JP2006012144A - Mobile terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile terminal that appropriately provides information which a user attempts to use according to a transfer destination of the user by a simple structure. <P>SOLUTION: A cellular phone 1201 which is a mobile terminal is provided with a transfer destination candidate storage part 1102 which considers a station which text information acquired via a network indicates as a candidate of the transfer destination of the user and stores the text information, a boarding station detection part 1103 which detects boarding information regarding a boarding station when the cellular phone 1201 passes a ticket gate of the boarding station, a transfer destination prediction part 1104 which determines a station to be the transfer destination of the user from the stations which the text information stored in the transfer destination candidate storage part 1102 indicates based on the boarding information detected by the boarding station detection part 1103 and an information providing part 1105 which provides information regarding the station determined by the transfer destination prediction part 1104. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a mobile terminal that provides information to a user, and relates to a mobile terminal that provides, for example, a preinstalled application program that a user intends to use.

  Conventionally, a support device that supports the user's input operation by predicting the next operation or command by the user has been proposed (see, for example, Patent Document 1 and Patent Document 2).

  Such a support device predicts an application program that will be executed next based on a user's operation history among a plurality of preinstalled application programs, and performs an operation for executing the application program. Present a command. As a result, the user can easily execute the application program to be used next.

  Conventionally, an in-vehicle device for a car navigation system that predicts a destination of a user and information to be presented regarding the destination has been proposed.

Such an in-vehicle device predicts a destination based on the behavior history of the user's automobile. Furthermore, the in-vehicle device predicts an application program that provides information about the destination among a plurality of preinstalled application programs, and executes the application program. Thereby, the user can save the trouble of setting the destination, and can easily know information about the destination.
JP-A-10-27089 JP 2002-215278 A

  However, the conventional support device and the vehicle-mounted device have a problem that information such as application programs cannot be appropriately provided with a simple configuration.

  That is, the application program of the mobile terminal used by the user tends to vary depending on the destination of the user, but the above-described conventional support apparatus does not consider such a tendency and depends on the destination. Therefore, it is impossible to provide appropriate information, that is, an application program. In addition, since the conventional vehicle-mounted device has a positioning function such as GPS for predicting the destination, the configuration becomes complicated and the cost is high.

  The present invention has been made in view of such a problem, and an object of the present invention is to provide a mobile terminal that appropriately provides information to be used by a user according to the destination of the user with a simple configuration.

  In order to achieve the above object, the mobile terminal of the present invention is a mobile terminal that provides information to the user, and the station indicated by the text information acquired via the network is a candidate for the user's destination, Detected by destination candidate storage means for storing the text information, boarding station detection means for detecting boarding information about the boarding station when the mobile terminal passes the ticket gate of the boarding station, and the boarding station detection means Based on the boarding information, the destination prediction means for determining the station to be the destination of the user from the station indicated by the text information stored in the destination candidate storage means, and the destination prediction means And an information providing means for providing information about the determined station.

  The mobile terminal of the present invention has an effect that information that a user intends to use, for example, an application program can be appropriately provided according to a user's destination with a simple configuration.

  The mobile terminal according to the present invention predicts an appropriate application program at the current or future location (position).

  That is, the mobile terminal according to the present invention predicts an appropriate application program at the current location of the mobile terminal detected by GPS (Global Positioning System) and also predicts the future location by the following method. Then, predict the appropriate application program at the predicted future location.

As a way to predict the future location of mobile devices,
(A) A location prediction method A for predicting a location of a mobile terminal corresponding to a calendar attribute after the current time based on the movement history of the mobile terminal.
(B) a location prediction method B for predicting the location of the mobile terminal that will be headed from the current calendar attribute and location based on the movement history of the mobile terminal;
(C) There is a location prediction method C for predicting the location of a subsequent mobile terminal from a boarding station where a user carrying the mobile terminal has boarded based on a route search history and an email history of the mobile terminal.

  Here, first, an example of a mobile terminal that predicts a future place by the place prediction methods A to C as described above will be described in order, and then the mobile terminal according to the present invention using such a method will be described. Embodiments will be described.

<1. Mobile terminal using location prediction method A>
The mobile terminal using the location prediction method A predicts the future location of the mobile terminal based on the movement history as described above, and further, by communicating with the server device, Receive information related to the location.

  FIG. 1 is a configuration diagram showing an overall configuration of an information providing system including the mobile terminal and the server device.

  The information providing system 10 includes the above-described mobile terminal 11 that is an in-vehicle device of a car navigation system, and a server device 12 that stores information to be provided to the mobile terminal 11.

  Information from the server device 12 is provided to the mobile terminal 11 via the Internet network 14 and the radio base station 13.

  FIG. 2 is a block diagram illustrating a hardware configuration of the mobile terminal 11, and FIG. 3 is a functional block diagram illustrating a functional configuration of the mobile terminal 11.

  As shown in FIG. 2, the mobile terminal 11 has a hardware configuration including a CPU 101, a hard disk 102, a RAM 103, a VRAM 104, a display 105, an input device 106, a calendar clock 107, a GPS receiver 108, and a network IF 109.

  As shown in FIG. 3, the mobile terminal 11 includes a display 105, a GPS receiver 108, a calendar clock 107, a network IF 109, a movement history data storage unit 201, a movement history recording unit 202, an action prediction rule storage unit 203, A functional configuration including an information display control unit 204 and a behavior pattern extraction unit 205 is provided. 2 and 3, the same components are denoted by the same reference numerals.

  In FIG. 2, the CPU 101 is connected to each component of the mobile terminal 11 and controls the operation of the entire mobile terminal 11. The hard disk 102, RAM 103, and VRAM 104 hold data. The input device 106 is buttons and keys for performing various operations of the mobile terminal 11. The display 105, the calendar clock 107, the GPS receiving unit 108, and the network IF 109 will be described later.

  In FIG. 3, the GPS receiver 108 is a GPS receiver or the like, and detects the position of the mobile terminal 11.

  The calendar clock 107 measures and outputs the current calendar attributes (year / month / day, day of the week, and time).

  The movement history recording unit 202 records the movement history of the mobile terminal 11 based on the current position of the mobile terminal 11 output from the GPS reception unit 108 and the current calendar attribute output from the calendar clock 107. Record in the data storage unit 201.

  The behavior pattern extraction unit 205 extracts the behavior pattern of the user of the mobile terminal 11 based on the movement history recorded in the movement history data storage unit 201 and the information acquired from the server device 12 via the network IF 109. The user's behavior prediction rule (movement history arranged in a predetermined format) is created and recorded in the behavior prediction rule storage unit 203.

  The information display control unit 204 has an appropriate timing based on the current position and current calendar attributes output from the GPS receiving unit 108 or the calendar clock 107 and the behavior prediction rules stored in the behavior prediction rule storage unit 203. Information acquired from the server device 12 via the network IF 109 is displayed on the display 105.

FIG. 4 is a functional block diagram illustrating a functional configuration of the server device 12.
As illustrated in FIG. 4, the server device 12 includes a network IF 300, an information transmission control unit 301, a category storage unit 302, and a facility information data storage unit 303.

  In response to a request from the mobile terminal 11, the information transmission control unit 301 transmits data stored in the category storage unit 302 and the facility information data storage unit 303 via the network IF 300.

  The category storage unit 302 stores category data indicating the correspondence between each facility and the category to which the facility belongs.

  FIG. 13 is a diagram showing category data. The category data 302a is data representing the correspondence relationship to which category each facility indicated by the facility identifier belongs. For example, the facility 1 belongs to the category of restaurants, and the facility 4 belongs to the category of bookstores.

  The facility information data storage unit 303 stores facility information data indicating the correspondence between each facility and information related to the facility and facility information data classified by category.

  FIG. 12 is a diagram showing facility information data. In the facility information data 303a, the facility names of the facility 1, facility 2,... Indicated by the facility identifier and the latest information thereof are recorded. For example, the facility 1 is “Boss Burga Keihanna”, and “Croquette Burga 190 Yen New Release ...” is recorded as the latest information.

  FIG. 14 is a diagram showing category-specific facility information data. As shown in FIG. 14, the facility name, position information, and latest information are recorded in the category-specific facility information data 303b for each category such as a restaurant or a tavern.

The operation of the information providing system 10 configured as described above will be described.
FIG. 5 is a flowchart showing the operation of the information providing system 10.

  First, the movement history recording unit 202 records the movement history of the mobile terminal 11 (step S101). Details of the process of recording the movement history will be described with reference to FIGS.

FIG. 6 is a flowchart showing the detailed operation of the process of recording the movement history of the mobile terminal 11.
First, the movement history recording unit 202 records the position and date / time of the mobile terminal 11 in the hard disk HDD of the movement history data storage unit 201 once a second based on outputs from the GPS receiver 108 and the calendar clock 107. (Step S201).

  FIG. 7 is a diagram showing a movement history of the mobile terminal 11. As shown in FIG. 7, the position coordinates of the mobile terminal 11 corresponding to the date and time are recorded at 1 second intervals. For example, at 10:23:34 on Tuesday, February 4, 2003, it is indicated that the mobile terminal 11 is located at the east longitude E1 and the north latitude N1.

  Next, the movement history recording unit 202 refers to the map database (map DB) and identifies to which facility site range the recorded position coordinates of the mobile terminal 11 belong (step S202).

FIG. 8 is a diagram showing a map database.
The map database of FIG. 8 shows a correspondence relationship between facility identifiers for identifying facilities such as the facility 1 and the facility 2 and the site ranges corresponding to the facilities. By using this map database, it is possible to specify which facility a certain position coordinate corresponds to.

  Facility identifiers such as facility 1 and facility 2 indicate facilities such as an AB school and a CD store. For example, in the case of the facility 1, the site range indicates a rectangular range having a left corner coordinate of east longitude e1 and north latitude n1 and 10 m long and 10 m wide.

  For example, if the position coordinates (east longitude E1, north latitude N1) shown in FIG. 7 are within a rectangular range of 15 m long and 10 m long with the left corner coordinate being e3 north latitude n3, the position coordinates correspond to the facility 3.

  In order to indicate this site range, it is only necessary to be able to specify a section, and the reference coordinates (north latitude A, east longitude B) or representative coordinates (north latitude C, east longitude D) as shown in FIG. It may be a shape (square (vertical Ykm, horizontal Xkm), triangle) or the like, or may be indicated by the range of each section (north latitude E to F, east longitude G to H) or a reference coordinate (north latitude A , East longitude B) and a distance (vertical Ykm, horizontal Xkm, or radius Rkm) from the reference coordinate, or a plurality of representative coordinates (north latitude A, east longitude B) are designated, and the representative coordinates are connected by a straight line. It may be indicated by an enclosed area.

  Further, position coordinates may be set in advance based on land information such as each prefecture, municipality, street address, and postal code. Furthermore, it is possible to roughly classify according to the land information, and to perform the above detailed divisions.

  This map database may be held by the movement history recording unit 202 or may be stored in the server device 12.

  Next, based on the movement history recorded in the movement history data storage unit 201, the movement history recording unit 202 has a stay time of 10 minutes or more in one site range (facility specified in step S202). (Step S203), if there is not more than 10 minutes (No in Step S203), return to the recording process of position coordinates again (Step S201), if there is more than 10 minutes, (Yes in step S203), a facility identifier is assigned to the stay date and recorded as a place (stay place) (step S204).

FIG. 9 is an example of a list showing recorded places.
As shown in FIG. 9, the place list 130 records a place where the user stayed for 10 minutes or more in association with the date and time as a place. For example, it is shown that he / she stayed at the facility 2 from 18:00 to 18:20 on Saturday, February 1, 2003.

