related operation execution means as described above,
Place information input means for a user to input information of a place to execute the place-related operation;
Location information transmitting means for transmitting the location information input by the location information input means to a location information acquisition support server via a mobile communication network;
Map image information receiving means for receiving map image information generated based on the location information from the position information acquisition support server via a mobile communication network;
Map image display means for displaying a map image based on the map image information received by the map image information receiving means;
Relative position specifying means for a user to specify a relative position of the place on the map image displayed on the map image display means;
Relative position information transmitting means for transmitting information on the relative position specified by the relative position specifying means to the position information acquisition support server via a mobile communication network;
A mobile communication terminal comprising: a reference position information receiving unit that receives information on an absolute position corresponding to the relative position as reference position information from the position information acquisition support server via the mobile communication network. . The mobile communication terminal according to claim 1,
A mobile communication terminal comprising a location-related operation specifying means for a user to specify the content of the location-related operation. The mobile communication terminal according to claim 1 or 2,
The current position information obtaining means includes:
GPS signal receiving means for receiving a GPS signal transmitted from a GPS satellite,
A mobile communication terminal comprising: a current position calculating unit that calculates a current position of the mobile communication terminal based on the GPS signal. A position information acquisition support server that assists in acquiring position information corresponding to a place where a location-related operation is performed in a mobile communication terminal via a mobile communication network,
Information storage means for storing information of a location designated by a user, information of a map image including the location, information of a relative position on the map image, and information of an absolute position corresponding to the relative position, in association with each other;
Location information receiving means for receiving location information transmitted from the mobile communication terminal via a mobile communication network;
Map image information reading means for reading information of a map image corresponding to the received location information from the information storage means,
Map image information transmitting means for transmitting the map image information to the mobile communication terminal via a mobile communication network;
Relative position information receiving means for receiving relative position information on the map image transmitted from the mobile communication terminal via a mobile communication network,
An absolute position information reading unit that reads information of an absolute position corresponding to the information of the relative position from the information storage unit;
A position information acquisition support server, comprising: absolute position information transmitting means for transmitting the information on the absolute position to the mobile communication terminal via a mobile communication network. A mobile communication system comprising the mobile communication terminal according to any one of claims 1 to 3, the position information acquisition support server according to claim 4, and a mobile communication network.

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