  After the movement history recording process (step S101 in FIG. 5) as described above, the behavior pattern extraction unit 205 performs the mobile terminal 11's operation based on the place list 130 held in the movement history data storage unit 201. A user's action pattern is extracted and an action prediction rule is created (step S102).

The behavior pattern extraction will be described.
The behavior pattern extraction unit 205 divides the stay date and time at the newly recorded place into, for example, weekday morning, noon, night, and holiday morning, noon, and night, and each place at each divided date and time. Calculate the number of stays for. At this time, weekdays are Monday to Friday, holidays are Saturday and Sunday, morning is from 6 am to noon, noon is from noon to 6 pm, and night is from 6 pm to 6 am the next morning.

FIG. 10 is a diagram for explaining a behavior pattern extraction method.
The behavior pattern extraction unit 205 classifies whether the stay date and time of the facility 2 (saturation date and time, February 1, 2003 (Sat) 18:00 to 18:20) recorded in the place list 130 is a weekday or a holiday. Since the stay date is Saturday, it is classified as a holiday. Next, it is classified whether it is morning, noon, or night. Since the stay date is from 18 o'clock to 18:20, it is divided into night. Thereby, the behavior pattern that the user of the mobile terminal 11 stayed in the facility 2 on the night of a holiday is extracted.

  As described above, the behavior pattern extraction unit 205 extracts a user behavior pattern from a newly recorded place, creates a behavior prediction rule, and records the behavior prediction rule in the behavior prediction rule storage unit 203.

  FIG. 11 is a diagram illustrating an example of a behavior prediction rule. In FIG. 11, the date and time indicate the date and time (holiday night, weekday day, etc.) divided as described above, and the stay location indicates a place. Then, the number of stays and the stay probability of each place for each divided date and time are recorded.

  For example, on the date of a holiday night, the number of stays at the facility 1 is 78 times, the number of stays at the facility 2 is 45 times, and the number of stays at the facility 3 is 13 times from the past movement history. Other facilities are omitted. The stay probability at the facility 1 on a holiday night is 52%, the stay probability at the facility 2 is 30%, and the stay probability at the facility 3 is 8%.

  As described above, the behavior pattern extraction unit 205 extracts the behavior pattern and creates the behavior prediction rule 140 each time a new place is recorded.

  Next, the information display control unit 204 acquires the current date, day, and time (calendar attribute) from the calendar clock 107, and the mobile terminal 11 after a predetermined time (for example, 30 minutes) after the current date and time. The probability that the user will stay in each place is obtained based on the behavior prediction rule 140 stored in the behavior prediction rule storage unit 203 (step S103). In other words, the user's behavior is predicted by checking whether 30 minutes after the current time belongs, such as a holiday night or a weekday daytime, and obtaining the stay probability of each place in the time zone to which it belongs.

  For example, it is assumed that the current date and time is 17:45 on February 15, 2003 (Saturday). Since the date and time after 30 minutes (February 15, 2003 (Sat.) 18:15) belongs to a holiday night, the information display control unit 204 determines from the behavior prediction rule 140 stored in the behavior prediction rule storage unit 203, The stay probability of each place on a holiday night, such as a stay probability of 52% in the facility 1, a stay probability of 30% in the facility 2, and a stay probability of 8% in the facility 3, is obtained.

  Next, the information display control unit 204 determines whether or not there is a place exceeding a predetermined value (for example, 70%) among the obtained stay probabilities for each place (step S104), and there is a place exceeding the predetermined value. If it exists (Yes in step S104), the latest information of the place is acquired from the facility information data storage unit 303 of the server device 12 and displayed on the display 105 (step S107), and the process ends.

  On the other hand, if there is no place exceeding the predetermined value (No in step S104), the information display control unit 204 stores the category data stored in the category data storage unit 302 of the server device 12 for each place where the stay probability is acquired. Based on 302a, the category is replaced (step S105).

  By the replacement process to this category, in the case of the above example, the stay probability at the restaurant of the facility 1 is 52%, the stay probability at the restaurant of the facility 2 is 30%, and the stay probability at the cafe of the facility 3 is 8%. Therefore, the probability of staying at a place belonging to the category of restaurant is 82%, and the probability of staying at a cafe is 8%.

  Next, the information display control unit 204 determines whether there is a category that exceeds a predetermined value (for example, 70%) among the stay probabilities for each category (step S106). No) The process is terminated.

  On the other hand, when there is a category exceeding the predetermined value (Yes in step S106), the information display control unit 204 acquires the current position of the mobile terminal 11 from the GPS receiving unit 108, and the nearest facility information belonging to the category. Is acquired from the facility information data storage unit 303 and displayed on the display 105 (step S108), and the process ends.

  In the above-mentioned example, the stay probability belonging to the category of restaurant is 82%, which exceeds the predetermined value of 70%. For this reason, the information display control unit 204 extracts facilities that can arrive 30 minutes later (19:15) from facilities belonging to the category of restaurants from the user's movement history (see FIG. 9) (for example, the past). In this example, a restaurant staying after 18:00 is extracted), a plurality of candidates are displayed on the display 105, and facilities that have stayed frequently recently are selected and displayed as recommended facilities.

  FIG. 15B is a display example on the display 105. On the display 105, a plurality of facilities belonging to the category of restaurants (Regal Host Keihanna store, Boss Burga Keihanna store, Permayan, Raku Sushi) are displayed as candidates. Furthermore, “Regal Host Keihanna”, which is a facility that has often stayed recently, is indicated by the cursor 191 as a recommended facility. Instead of instructing with the cursor 191, it may be instructed by highlighting “Legal Host Keihanna”. The information of each candidate (such as an omelet set meal, Chinese ankake soba, etc.) shows an outline of detailed information displayed when each candidate is selected.

  The user selects a candidate from the facility candidates displayed on the display 105 by operating the operation unit 190 that is a touch panel, sets the cursor 191 at the desired facility, and selects the facility by operating the determination operation unit 190a in the center. Determine the candidate. For example, when the user selects “Legal Host Keihanna”, detailed information such as the latest information is displayed on the display 105.

  FIG. 15A shows a display example in which detailed information is displayed on the display. As shown in (a) of FIG. 15, the detailed information “Regular host Keihanna store” “Natural Western food fair now being held” is displayed on the display 105. At this time, the traffic information to “Legal Host Keihanna” may be displayed.

  At this time, out of the facilities belonging to the category of restaurants, the facilities that can be reached after 30 minutes are extracted from the past movement history (see FIG. 9), and further the nearby facilities (belonging to the category of restaurants) are extracted from the server device. 12 may be extracted from the category-specific facility information data 303b (see FIG. 14).

  As described above, the mobile terminal 11 using the location prediction method A is located at any position after the user of the mobile terminal 11 has passed a predetermined time based on the current calendar attributes (year, month, day, day of the week, time). Predicting whether you are staying from past travel history. Furthermore, the mobile terminal 11 can acquire the information that the user will need with good timing using the predicted result.

  Further, the mobile terminal 11 not only provides information on a place where the user is likely to stay from the past movement history of the user, but also relates to a place belonging to the same category as the place where the user is likely to stay. Because the information is provided, the user can obtain more information that would be necessary.

  In this mobile terminal 11, when the behavior pattern is extracted, the classification criteria such as weekdays and holidays, morning, noon, and night are fixed in advance, but the classification criteria are changed based on the user's behavior pattern. The behavior pattern may be extracted by a method of changing automatically (clustering method). For example, when a user's action pattern is divided from Sunday to Wednesday and from Thursday to Saturday, the action pattern may be divided from Sunday to Wednesday and from Thursday to Saturday.

  Moreover, you may estimate the staying place after the present from a calendar attribute and the movement history of a position, without determining a facility.

  Moreover, although the action of the user of the mobile terminal 11 after 30 minutes from the current time is predicted, it is not limited to the time of 30 minutes, and may be 10 minutes or 1 hour later.

  Further, the category may be further subdivided into Japanese, Western, Chinese, etc., in the restaurant so as to be able to respond to the user's preference.

  In addition, as a condition for determining a place, it is decided to stay in the same site range for a predetermined time (10 minutes in the above description), but the stay time is a predetermined time and the number of stays is a predetermined number of times or more. It may be determined as a place.

  Further, when the mobile terminal 11 is mounted on a vehicle, the parked place (the place where the engine is stopped) may be recorded as a place, or the place where the parking brake is pulled for a certain period of time may be included. .

  Further, in this mobile terminal 11, the probability that the user stays at each place in each time zone is calculated in advance as the user's behavior prediction rule. Usually, the history of the user staying at each place in each time zone is obtained. It is also possible to store the information and calculate the stay probability of each place when the current time is acquired, and display information based on the stay probability.

  Further, the position coordinate data obtained from the GPS receiving unit 108 described above can be used with accuracy improved by correcting an error by an acceleration sensor or map matching.

  Further, in the mobile terminal 11, the movement history is recorded, the behavior prediction rule is created, and the staying position of the mobile terminal (user) is predicted in parallel. If it is accumulated, only the stay position may be predicted based on the movement history and the behavior prediction rule.

<2. Mobile terminal using location prediction method B>
Next, a mobile terminal using the location prediction method B will be described.

  In the mobile terminal 11 using the place prediction method A, the stay place where the user will stay later is predicted from the movement history of the mobile terminal 11 recorded in advance, and further information on the stay place is obtained. It was displayed. On the other hand, in the mobile terminal using the location prediction method B, similarly, from the movement history of the mobile terminal 11, a place where the user will move in the future is predicted based on the current time and place, and further information on the movement place Is displayed.

  The overall configuration of the information providing system including the mobile terminal using the location prediction method B is the same as that shown in FIG. 1, and the hardware configuration and functional configuration of the mobile terminal (mobile terminal) are the same as those shown in FIGS. Therefore, the description thereof is omitted. The server device is the same as that shown in FIG.

  The mobile terminal 11 using the location prediction method A is an in-vehicle device of a car navigation system, while the mobile terminal using the location prediction method B is a mobile phone with GPS.

  Here, the operation of the information providing system including the mobile terminal using the place prediction method B will be described.

FIG. 16 is a flowchart showing the operation of the information providing system described above.
First, the movement history recording unit 202 records the movement history of the mobile terminal 11 (step S301). The process of recording the movement history is almost the same as the process described in the mobile terminal of the place prediction method A described above (see FIG. 6). The difference is that in the mobile terminal of the place prediction method A, when the stay time in one site range is 10 minutes or more, an identifier is assigned to the date and time and recorded as a place (step of FIG. 6). In contrast to S204), the mobile terminal of the location prediction method B further records the interval between places as a path (stay location section).

FIG. 17 is a schematic diagram showing an example of the movement history of the user of the mobile terminal.
FIG. 17 shows a pattern in which a user who leaves the company stays at the bookstore “Bookborn” and heads to the station, and a user who leaves the company stays at the bookstore “Bookbone” and then stays at the pub “Ushimin”. The past three patterns of the user's movement history are the pattern that went to the station and the pattern that the user who left the company stayed in the bookstore “Bookbone” and then stayed in the pub “Kurokiya” and headed to the station. It is shown. At this time, it is assumed that the bookstore “Bookbone” is located near the company, and the user always stops by the bookstore on the way home from the company.

FIG. 18 is an example of a list showing recorded places and paths.
As shown in FIG. 18, in the place path list 230, a place where the user stays for 10 minutes or more is recorded as a place in correspondence with the date and time, and a place is recorded as a path.

  For example, the facility A0 (company) where the user stayed from 9:00 to 18:00 on February 7, 2003 (Friday) is recorded as a place, and from 18:10 on February 7, 2003 (Friday) to 18 The facility 4 (bookbone) where the user stayed at 30 minutes is recorded as a place. Further, a path between the facility A0 and the facility 4 recorded as places (facility A0 → facility 4) is recorded as a pass.

  As described above, the movement history recording process (step S301) is performed. Next, the behavior pattern extraction unit 205 determines the mobile terminal 11 based on the place path list 230 stored in the movement history data storage unit 201. A user's behavior pattern is extracted and a behavior prediction rule is created (step S302).

A behavior pattern extraction method will be described.
FIG. 19 is a diagram illustrating a behavior pattern extraction method.

  For example, as shown in FIG. 18, after passing the path of facility A0 (company) → facility 4 (bookbone) (Friday, February 7, 2003 from 18:00 to 18:10), facility A1 ( Take the case of staying at (Ushimin) (Friday, February 7, 2003 from 18:45 to 21:00).

  As shown in FIG. 19, the behavior pattern extraction unit 205 performs the morning (6:00 am to noon) and noon on Monday through Thursday, Friday, and holidays (Saturday, Sunday), respectively, when the company → bookbone path has passed. Which of the nine time zones (calendar attributes) from (noon to 6:00 pm) and night (from 6:00 pm to 6:00 am the next morning) is specified.

  The time zone in which the company → bookbone path has passed is from 18 o'clock to 18:10 on Friday, February 7, 2003, and is divided into Friday night.

  In this way, if the user is on the company → bookbone path during the Friday night time zone, the behavior pattern of visiting “Ishimin” at the pub later is extracted.

  As described above, the behavior pattern extraction unit 205 extracts a behavior pattern from the user's movement history as needed, and the number of places (places) visited thereafter for each date and place (place or path) where the user existed. The behavior prediction rule is created by counting and recorded in the behavior prediction rule storage unit 203.

  FIG. 20 is a diagram illustrating an example of a behavior prediction rule. In FIG. 20, in the behavior prediction rule 240, the user's stay date and time (date and time separated like Friday night) and the stay location (place or pass) indicated by the date and place are moved by the user after that. , The number of movements, and the movement probability are shown.

  For example, if there is a user in the path from facility A0 (company) to facility 4 (bookbone) on Friday night, the number of times the user subsequently moves to facility A1 (Izakaya cattleman) is the past 45 times. The probability is shown to be 60%. Similarly, the number of times that the user subsequently moves to the facility A2 (Kuroki-ya) is 15 times in the past, and the probability of moving to the facility A2 is 20%. Others are the same.

  Next, the information display control unit 204 acquires the current calendar attribute (year / month / day, day of the week, time) and the current position from the calendar clock 107 and the GPS receiving unit 108, and the behavior prediction rule created as described above. Based on 240, the movement probability that the user subsequently moves to each place is obtained (step S303 in FIG. 16).

  For example, as shown in FIG. 17, it is assumed that the current date and time is 18:00 on February 21, 2003 (Friday), and the current position of the user having the mobile terminal 11 is the path of company → bookbone. To do. Since the current date / time belongs to Friday night and the current location belongs to the company → bookbone path, the date / time indicated in the behavior prediction rule 240 (see FIG. 20): Friday night, location: facility A0 (company) → facility The movement probability to each place in 4 (bookbone) is obtained. In this case, to each facility such as 60% movement probability to facility A1 (Izakaya cattleman), 20% movement probability to facility A2 (Ibaraki Kurokiya), 4% movement probability to facility A3 (Pachinko King) The movement probability is obtained.

  Next, the information display control unit 204 determines whether or not there is a place that exceeds a predetermined value (for example, 70%) among the calculated movement probabilities to each place (step S304), and places that exceed the predetermined value. Is present (Yes in step S304), the latest information of the place is acquired from the facility information data storage unit 303 of the server device 12 and displayed on the display 105 (step S307), and the process ends. This display is the same as that of the mobile terminal 11 of the location prediction method A, and data is acquired from the facility information data 303a (see FIG. 12) stored in the facility information data storage unit 303 and displayed.

  On the other hand, when there is no place exceeding the predetermined value (No in step S304), each place where the movement probability is acquired is classified into categories based on the category data 302a stored in the category data storage unit 302 of the server device 12. Replace (step S305).

The replacement processing to this category is the same as that of the mobile terminal 11 of the location prediction method A.
For example, the probability that the moving place is the facility A1 (cattle) is 60%, the probability that the moving place is the facility A2 (Kurokiya) is 20%, and the probability that the moving place is the facility A3 (pachinko king) is 4%. Explaining in the example, the facility A1 (cattle) is replaced with the category izakaya based on the category data 302a shown in FIG. 13, and the facility A2 (Kurokiya) is also replaced with the category izakaya. Further, although the facility A3 (pachinko king) is not shown in FIG. 13, it is replaced with, for example, a category of playground. By the replacement process to this category, the probability of moving to a place belonging to the category “Izakaya” is 80%.

  Next, the information display control unit 204 determines whether or not there is a category that exceeds a predetermined value (for example, 70%) among the movement probabilities for each category (step S306). No) of S306 is finished.

  On the other hand, when there is a category exceeding the predetermined value (Yes in step S306), the information display control unit 204 acquires the current position of the mobile terminal 11 (user) from the GPS receiving unit 108 and belongs to the category. Facility information close to the current position is acquired from the facility information data storage unit 303 and displayed on the display 105 (step S308), and the process ends.

  In the above example, the probability of moving to a place belonging to the category of izakaya is 80%, which exceeds the predetermined value of 70%. For this reason, the information display control unit 204 selects the facility closest to the current position from the category-specific facility information data 303b (see FIG. 14) based on the position information of the mobile terminal 11 among those belonging to the category izakaya. By searching, for example, the facility A1 (cattle) is specified, and the latest information is displayed on the display 105.

  FIG. 21 shows a display example displayed on the display 105 of the mobile terminal 11. As shown in FIG. 21, the detailed information of the cows “beer 100 yen until 19:00....” Is displayed on the display 105.

  In this case, if registered in the category-specific facility information data 303b in advance, information on izakayas that the user has not yet performed may be displayed.

  As described above, according to the mobile terminal 11 using the location prediction method B, the user of the mobile terminal 11 can determine whether the user of the mobile terminal 11 is based on the current calendar attribute (year / month / day, day of the week, time) and the current place or path. It is possible to predict from the past movement history which position the user has moved to after a predetermined time has elapsed, and use the predicted result to acquire information that the user will need in a timely manner.

  Furthermore, the mobile terminal 11 acquires not only information on a place having a high probability of moving from the user's past movement history but also information on a place belonging to the same category as the place where the user has a high probability of moving. Therefore, the user can obtain more information that would be necessary.

  In addition, when the mobile terminal 11 of the above-described location prediction method B performs behavior pattern extraction, classification criteria such as weekdays and holidays, and morning, noon, and night are fixed in advance. Based on this, the behavior pattern may be extracted by a method of dynamically changing the classification criterion (clustering method).

  Furthermore, the mobile terminal 11 of the location prediction method B calculates the probability that the user of the mobile terminal 11 moves to each place in each time zone in advance, and sets the user's behavior prediction rule. The movement history of the user of the mobile terminal 11 is accumulated, and when the current time and the current position of the mobile terminal 11 are acquired, the movement probability to each place is calculated, and information based on the movement probability is stored. Display may be performed.

Further, the information may be notified by voice.
In addition, the method for specifying the position of the mobile terminal 11 is not limited to the method using the GPS, but the position detection using the base station (i-area (registered trademark of “NTT DoCoMo, Inc.”)) Other methods such as position detection using an electronic reference point may be used.

<3. Mobile terminal using location prediction method C>
In recent years, mobile phones, which are mobile terminals, can search not only a voice call function but also a mail communication function, facility search using the Internet, time taken to a desired station, and the like. Therefore, a mobile terminal using the location prediction method C uses a place name (station name, a phrase expressing a place) used in text communication contents by a mobile phone (mobile terminal), etc. Predict the future location of the device).

Hereinafter, a mobile terminal using the location prediction method C will be described as a mobile phone.
FIG. 22 is a configuration diagram illustrating a configuration of a system including a mobile phone.

  This system is a wireless IC card that has a communication function using the above-described mobile phone 1201 that can perform a voice call or a search by a network and a local wireless (RF (Radio Frequency) tag or the like) and is mounted on or built in the mobile phone. 1202, a public network 1203 such as the Internet, a server 1204 that searches and distributes information, and an automatic ticket gate 1205 that communicates with the wireless IC card 1202 and records boarding station and route information on the wireless IC card 1202. Prepare. Note that the wireless IC card 1202 may be built in a mobile phone or may be inserted into an expansion card slot of the mobile phone.

FIG. 23 is a configuration diagram showing an internal configuration of the mobile phone 1201.
The cellular phone 1201 detects a traffic search unit 1101 that searches for traffic information (route) by communicating with the information server 1204, a destination candidate storage unit 1102 that stores the search result of the traffic search unit 1101, and a boarding station And a destination prediction unit 1104 that predicts a destination from candidates stored in the destination candidate storage unit 1102 based on information on the boarding station detected by the boarding station detection unit 1103. An information providing unit 1105 that provides the user with information related to the destination predicted by the destination prediction unit 1104.

The operation of the mobile phone 1201 will be described with reference to FIG.
FIG. 24 is a flowchart showing the operation of the mobile phone 1201.

  The traffic search unit 1101 of the mobile phone 1201 determines whether or not a route such as a railroad has been searched by an operation from the user (step S1301). When the route search is performed (Yes in step S1301), the traffic search unit 1101 stores the search result in the destination candidate accumulation unit 1102 (step S1302).

  FIG. 25 is a screen display diagram illustrating an example of a screen displayed when the traffic search unit 1101 performs a route search.

  As shown in FIG. 25A, when the user operates the mobile phone 1201, information regarding the departure station, arrival station, and the date and time when the route is used is input to the traffic search unit 1101. When the route search button is selected after the input, as shown in FIG. 25B, the traffic search unit 1101 displays the route search result according to the input content.

  Then, the traffic search unit 1101 stores the contents input as described above and the route search result in the destination candidate storage unit 1102 as a route search history.

FIG. 26 is a diagram showing the contents of the route search history accumulated by the destination candidate accumulation unit 1102.
Since the destination candidate accumulation unit 1102 has a limited storage capacity, when the route search history is acquired from the traffic search unit 1101, the route search history stored in advance is deleted in order from the oldest, and the newly acquired route search Accumulate history.

  When such accumulation is completed, the cellular phone 1201 repeats the operation from step S1301 again.

  Here, when the traffic search unit 1101 has not performed a route search (No in step S1301), the boarding station detection unit 1103 determines whether or not the vehicle has passed the automatic ticket gate 1204 of the boarding station (step S1303). ).

  Specifically, when the mobile phone 1201 approaches the automatic ticket gate 1205, the wireless IC card 1202 performs local communication with the automatic ticket gate 1205. The boarding station detection unit 1101 determines whether or not it has passed through the automatic ticket gate 1204 based on local communication performed by the wireless IC card 1202.

  When it is determined that the boarding station detection unit 1101 does not pass through the automatic ticket gate 1204 (No in step S1303), the mobile phone 1201 repeats the operation from step S1301.

  In addition, when it is determined that the boarding station detection unit 1101 has passed the automatic ticket gate 1204 (Yes in step S1303), the boarding station detection unit 1101 further determines that the railway company (route line) is based on local communication using the wireless IC card 1202. ) And the boarding station are detected (step S1304). Note that the wireless IC card 1202 stores the railway company and boarding station specified by the local communication, and the automatic ticket checker at the getting-off station is charged based on the stored railway company and boarding station.

  Next, when the boarding station detection unit 1101 detects, for example, the boarding station “Gakuenmae” and the route “K Railway” in step S1304, the destination prediction unit 1104 stores the route search history stored in the destination candidate storage unit 1102. The boarding station and route are searched from the inside (step S1305). If the destination prediction unit 1104 finds the boarding station and route, the destination prediction unit 1104 selects the arrival station associated with the boarding station and route as a destination candidate.

  For example, the destination prediction unit 1104 searches for “Gakuenmae” and “K Railway” from the route search history shown in FIG. 26, and arrives at the arrival station “Tsuruhashi” and the arrival station “Saidaiji” from the route search history 1501 and 1502. Is selected as a destination candidate.

  Here, the movement destination prediction unit 1104 determines whether there are a plurality of movement destination candidates (step S1306).

  When it is determined that there are a plurality of candidates (Yes in step S1306), the destination prediction unit 1104 causes the information providing unit 1105 to display the candidates in order from the candidate whose departure time indicated in the route search history is close to the current time ( Step S1307).

  For example, when the current time is 9:00, the destination prediction unit 1104 selects the arrival station “Tsuruhashi” and the arrival station “Nishidaiji” as the destination candidates from the route search history 1501 and 1502 as described above. Since the departure time 10:00 shown in the route search history 1501 is closer to the current time than the departure time 11:00 shown in the route search history 1502, information on destination candidates in the order of “Tsuruhashi” and “Saidaiji” The information is displayed on the providing unit 1105. It should be noted that destination candidates may be displayed in the order from the latest search date. Thereby, for example, the arrival station when searching immediately before boarding can be preferentially displayed.

  In addition, when displaying the destination candidate, the destination prediction unit 1104 calculates the estimated arrival time until the destination candidate is reached based on the required time and the current time indicated in the route search history. The calculation result is also displayed on the information providing unit 1105.

  FIG. 27 is a screen display diagram showing a screen on which the information providing unit 1105 displays destination candidates and estimated arrival times.

  As shown in FIG. 27, the information providing unit 1105 displays “Tsuruhashi” and “Saidaiji” as destination candidates, and also predicts arrival time “10:50” until arrival at “Tsuruhashi”, “ The estimated arrival time “10:10” until arrival at “Saidaiji” is displayed.

  When there is only one candidate in step S1306 (No in step S1306), the destination prediction unit 1104 displays the candidate and the predicted arrival time calculated as described above for the candidate as an information providing unit. It is displayed on 1105 (step S1308).

  As a result, the mobile phone 1201 automatically predicts the destination by simply passing through the station based on the result of the route search performed on the Internet or the like in the past, and automatically provides information such as the estimated arrival time to the user. be able to. The conventional mobile terminal has a positioning function such as GPS for predicting the destination, and thus has a problem that the configuration of the mobile terminal is complicated and expensive. However, this mobile phone 1201 can easily predict the destination by using the route search result without positioning its own position with GPS or the like. Further, since the mobile phone 1201 predicts the destination based on the route search history instead of the movement history, it can also be predicted as a destination even in places that have not existed before.

  Note that the mobile phone 1201 may perform a new route search by connecting to the information server 1204 after detecting the route and boarding station. Accordingly, the mobile phone 1201 can display the estimated arrival time based on the latest information stored in the information server 1204.

  In addition, although such a mobile phone 1201 provided the estimated arrival time, it may further provide commercial information related to the arrival station. For example, the mobile phone 1201 communicates with the information server 1204 at the stage where it can be predicted that the mobile phone 1201 is heading to the “Tsuruhashi” station, and provides information such as a sale on sale in front of the “Tsuruhashi” station. Good. These pieces of information are registered in advance in the information server 1204 by the information provider.

  Note that such a cellular phone 1201 does not include a component for detecting the current position by the GPS function, but may include such a component. In this case, the mobile phone 1201 can detect its own moving direction after passing through the automatic ticket gate 1205 and can predict the destination.

  FIG. 28 is a diagram for explaining a method in which the mobile phone 1201 predicts a destination which is a future location using GPS.

  For example, as described above, when the mobile phone 1201 passes through the automatic ticket gate 1205 at “Gakuenmae” station, and “Tsuruhashi” and “Saidaiji” are listed as destination candidates, the mobile phone 1201 Furthermore, by using the GPS, it is possible to detect its own moving direction (the moving direction of the train on which the user gets on) and predict that the moving destination is “Tsuruhashi” from the detected moving direction.

  In addition, in step S1307, the cellular phone 1201 preferentially displays candidates whose departure time indicated in the route search history is close to the current time. However, in addition to this, the candidate whose search date is close to the current date is preferentially displayed. It may be displayed. Further, the cellular phone 1201 may treat the range from the departure time shown in the route search history to one hour later as the effective range of the history, and display with priority the candidates whose current time is in the effective range. . For example, it is assumed that the current time is 9:00 and the route search history includes departure times of 8:30 and 9:15. At this time, the effective range of the departure time 8:30 is from 8:30 to 9:30, and the effective range of the departure time 9:15 is 9:15 to 10:15. Since the current time is included in the valid range of the departure time 8:30, the mobile phone 1201 preferentially displays the arrival station whose departure time is 8:30 as the destination.

Here, a modified example of the above-described mobile phone 1201 will be described.
The mobile phone 1201 described above has accumulated the route search history, but the mobile phone according to the present modification predicts the destination using a communication history such as an email operated by the user.

FIG. 29 is a configuration diagram showing an internal configuration of a mobile phone according to the present modification.
The mobile phone 1201a includes a mail communication unit 1801 that transmits and receives mail, a station name storage unit 1802 that stores station names and the like, a destination candidate selection unit 1803 that extracts a station name from mail communication text, A destination candidate accumulation unit 1804 that accumulates candidates selected by the destination candidate selection unit 1803, a boarding station detection unit 1805 that detects a boarding station, a boarding station and a destination candidate accumulation unit that are detected by the boarding station detection unit 1805 A destination prediction unit 1806 that predicts a destination from the candidates accumulated in 1804, and an information provision unit 1807 that provides information on the destination predicted by the destination prediction unit 1806 are provided.

  Here, the operation of the mobile phone 1201a according to this modification will be described with reference to FIG.

FIG. 30 is a flowchart showing the operation of the mobile phone 1201a according to this modification.
First, the mail communication unit 1801 of the mobile phone 1201 determines whether or not a mail has been received (step S1901). When it is determined that the mail communication unit 1801 has received (Yes in step S1091), the destination candidate selection unit 1803 of the mobile phone 1201 refers to the contents (station name list) stored in the station name storage unit 1802. Then, it is determined whether or not the station name is included in the text of the received mail (step S1902). If the station name is included (Yes in step S1902), the destination candidate selection unit 1803 identifies the route corresponding to the station name included in the text based on the station name list, and The station name and route are registered in the destination candidate accumulation unit 1804 (step S1903). When the station name is not included (No in step S1902) or when registration in the destination candidate accumulation unit 1804 is completed, the mobile phone 1201 repeatedly executes the operation from step S1901.

  FIG. 31 is a diagram showing the contents of the station name list accumulated in the station name accumulation unit 1802.

  As shown in FIG. 31, the station names “Tsuruhashi” and “Higashi Osaka” are registered in the station name list for each route.

FIG. 32 is a diagram showing the contents of the mail received by the mail communication unit 1801.
As illustrated in FIG. 32, the destination candidate selection unit 1803 refers to the station name list illustrated in FIG. 31, searches for a station name from the character string included in the text of the received mail, and finds the station name “Namba”. Then, referring to the station name list again, the routes “K railway” and “N railway” corresponding to the station name “Namba” are specified. Then, the destination candidate selection unit 1803 displays the station name “Namba”, the routes “K railroad” and “N railroad”, the reception time when the mail is received, the reception partner, and the registration time. 1804 is registered.

  FIG. 33 is a diagram showing the contents (mail communication history) accumulated in the destination candidate accumulation unit 1804.

  As shown in FIG. 33, the mail communication history accumulated in the destination candidate accumulation unit 1804 includes a station name, route, registration time, reception time, and reception partner.

  When it is determined in step S1901 that the mail communication unit 1801 has not received a mail (No in step S1901), the boarding station detection unit 1805 uses the automatic ticket gate 1204 of the boarding station in the same manner as the boarding station detection unit 1103 described above. It is determined whether or not it has passed (step S1904).

  When it is determined that the boarding station detection unit 1805 has not passed through the automatic ticket gate 1204 (No in step S1904), the mobile phone 1201 repeats the operation from step S1901.

  In addition, when it is determined that the boarding station detection unit 1805 has passed the automatic ticket gate 1204 (Yes in step S1904), the boarding station detection unit 1805 further determines the railway company (route ) Is detected (step S1905).

  Next, when the boarding station detection unit 1805 detects, for example, the route “K railway” in step S1905, the travel destination prediction unit 1806 searches for the route from the mail communication history accumulated in the travel destination candidate storage unit 1804. (Step S1906). If the destination prediction unit 1806 finds the route, the destination prediction unit 1806 selects a station having a station name associated with the route as a destination candidate.

  Here, the movement destination prediction unit 1806 determines whether there are a plurality of movement destination candidates (step S1907).

  When it is determined that there are a plurality of candidates (Yes in step S1907), the movement destination prediction unit 1104 starts with the candidates whose reception times indicated in the mail communication history are closest to the current time, and the predicted arrival times at which the candidates arrive. Is displayed on the information providing unit 1105 (step S1908).

  If there is only one candidate in step S1907, the movement destination prediction unit 1104 displays the candidate and the predicted arrival time of the candidate on the information providing unit 1105 (step S1908).

FIG. 34 is a diagram illustrating an example of a screen on which the mobile phone 1201 displays a prediction result.
For example, when the detected route is “K railway”, the mobile phone 1201 displays “Namba” and “Higashi Osaka” as destination candidates by referring to the mail communication history shown in FIG. In addition, the estimated arrival time until arrival at those stations is provided to the user. The mobile phone 1201 does not select “in front of school” as the destination candidate because the boarding station is “in front of school”.

  As described above, the mobile phone 1201 according to the present modification can provide the user with information related to the arrival station by predicting the arrival station just by passing the train ticket gate by using the mail communication history. . That is, the mobile phone 1201 according to this modification can easily predict the destination without positioning its own position with GPS or the like, as described above, and can be used as a destination even in places where it has not existed so far. Can be predicted. In general, since communication such as waiting is often confirmed by e-mail or the like, the mobile phone 1201 can predict an appropriate destination.

  Such a mobile phone 1201 uses the route search history and the mail communication history to predict the arrival station, that is, the location of the mobile phone 1201 that will be headed in the future. A history of facility search results may be used. For example, when a user who normally searches for a restaurant or an accommodation facility in Namba gets on a train of “K Railway”, the mobile phone 1201 determines that there is a high possibility of going to “Namba”. Information about Namba station is provided to the user in advance. Accordingly, the mobile phone 1201 can automatically provide the user with necessary information in the future using the past information access history without setting the route search and the search condition. .

(Embodiment 1)
Hereinafter, a first embodiment according to the present invention using the place prediction method as described above will be described with reference to the drawings.

  The mobile terminal according to the present embodiment stores in advance a use history of an application such as an email used by the user of the mobile terminal, and the user will use it based on the current date and place. Predict the application. Further, the mobile terminal predicts an application that the user will use in the future location predicted by the location prediction method as described above.

FIG. 35 is a functional block diagram showing a functional configuration of the mobile terminal according to the present embodiment.
A mobile terminal (hereinafter referred to as a mobile phone) 21 according to the present embodiment includes a display 105, a GPS receiver 108, a calendar clock 107, a movement history data storage unit 201, a movement history recording unit 202, an action prediction rule storage unit 203, An information display control unit 204, a behavior pattern extraction unit 205, an input device 106, a usage history recording unit 110, a usage history storage unit 111, and a future location prediction unit 206 are provided. Of the above-described components included in the mobile phone 21 of the present embodiment, those having the same functions and configurations as those included in the mobile terminal 11 shown in FIG. The same reference numerals as those used in the eleventh component are attached and detailed description thereof is omitted.

  The future location prediction unit 206 includes components included in the mobile terminal 11 that uses the above-described location prediction method A or B and components included in the mobile phone 121 that uses the location prediction method C, and predicts future locations. Then, the result is notified to the information display control unit 204. Further, when predicting a future location by the location prediction method A or B, the future location prediction unit 206 further predicts the date and time (calendar attribute) arriving at the location based on the movement history so far. The result is also notified to the information display control unit 204. Further, when predicting a future location by the location prediction method C, the future location prediction unit 206 further predicts the date and time (calendar attribute) arriving at the location based on the history of the route search result and the result. Is also notified to the information display control unit 204.

  Instead of providing the mobile terminal 21 with the future location prediction unit 206, the same operation as that of the future location prediction unit 206 may be performed by components other than the future location prediction unit 206 of the mobile terminal 21. .

  The input device 106 is an input operation button that receives an input operation to the mobile phone 21.

  The usage history recording unit 110 receives the output from the input device 106 and records the usage history of an application such as an email in the usage history storage unit 111. Here, the usage history recording unit 110 grasps the current calendar attribute by acquiring the output from the calendar clock 107 or having the same function as the calendar clock 107. As a result, the application used and its contents, and the use date and time are associated with this use history.

  The behavior pattern extraction unit 205 creates an application usage history by the user of the mobile phone 21 in association with the usage date and usage location.

  At this time, the behavior pattern extraction unit 205 uses the application history from the movement history recorded in the movement history data storage unit 201 by the movement history recording unit 202 and the usage history recorded by the usage history recording unit 110 in the usage history storage unit 111. Create a history. In this application usage history, the application used as described above and the contents thereof are associated with the usage date and time and the usage location (path or place). The place and path determination method is the same as that of the mobile terminal 11.

FIG. 36 shows the contents of the application usage history.
As shown in FIG. 36, the application usage history includes the used application and its contents (when the application is an email, a transmission address, a title, and a transmission message), and the use date and place of the application (use location). Place or path).

  That is, in the application usage history, an operation input sequence input by a user operation such as an operation for selecting mail as an application, an operation for selecting a transmission partner, or an operation for inputting transmission content is recorded.

  For example, at 20:00 on February 7, 2003 (Friday), between the company and the station (pass), the user sent the family with the transmission address “kazoku@xyz.ne.jp” and the title “Return from now” "The sent message shows that we used the e-mail" I just left the company. Please prepare rice. "

  Based on the application usage history, the behavior pattern extraction unit 205 extracts a usage pattern of the user's application, creates a usage prediction rule (application usage history arranged in a predetermined format), and stores the behavior prediction rule. Recorded in the unit 203.

FIG. 37 is a diagram illustrating an application usage pattern extraction method.
In this extraction method, the date and time when the application was used are weekdays (Monday to Friday), holidays (Saturday and Sunday) morning (6am to noon), noon (noon to 6pm), and night (6pm to next morning) 6 am).

  For example, as illustrated in FIG. 36, based on the history indicating that the user sent an email to the family between the company and the station (pass) at 20:00 on February 7, 2003 (Friday). A case where a usage pattern is extracted will be described.

  First of all, it is classified whether the company sent an email to the family by the station pass on weekdays or holidays. Here, it is a weekday because it is Friday. Next, it is classified whether the mail is transmitted in the morning, noon or night. Here, it is 20:00 because it is 20:00. In this way, a usage pattern in which an email is sent to the family by a station pass from the company on weekday nights is extracted.

  The behavior pattern extraction unit 205 creates a usage prediction rule for the user's application by taking the accumulated usage patterns thus extracted.

FIG. 38 is a diagram illustrating an application usage prediction rule 320.
FIG. 38 shows a use application, a use item, a use frequency, and a use content for each use date and place.

  The use date / time is one of a weekday, a holiday morning, noon, and night divided as described above, and the use place is a place or a path determined as described above.

  Applications used indicate applications used by users, such as e-mails and games. Usage items are shown in order from the most frequently sent party in the e-mail, and the game software used in the game is used frequently. It is shown in order from the most.

  The usage count indicates the transmission count for each transmission partner when the application is mail, and indicates the usage count for each game software used when the application is a game.

  In the case of e-mail, the usage content indicates the transmission content (the latest title and the latest transmission message), and in the case of a game, the usage information is shown up to the previous time.

  For example, when the date is a weekday night, and the location is a company-to-station pass, the user has sent the most emails in the past 75 times for the wife and the friend Yamada 38 times the second most frequently. . In addition, game software used by the user on weekday nights from the company to the station is the game software A is the most in 12 times, and the game software B is the next most in 3 times.

The usage prediction rule is created as described above.
The information display control unit 204 finds an application corresponding to the current position detection result by the GPS receiving unit 108 and the current calendar attribute measured by the calendar clock 107 from the use prediction rule 320, and uses the found application as a prediction result. Present. That is, the information display control unit 204 predicts an application corresponding to the current location and date and presents the application. For example, when the current location is a “company → station” path and the current date and time belongs to a weekday night, the information display control unit 204 uses the path and calendar attributes indicated in the usage history rule 320 as an application. Find the most frequently used email and present it.

  Further, the information display control unit 204 finds an application according to the place and calendar attribute predicted by the future place prediction unit 206 from the use prediction rule 320, and presents the found application as a prediction result. That is, the information display control unit 204 predicts an application corresponding to a future place and date and starts the application.

  In addition, the information display control unit 204 may preferentially present applications in descending order of the number of uses, and may further predict a transmission partner when a mail is selected by the user.

  FIG. 39 is a flowchart showing application operation processing performed by the information display control unit 204.

  Here, for example, as shown in FIG. 40, a case where the user 22 of the mobile phone 21 is heading for the nearest station from the company on Friday night will be described as an example. In the example shown in FIG. 40, the current date and time (Friday night) belongs to weekday night, and the current location of the mobile phone belongs to the company → station path.

  The information display control unit 204 first acquires the current date and time and the current position of the mobile phone 21 from the calendar clock 107 and the GPS receiving unit 108 (step S500). Next, the usage probability of each application at the relevant date and time and position is obtained based on the usage prediction rule 320 and displayed on the display 105 in order of the highest usage probability, and a message prompting selection of the application to be used is displayed (step S501). ).

  FIG. 41A shows a message display example. Applications with the highest usage probability are displayed in the order of email and game. A mail or a game is selected by operating the cursor shown on the right of the mail.

  Next, it is determined whether or not the user has pressed the mail button based on the output from the input device 106 (step S502). If the mail button has not been pressed (No in step S502), operation processing of other applications (Step S515), and the process ends.

  On the other hand, if the mail button is pressed (Yes in step S502), a message asking whether to use the past history is displayed (step S503).

FIG. 41B shows a display example of a message asking whether to use a past history.
Then, it is determined whether or not the use of the past history has been selected by the user (step S504). If not selected (No in step S504), the normal mail input mode is set (step S520), and the process is terminated. On the other hand, when the use of the past history is selected (Yes in step S504), the other party who sends the mail based on the current position and current date and time of the mobile phone 21 and the use prediction rule 320 (see FIG. 38). And the candidate is displayed on the display 105 (step S505).

  For example, the probability is obtained based on the use prediction rule 320 shown in FIG. On weekday nights, if the number of past emails sent on the company-to-station pass is 100, the probability of emails addressed to his wife (75 times of usage) is 75%, and emails to his friend Yamada (15 usages) Probability) is 15%. On the display 105, the name of Mr. Yamada, a wife who has a probability of 15% or more, is displayed as a candidate for the transmission partner.

  FIG. 41C shows a state in which a message for prompting selection of a mail transmission partner and candidates for the transmission partner are displayed. Mr. Yamada's name is displayed in order of the probability of sending in the past from the top.

  After displaying the transmission partner candidates on the display 105 as described above, the information display control unit 204 determines whether or not the transmission partner is selected from the candidates (step S506). If it is determined that the transmission partner has been selected (Yes in step S506), the latest message (title and transmission message) transmitted in the past to the selected partner is displayed on the display 105 (step S507).

  FIG. 41D shows a display example of messages transmitted in the past. As shown in (d) of FIG. 41, the display partner 105 displays the transmission partner “wife” and the title “return from now” and the transmission message “I have just left the company. Please prepare rice.” Is done. The user can edit the displayed message.

  The information display control unit 204 accepts input (editing) of a message (step S508), and determines whether or not a mail transmission button has been pressed (step S509). Then, input of a message is accepted until the send button is pressed, and if it is determined that the send button has been pressed (Yes in step S509), an email is sent (step S510).

  As described above, in this embodiment, the application corresponding to the current or future location of the mobile terminal 21 and the calendar attribute is specified from the usage prediction rule and presented as a prediction result, and thus the user uses the location or date / time. Appropriate applications can be presented.

  In the present embodiment, the application usage history is created in association with the calendar attribute and the location of the mobile terminal, the current calendar attribute and the current location of the mobile terminal are acquired, and the user application is based on them. The usage probability of the user or the probability that the input operation will be performed is recorded, but the application usage history is recorded only in correspondence with the calendar attribute, and based on the acquired current calendar attribute only, the user application usage probability, or You may make it obtain | require the probability that input operation will be performed. For example, regardless of location, family members can be displayed as candidates for mail transmission at noon, and friends can be displayed as mail transmission partners at night.

  In this embodiment, the application usage probability and the input operation probability are obtained according to the calendar attribute and the situation such as the location. If this is applied to the mobile phone directory, the time zone, day of the week, etc. The phone numbers can be displayed in order of the party with the highest probability of making a call according to the situation such as the location.

  Further, the conversion method from hiragana to kanji may be changed according to the situation such as time zone, day of the week, and place.

(Embodiment 2)
Hereinafter, a mobile terminal according to a second embodiment of the present invention will be described with reference to the drawings.

  The mobile terminal according to the first embodiment predicts and presents an application to be used by the user from the current or future situation based on the usage prediction rule 320. If the application is a mail, the destination of the mail is also set. Predicted.

  On the other hand, in this embodiment, not only the mail destination but also other content parameters are predicted. Here, the content parameter includes a destination, a transmission message, and an arrival time when the application is mail. If the application is a television that displays video or a music player that plays music, the content parameters are program (song), volume, playback mode, etc. If the application is a game, content The parameter is data necessary for the game.

Here, content parameter control by e-mail will be mainly described.
FIG. 42 is a functional block diagram showing a functional configuration of the mobile terminal in the present embodiment.

  The mobile terminal 32 of the present embodiment includes a display 105, a GPS receiver 108, a calendar clock 107, a situation detector 403, a movement history data storage unit 201a, a movement history recording unit 202a, an action prediction rule storage unit 203a, an information display. A control unit 204a, an action pattern extraction unit 205a, an input device 106, a usage history recording unit 110a, a usage history storage unit 111a, and a content parameter control unit 402 are provided. Of the above-described components included in the mobile terminal 32 of the present embodiment, the same functions and configurations as those included in the mobile terminal 11 shown in FIG. 3 or the mobile terminal 21 shown in FIG. Those having the same reference numerals are assigned to the components of the mobile terminals 11 and 21, and detailed description thereof is omitted.

  The situation detection unit 403 detects the weather situation around the mobile terminal 32. For example, the status detection unit 403 includes a temperature sensor, a humidity sensor, and the like, and detects the temperature and humidity around the mobile terminal 32 and detects the weather from the detected humidity. In addition, when the mobile terminal 32 is mounted on an automobile, the situation detection unit 403 detects the weather around the mobile terminal 32 by detecting the operation of the wiper. The situation detection unit 403 may detect the weather situation around the mobile terminal 32 by performing communication via the Internet.

  The movement history recording unit 202a performs the same operation as the movement history recording unit 202 of the first embodiment, but stores the detection result of the situation detection unit 403 in the movement history data storage unit 201a in association with the movement history.

  The usage history recording unit 110a performs the same operation as that of the usage history recording unit 110 of the first embodiment. However, when an email is used as an application, a template that is a content parameter used for the email is also used. And stored in the usage history storage unit 111a. Here, the template is previously registered in the content parameter control unit 402 as a text template corresponding to the purpose of the mail.

  In addition, when the template is used, the usage history recording unit 110a associates the template with the usage history as described above. When the template is not used, the usage history recording unit 110a analyzes the content of the sentence created by the user. A template corresponding to the content of the sentence is specified by semantic analysis. Then, the usage history recording unit 110a associates the identified template with the usage history and stores it in the usage history storage unit 111a.

FIG. 43 is a diagram for explaining an example of a template.
The usage history recording unit 110a analyzes the contents of e-mail texts 550, 551, and 552 that are uniquely created by the user. The text 550 indicates “return now” and the text 551 indicates “return home”. If it is found that “Return” is described in the sentence 552, it is determined that these sentences 550, 551, 552 correspond to the template 1. The usage history recording unit 110a associates the template 1 with these mails.

  Here, the template 1 is a text template for the purpose of informing the return home, and the return home time is inserted into the text. This return time is specified by adding a predetermined time (α) to the current time (now Time) specified based on the original calendar clock provided in the usage history recording unit 110a or the calendar clock 107.

  When the template 1 is used, the user uses the template 1 as it is without editing it, or edits and uses the content of the template 1 by operating the input device 106.

  The behavior pattern extraction unit 205a generates an application usage history based on the movement history stored in the movement history data storage unit 201a and the usage history stored in the usage history storage unit 111a.

FIG. 44 is a diagram showing the contents of the application usage history in the present embodiment.
In the application usage history in the present embodiment, the used application (only mail is shown as an example of the application in FIG. 44), the transmission address that is the content parameter, and the template (template 1 as an example of the template in FIG. 44). , 2), a title, a transmission message, a use date and time when the application is used, a use route, and a weather situation.

  For example, the application usage history 501 indicates that the template 1 is used, and the application usage history 502 indicates that the template 2 is used. Here, the template 1 is a text template for the purpose of informing the return home as described above, while the template 2 is a target template for notifying the return home and notifying that the weather is raining and that it is desired to come to pick up.

  Here, the behavior pattern extraction unit 205a further extracts a usage pattern of the user's application based on the above-described application usage history, creates a usage prediction rule, and stores the usage prediction rule in the behavior prediction rule storage unit 203a.

  FIG. 45 is a diagram illustrating the contents of the usage prediction rules stored in the behavior prediction rule storage unit 203a.

  The behavior pattern extraction unit 205a extracts from the application usage history 501 the usage pattern that the template 1 mail was used for the family on a route from the company to the station on a sunny night of weekdays, and from the application usage history 502. The usage pattern that the template 2 mail is used for the family on the route from the company to the station on a rainy night on weekdays is extracted. Then, the behavior pattern extraction unit 205a creates a usage prediction rule shown in FIG. 45 by accumulating the extracted usage patterns.

  Also in the present embodiment, when extracting usage patterns, as in the first embodiment, the usage status is divided into weekdays and holidays, morning, noon, night, etc. according to a predetermined order and standard.

FIG. 46 is a diagram for describing a usage pattern extraction method according to the present embodiment.
For example, the behavior pattern extraction unit 205a determines whether or not the destination is a wife with respect to an email indicated by the application usage history, and when the destination is a wife, the usage place is a route from the company to the home. It is determined whether or not there is a route. When the use place is the route, it is further determined whether or not the weather is rainy. When the weather is rainy, it is further determined which template has been used. Based on these determinations, one usage pattern is extracted.

  Here, the behavior pattern extraction unit 205a may extract the usage pattern by dynamically changing the order of the determination, the classification criterion, and the classification contents by a clustering method or the like. In other words, the behavior pattern extraction unit 205a determines whether or not the contents correspond to the contents in the order of strong correlation from the contents (address, use place, etc.) indicated in the application use history.

  For example, since the regular holiday of the user's company is Monday and Tuesday, when the usage pattern of the user's Monday and Tuesday is different from the usage pattern of the other day of the user, other than Monday and Tuesday Day of the week is highly correlated as a company work day. Therefore, the behavior pattern extraction unit 205a first extracts a usage pattern by determining whether or not the email is used on a day other than Monday and Tuesday. Also, in the application usage history, for example, if there are many emails using the template 3 (template for the purpose of asking for pick-up) to the son on a rainy day, regardless of the date and time, the behavior pattern extraction unit 205a Whether or not the weather is rain is determined, and whether or not the destination is the son is determined. As a result, a usage pattern in which the email of the template 3 is used for the son on a rainy day is extracted. Also, in the application usage history, template 2 (template for the purpose of requesting pick-up) is frequently used on rainy days for mail addressed to his wife, and template 5 (requests a shopping list) on the route to the supermarket. 46 is used, and based on the extraction method shown in FIG. 46, the usage pattern that the template 2 mail was used for the wife on a rainy day, and the route to the supermarket The usage pattern that the email of the template 5 was used for the wife is extracted.

  The information display control unit 204a refers to the use prediction rules stored in the behavior prediction rule storage unit 203a, and selects from the applications corresponding to the output results of the GPS reception unit 108, the calendar clock 107, and the situation detection unit 403. Identify an application with a high number of uses (high probability of use) and present the application.

  The content parameter control unit 402 refers to the usage prediction rules stored in the behavior prediction rule storage unit 203a, and the content parameters (address and destination) corresponding to the output results of the GPS reception unit 108, the calendar clock 107, and the situation detection unit 403. A content parameter having a high use count (high use probability) is specified from the template), and the specified content parameter is input to the application presented and activated by the information display control unit 204a.

  FIG. 47 is a diagram illustrating a state in which the content parameter control unit 402 has input content parameters to the mail application.

  When the content parameter control unit 402 determines that the user leaves the company at 20:00 and goes to the home based on the output results of the GPS reception unit 108, the calendar clock 107, and the situation detection unit 403, the content prediction control rule 402 For example, the content parameter that the destination is the wife and the content parameter that the template is the template 1 are specified.

  Then, the content parameter control unit 402 inputs the wife's address in the mail address field and the template 1 in the mail text field. Here, as described above, the template 1 is set with a variable part such as <arrival time> depending on the current time and the situation. Therefore, the current time (20:00) + predetermined coefficient α (10:00) = 21: 00 is input to this <arrival time>. Note that the coefficient α may be variable based on the past usage history. For example, the content parameter control unit 402 calculates the coefficient α using the time when the user used the template 1 and the arrival time when the user edited and described the template 1. Thereby, coefficient (alpha) can be set appropriately according to a user's lifestyle.

  A sentence (<Sentence 1>) that can be selectively changed by the user may be set in the template 1. For example, one of the sentences such as “please cool beer” and “please record TV 48 Ch” is selected by the user, and the selected sentence is input to the template 1.

  FIG. 48 is a diagram for explaining a case where a text that can be selectively changed is input to the template 1.

  As shown in FIG. 48 (a), the display 105 can select sentences such as “Please keep beer chilled” and “Please record TV 48Ch” as <Sentence 1> of template 1. Is displayed. The user selects any document by operating the input device 106.

  In order to allow the user to select such sentences, the content parameter control unit 402 stores these sentences in association with the template 1 in advance as shown in FIG. The content parameter control unit 402 also stores the number of times these sentences have been used. Therefore, the content parameter control unit 402 preferentially displays the sentence with the highest number of uses on the display 105 and displays other sentences with shading.

  FIG. 49 is a screen display diagram showing a screen displayed on the display 105 in accordance with the operations of the information display control unit 204a and the content parameter control unit 402.

  First, the information display control unit 204 a causes the display 105 to display a screen 510 for inquiring whether or not to use the history in accordance with the output from the input device 105.

  Here, when “Yes” is selected, the information display control unit 204a starts by predicting mail as an application, and the content parameter control unit 402 predicts the content parameters as described above and inputs them into the mail. Then, the content parameter control unit 402 displays a screen 513 indicating the input content on the display 105.

  Alternatively, when “Yes” is selected on the screen 510, the information display control unit 204 a displays a screen 511 for inquiring whether to create a mail by predicting a mail as an application. When “Yes” is selected here, the content parameter control unit 402 predicts a destination as a content parameter, and displays a screen 512 indicating the destination candidate. When “wife” is selected here, the content parameter control unit 402 predicts a template as the content parameter and displays the same screen 513 as described above.

  Here, the overall operation of the mobile terminal 32 in the present embodiment will be described.

FIG. 50 is a flowchart showing the overall operation of the mobile terminal 32.
First, when the use of the history is selected based on the operation of the input device 106 by the user (for example, the screen 510 in FIG. 49), the mobile terminal 32 is based on the operations of the calendar clock 107 and the GPS receiving unit 108. The current date and time and the current position are specified, and the weather situation is specified based on the operation of the situation detection unit 403 (step S601). For example, if the user of the mobile terminal 32 is heading from the company to the station at 20:00 on Friday, the mobile terminal 32 specifies 20:00 on Friday as the current date and time, and the station from the company as the current location. Identify the route to

  Next, the mobile terminal 32 predicts an application and a content parameter using the usage prediction rule stored in the usage prediction rule storage unit 203 (step S602). For example, the mobile terminal 32 predicts mail as an application corresponding to the specific result of step S601, and predicts the destination “wife” and the template “template 1” as content parameters. Then, the mobile terminal 32 displays the content parameter (Step S603). For example, 21:00 (current time 20: 00 + 10: 00) is displayed as the arrival time indicated in the template 1.

  Then, the mobile terminal 32 determines whether or not an operation according to the predicted content has been determined based on the operation of the input device 106 by the user (step S604). That is, when the user instructs transmission without requiring editing for the template 1, the mobile terminal 32 determines that the operation according to the predicted content is determined, and when the user instructs editing, the mobile terminal 32 responds to the predicted content. It is determined that the operation has not been determined.

  Here, when it is determined that the operation has been determined (Yes in step S604), the mobile terminal 32 stores a mail use history (step S606). That is, the used application, template 1 and the like are stored as a history in the usage history storage unit 111a. When it is determined that the operation has not been determined (No in step S604), the mobile terminal 32 enters the input mode (step S605). That is, the mobile terminal 32 is in an editable state with respect to the contents of the template 1. Thereafter, the mobile terminal 32 repeatedly executes the operations from step S604.

FIG. 51 is a flowchart showing the details of the prediction operation.
In step S602 in FIG. 50, the information display control unit 204a and the content parameter control unit 402 (herein simply referred to as control units) of the mobile terminal 32 first determine application candidates by referring to the usage prediction rules. It is determined whether or not there is (step S701). Here, if there is no application candidate (No in step S701), the control unit enters the normal mode (step S709), but if there is an application candidate (Yes in step S701), the control unit displays the application on the display 105. Are displayed (step S702).

  Next, the control unit determines whether any application has been selected from the displayed candidates based on the output of the input device 106 (step S703). Here, when it is determined that it is not selected (No in step S703), the control unit repeatedly executes the operation from step S702, and when it is determined that it is selected (Yes in step S703), the control unit is selected. The activated application is activated (step S704). Next, the control unit determines whether there is a content parameter candidate with reference to the usage prediction rule (step S705). If there is a content parameter candidate (Yes in step S705), the control unit causes the display 105 to display the content parameter candidate (step S706).

  Next, the control unit determines whether any content parameter has been selected from the displayed candidates based on the output of the input device 106 (step S707). Here, when it is determined that it is not selected (No in step S707), the control unit repeatedly executes the operation from step S706. When it is determined that it is selected (Yes in step S707), the control unit is selected. The entered content parameters are input to the activated application (step S708).

  If there is only one application candidate in step S701, the control unit may start the application without performing the operations in steps S702 and S703. In step S705, each content parameter candidate is selected. If there is only one, the control unit may input the content parameter to the application without performing the operations of steps S706 and S707.

  As described above, in the present embodiment, the application and content parameters corresponding to the location, date, and weather conditions of the mobile terminal 32 are specified from the usage prediction rules and displayed as the prediction results. Appropriate application and content parameters can be predicted, and user convenience can be improved.

<Modification 1>
Here, a first modification of the present embodiment will be described.

  The mobile terminal according to the first modification not only starts prediction when receiving an operation instructing to use the history, but also starts prediction based on the detection result of the sensor.

  For example, the mobile terminal according to the first modification includes a power sensor that detects power on / off, a mode sensor that detects switching between modes (such as a manner mode and a normal mode), or an illuminance sensor.

  When equipped with a power sensor, the mobile terminal starts predicting applications and the like when the power is turned on, and when equipped with a mode sensor, the mobile terminal is switched when the mode is switched. Start prediction. When the illuminance sensor is provided, the mobile terminal starts predicting an application or the like according to the ambient brightness. That is, when the user removes the mobile terminal from the bag, the illuminance sensor detects that the brightness has suddenly increased, and the mobile terminal starts prediction when the brightness has increased.

  In addition, when the mobile terminal is configured as an in-vehicle device of a car navigation system, the mobile terminal is set to, for example, a wiper sensor that detects the movement of the wiper, a brake sensor that detects the state of the side brake, and the shift lever set to parking. A lever sensor that detects whether or not the vehicle has been stopped, a stop sensor that detects the stop of the automobile, or a viewpoint recognition sensor that detects the user's line of sight may be provided.

  When equipped with a brake sensor, the mobile terminal starts prediction when the side brake is applied, and when equipped with a lever sensor, the mobile terminal starts prediction when the shift lever is selected for parking. However, when the stop sensor is provided, the mobile terminal starts prediction when the automobile stops. When the viewpoint recognition sensor is provided, the mobile terminal starts prediction when the user turns his / her line of sight toward the display 105 of the mobile terminal.

  Here, when the mobile terminal includes a wiper sensor, the wiper sensor may be used as the situation detection unit 403.

  That is, when the wiper is swinging, the situation detection unit 403 detects that the weather is raining from that state. Then, the mobile terminal starts predicting an application or the like when the peristaltic movement is started.

  FIG. 52 is a screen display diagram showing a screen displayed by a mobile terminal equipped with a wiper sensor.

  When the user swings the wiper, the mobile terminal specifies that the current weather is rain based on the detection result of the wiper sensor, and predicts application and content parameters based on the rain. Start.

  As a result, the mobile terminal starts by predicting mail as an application. Further, the mobile terminal predicts a target template for asking whether it is better to pick up the son “Taro” and displays the contents of the template.

  Thus, in this modification, since prediction is started based on the detection result of the sensor, even when the user forgets to use the application and the content parameter, the use can be promoted. For example, attention and recommendations can be encouraged, such as reminding children to pick up when it rains. Furthermore, in this modification, the user does not need to perform complicated operations of the mobile terminal while driving the vehicle, and can drive the vehicle safely. In addition, the mobile terminal according to the present modification activates a mail or the like to input content parameters during an operation in which a user normally drives a car. Transmission can be completed.

<Modification 2>
Here, a second modification of the present embodiment will be described.

  The mobile terminal according to Modification 2 is configured as an in-vehicle device of a car navigation system, and inserts an arrival time predicted by a navigation function into a template.

  FIG. 53 is a diagram showing the contents of the template into which the arrival time predicted by the navigation function is inserted.

  In the template 7 shown in FIG. 53, a rule (car-> ArrivalTime) indicating that an arrival time predicted by the navigation function is inserted is set. When the mobile terminal predicts the template 7 as the content parameter, the mobile terminal predicts the arrival time (10:20) by the navigation function, and inserts the arrival time (10:20) into the template 7.

FIG. 54 is a screen display diagram for displaying the screen of the mobile terminal.
For example, when the user is late for the company, if the user arrives at the company by email, the usage prediction rule corresponding to the user's usage history of the email is the behavior prediction rule storage unit 203a. Is saved.

  As a result, when the user is likely to be late, the mobile terminal predicts mail as an application and predicts the template 7 as a content parameter from the current date and time and current location. And a mobile terminal pops up the content of the template 7 on the screen of a navigation apparatus, without receiving operation from a user.

  As a result, the user can recognize that the arrival time must be notified to the company, and can easily create and send a mail without inputting a mail text or the like.

  Although the mobile terminal according to the present modification has inserted the arrival time predicted by the navigation function, the mobile terminal may acquire and insert the arrival time from the server through communication via the Internet or the like.

<Modification 3>
Here, a third modification of the present embodiment will be described.

  The mobile terminal according to the present modification predicts an operation mode such as a volume, an image display mode, and a manner mode as content parameters. That is, the mobile terminal according to the present modification holds a usage prediction rule that includes the volume as described above as a content parameter.

  FIG. 55 is a diagram illustrating the contents of the usage prediction rules stored in the behavior prediction rule storage unit 203a of the mobile terminal according to the present modification.

  As shown in FIG. 55, the usage prediction rule includes a channel “Ch8” and a volume “75” as content parameters corresponding to the application “TV (TV)”. Mode "Manner mode" is included.

  For example, if it is determined that the mobile terminal is currently on a weekday night and is on the route from the AA station to the BB station, the mode “Manner mode” and the incoming call permission are set as content parameters corresponding to the entire application from the use prediction rule. The other party “C company” is predicted, and the predicted mode is set by itself.

  Thereby, even if a user forgets those settings, according to the present condition, it can switch to manner mode or a call reception permitted party can be switched. The manner mode settings vary depending on the location. For example, the manner mode settings in a general train are settings that do not receive radio waves, and the manner mode settings in the Shinkansen are settings that can receive e-mail, etc. It is. The manner mode setting contents in the company conference room are settings that accept calls from a specific telephone number set as an emergency contact, but do not accept other calls. As described above, the manner mode setting contents differ depending on the location. Therefore, the user needs to change the setting for each location, and the user feels bothered.

  Therefore, the mobile terminal according to this modification example as described above can automatically set an appropriate manner mode according to the situation by using the manner mode history set in the past. It is possible to prevent forgetting to execute the setting change. Further, the mobile terminal may only display content parameters such as the predicted manner mode. In this case, it is possible to notify the user of an appropriate setting and prompt a change.

  Note that the mobile terminal according to the present modification predicts the operation mode such as the volume, the image display mode, and the manner mode as the content parameters, but the mobile terminal (in itself) ) May be predicted as an operation mode.

  In addition, although the mobile terminal of this Embodiment and the modification displayed content parameters, such as a template which is a prediction result, and showed it to the user, you may show with an audio | voice. In addition, the mobile terminal may input the user's voice. That is, the mobile terminal recognizes the user's voice and converts it into characters, and inputs the characters into the mail text. Thereby, usability for the user can be improved, and safety during driving of the vehicle can be improved.

(Embodiment 3)
In recent years, mobile phones (mobile terminals) are configured to be able to use a wide variety of applications, and display screens have been enlarged. As a result, the amount of power consumed by mobile phones has increased, and the need for charging has increased in places where people are away from home.

  Therefore, the mobile terminal according to the present embodiment predicts applications and content parameters that will be used now or in the future, and prevents power shortages from occurring due to the use of the applications and content parameters. It is. That is, this mobile terminal determines whether or not power shortage occurs when an application is executed. When it is determined that power shortage occurs, the mobile terminal presents a message prompting charging and a chargeable location to the user. . Accordingly, the user can charge in advance before executing the application, and can prevent a situation in which the application is interrupted due to insufficient power.

FIG. 56 is a functional block diagram showing a functional configuration of the mobile terminal according to the present embodiment.
The mobile terminal 81 according to the present embodiment includes a display 105, a GPS receiver 108, a calendar clock 107, a situation detector 403, a movement history data storage unit 201a, a movement history recording unit 202a, an action prediction rule storage unit 203a, and an information display. A control unit 204b, an action pattern extraction unit 205a, an input device 106, a usage history recording unit 110a, a usage history storage unit 111a, a power detection unit 803, a power control unit 802, and a charging location acquisition unit 805 are provided. Of the above-described components included in the mobile terminal 81 of the present embodiment, the mobile terminal 11 shown in FIG. 3, the mobile terminal 21 shown in FIG. 35, or the mobile terminal 32 shown in FIG. Components having the same functions and configurations as those of the constituent elements are provided with the same reference numerals as the constituent elements of the mobile terminals 11, 21 and 31, and detailed description thereof is omitted.

  Similar to the first or second embodiment, the usage history recording unit 110a creates a usage history by associating the usage date and time with the application and content parameters used, and stores the usage history in the usage history storage unit 111a. . Then, the usage history recording unit 110a of the present embodiment includes the usage time of the application in the content parameter.

  As a result, the behavior pattern extraction unit 205a in the present embodiment creates a usage prediction rule in such a manner that the usage time is associated with the used application.

  FIG. 57 is a diagram showing the contents of the usage prediction rule created by the behavior pattern extraction unit 205a of the present embodiment.

  The behavior pattern extraction unit 205a, for example, uses the application “TV (TV)” at a time “weekday night” and a location “AA station → BB station”. When the usage pattern that is used with the content parameter such as is extracted, the usage prediction rule shown in FIG. 57 is updated so that the usage count of the usage pattern increases only once.

  The future location prediction unit 206 according to the present embodiment includes constituent elements of the mobile terminal 11 using the location prediction method B, and holds a behavior prediction rule for predicting a future location. The future location prediction unit 206 predicts the future location of the mobile terminal 81 with reference to the behavior prediction rule and notifies the information display control unit 204b of the result. Further, the future location prediction unit 206 predicts the date and time (calendar attribute) arriving at the location based on the movement history so far, and notifies the information display control unit 204b of the result.

FIG. 58 is a diagram showing the content of the behavior prediction rule held by the future place prediction unit 206.
As shown in FIG. 58, in the behavior prediction rule, when the current date and time is “weekday night” and the current location is “company → AA station”, the mobile terminal 81 will change from AA station to BB station in the future. It is shown that the moving probability is 95%.

  The information display control unit 204b includes the function of the information display control unit 204a of the mobile terminal 32 according to the second embodiment and the function of the content parameter control unit 402. Predict corresponding application and content parameters. That is, the information display control unit 204b refers to the use prediction rule stored in the behavior prediction rule storage unit 203a, and sets the location predicted by the future location prediction unit 206 or the location detected by the GPS reception unit 108. Identify the corresponding application and content parameters.

  For example, when the future place prediction unit 206 predicts the future place “AA station → BB station” and the date and time with reference to the behavior prediction rule shown in FIG. 58, the information display control unit 204b displays the weather condition at the date and time. Obtained from the detection unit 403. Here, the situation detection unit 403 obtains the weather situation at the date and time from the server via the Internet.

  Then, the future location prediction unit 206 searches the usage prediction rule shown in FIG. 57 for a usage situation that matches the future location, the date and time, and the weather situation, and the application “TV (TV)” associated with the usage situation. And the content parameters (such as volume “50” and usage time “60 minutes”) are predicted as application and content parameters that will be used in the future.

  Further, the information display control unit 204b searches the usage status corresponding to the output results of the GPS reception unit 108, the calendar clock 107, and the status detection unit 403 from the usage prediction rules shown in FIG. 57, and associates them with the usage status. Predict the application and content parameters that will be used at present.

The power detection unit 803 detects the remaining power of the mobile terminal 81.
The power control unit 802 holds a power consumption table in advance. Further, the power control unit 802 specifies the remaining power level detected by the power detection unit 803, the application and content parameter predicted by the information display control unit 204b, and further refers to the power consumption table to It is determined whether or not a power shortage occurs when a predicted application or the like is executed. That is, the power control unit 802 determines whether charging is necessary, and displays a message prompting charging on the display 105 if charging is necessary.

FIG. 59 shows the contents of the power consumption table.
As shown in FIG. 59, the power consumption table 853 includes each application such as “music player” and “TV (TV)”, a content parameter such as volume “75”, and power corresponding to each application and content parameter. Coefficients are registered. The power coefficient indicates the amount of power required per unit time. For example, the power consumption table shown in FIG. 59 indicates that the power consumption per unit time “5” is required to execute the application “TV (TV)” at the volume “50”.

  For example, when the application “television (TV)” and content parameters (such as “volume 50” and usage time “60 minutes”) are predicted by the information display control unit 204b, the power control unit 802 uses the power consumption as described above. By referring to the table 853, the power coefficient “5” for the applications “TV (TV)” and “volume 50” is specified. Next, the power control unit 802 uses the power coefficient “5” and the usage time “60 minutes” to calculate the power consumption when the application is executed with the content parameter. That is, the power control unit 802 predicts the power coefficient “5” × usage time “60 minutes” = 300 as the power consumption. The power control unit 802 determines whether or not charging is necessary by comparing the detection result by the power detection unit 803 with the power consumption amount “300”.

  For example, if the current battery remaining amount is “200” as a result of detection by the power detection unit 803, the power control unit 802 compares the remaining battery amount “200” with the power consumption “300” and needs to be charged. Determine that there is. Note that the power detection unit 803 may determine that charging is necessary when the difference between the remaining battery level and the power consumption is equal to or less than a predetermined threshold. For example, when the threshold value is “10”, the power amount obtained by dividing the battery remaining amount “210” by the power consumption amount “200” is “10”, so the power detection unit 803 is likely to be short of power. Judge that charging is necessary.

  FIG. 60 is an explanatory diagram for explaining how the power control unit 802 predicts the power consumption.

  For example, when the user of the mobile terminal 81 is heading for AA station from the company at 20:00 on Friday, the future location prediction unit 206 of the mobile terminal 81 refers to the behavior prediction rule shown in FIG. 58 as described above. Then, the mobile terminal 81 predicts that it will head for “AA station → BB station” on a weekday night. Based on the prediction result of the future place prediction unit 206 and the use prediction rule shown in FIG. 57, the information display control unit 204b performs the application “TV (TV)” at “weekday night” and “AA station → BB station”. ”And content parameters (such as“ volume 50 ”and usage time“ 60 minutes ”) are predicted to be used.

  As a result, the power control unit 801 determines that charging is necessary by predicting the power consumption amount “300” as described above and comparing it with the remaining power level “500” detected by the power detection unit 803. To do.

FIG. 61 is a diagram showing a transition of the remaining power of the mobile terminal 81.
As shown in FIG. 61, when the power control unit 801 predicts an application “TV (TV)” and content parameters (such as “volume 50” and usage time “60 minutes”) to be used in the future, It is determined whether or not the remaining amount of power is equal to or lower than a lower limit (for example, “200”) when an application or the like is executed. When power control unit 801 determines that the value is below the lower limit value, power control unit 801 causes display 105 to display a message notifying that charging is necessary on the route from the company to AA station.

  FIG. 62 is a diagram illustrating an example of a screen displayed on the display 105 by the power control unit 801.

  For example, as shown in FIG. 62A, the display 105 displays a message such as “There is a possibility that the power will run out” and “Charging is necessary”, and a confirmation button. Here, when the confirmation button is pressed by the user's operation, the display 105 displays a message “Do you want to display a chargeable place” as shown in FIG.

  As described above, in this embodiment, before the user carries the mobile terminal 81 and gets on the train heading from the AA station to the BB station, the application and content parameters to be used during the boarding period are predicted, In order to inform the user whether or not charging is necessary, it is possible to prevent the application from being interrupted due to insufficient power.

  When “Yes” is selected on the screen shown in FIG. 62B, the charging location acquisition unit 805 notifies the server of the current location detected by the GPS receiving unit 108 via the network 804. Get data indicating the nearest rechargeable location from the server. Then, the charging location acquisition unit 805 causes the display 105 to display a map indicating the charging location based on the data.

FIG. 63 is a diagram illustrating an example of a map displayed on the display 105.
As shown in FIG. 63, the charging location acquisition unit 805 causes the display 105 to display a map that shows the charging location, an icon that visually represents the remaining amount of power, and a list of charging locations.

  In the list of rechargeable locations, the names of the rechargeable locations are preferentially arranged from those close to the mobile terminal 81. When the user operates the input device 106 and an arrow 871 is placed at the name of any chargeable place included in the list, detailed information on the chargeable place (for example, charges and services). Is displayed on the map.

  Further, the charging location acquisition unit 805 grasps the remaining power level detected by the power detection unit 803 via the power control unit 802 and displays the remaining power level with the icon.

  In addition, although the charging place acquisition part 805 displayed the nearest charging place on the display 105 based on the data acquired from the server, you may display the charging place etc. which the user used in the past.

  Here, the operation of the mobile terminal 81 according to the present embodiment will be described with reference to FIG.

FIG. 64 is a flowchart showing the operation of the mobile terminal 81.
First, the information display control unit 204 of the mobile terminal 81 specifies the current date and time, the location, and the weather situation based on the output results from the GPS reception unit 108, the calendar clock 107, and the situation detection unit 403 (step S901). .

  Next, the information display control unit 204b predicts applications and content parameters that will be used in the future or present by referring to the use prediction rules stored in the behavior prediction rule storage unit 203a (step S902). ).

  For example, when the user of the mobile terminal 81 is heading from the company to the station at 20:00 on Friday, the information display control unit 204 uses the application “music player” and the application prediction rule shown in FIG. A content parameter (usage time “20 minutes”, etc.) is predicted to be used at present.

  The power control unit 801 calculates the power consumption when the application and content parameters are used based on the above-described application and content parameter prediction results and the power consumption table 853 (step S903).

  Next, the power detection unit 803 detects the remaining power (step S904), and the power control unit 801 compares the remaining power and the power consumption to determine whether charging is necessary (step S905). ).

  Here, when the power control unit 801 determines that charging is necessary (Yes in step S905), the power control unit 801 displays a message notifying that charging is necessary on the display 105 (step S906). Further, the power control unit 801 causes the display 105 to display a message asking the user whether or not to display a chargeable place (step S907).

  Then, the charging location acquisition unit 805 determines whether or not the user has instructed to display a charging possible location based on the output result from the input device 106 (step S908). When it is determined that an instruction has been given (Yes in step S908), the charging location acquisition unit 805 displays the nearest charging location on the display 105 (step S909).

  Thus, in this embodiment, when the remaining power is low, a message prompting charging and a chargeable location are displayed in advance, so that the use of the application can be prevented from being interrupted due to insufficient power. .

  In the present embodiment, when the application “TV (TV)” is predicted based on the usage prediction rule shown in FIG. 57, the application is started simultaneously with the prediction. Since the broadcast start time of the television program is determined in advance, it is possible to prevent the user from overlooking the television program by starting the application “TV” simultaneously with the prediction.

<Modification>
Here, a modification of the present embodiment will be described.

  The charging location acquisition unit of the mobile terminal according to the present modification causes the display 105 to preferentially display a chargeable location on the route to the destination of the mobile terminal.

  FIG. 65 is a screen display diagram of the display 105 that preferentially displays a chargeable place on the route to the destination.

  For example, when the user carrying the mobile terminal is heading for AA station from the company on Friday at 20:00, the future location prediction unit 206 determines that the mobile terminal is next AA based on the behavior prediction rule of FIG. Judging from the station to BB station. Therefore, the charging location acquisition unit preferentially displays the current location of the mobile terminal and the chargeable location on the route to the AA station based on the data acquired from the server.

FIG. 66 is a flowchart showing the operation of the charging location acquisition unit according to this modification.
In step S909 shown in FIG. 64, the charging location acquisition unit first transmits the detection result of the GPS reception unit 108 to the server, and acquires data indicating the nearest charging location (chargeable location information) from the server ( Step S1001). For example, this data includes “convenience store”, “SS service”, “SH store”, etc. as the nearest rechargeable places.

  Next, the charging location acquisition unit specifies the current location detected by the GPS reception unit 108 (step S1002), and further specifies the future location predicted by the future location prediction unit 206 (step S1003). Then, the charging location acquisition unit causes the display 105 to preferentially display charging possible locations on the route from the current location to the future location. For example, the charging place acquisition unit causes the display 105 to display detailed information about the charging place “convenience store” on the route from the company to the AA station.

  In such a modified example, among the nearest rechargeable places, the rechargeable places on the destination route are preferentially displayed, so that the user can save time and effort to change the destination. .

  In this modification, the chargeable places on the destination route are preferentially displayed, but the chargeable places that the user has used in the past and the chargeable places that have merit such as low charges are given priority. It may be displayed. Thereby, the convenience with respect to a user can be improved. When the user can preferentially display the rechargeable places used in the past, the charging place acquisition unit 805 stores the user's past rechargeable place usage history and gives priority to the rechargeable places indicated in the history. To display automatically.

  In the present embodiment and the modification, when an application such as a game is downloaded from the server to the mobile terminal 81, the power control unit 802 acquires a power coefficient corresponding to the application, and the application and the power coefficient May be added to the power consumption table 853. For example, when the game “AA Racing” is downloaded from the server as an application, the power coefficient “3” corresponding to the application is downloaded simultaneously.

  In the present embodiment and the modification, the necessity of charging is determined according to the predicted application and content parameter. However, when the application and the content parameter are predicted, the remaining power is equal to or lower than a predetermined lower limit value. If so, it may be determined that charging is required regardless of the predicted contents. For example, when the lower limit is 30 and the remaining power is 30, the power control unit 802 determines that charging is necessary because there is a possibility that power shortage may occur regardless of which application is predicted. To do.

  In this embodiment and the modification, the power control unit 802 specifies the remaining power level based on the detection result of the power detection unit 803. However, the remaining power level is determined from the usage time of the application, the call time, and the like. You may do it. As a result, the power detection unit 803 can be omitted, and the configuration of the mobile terminal 81 can be simplified.

  In the present embodiment and the modification, as in the second embodiment, when an operation is performed on the input device 106, the current application and content parameters may be predicted to determine whether charging is necessary. The necessity of charging may be determined when a specific event is detected by a sensor or the like.

  Moreover, in this Embodiment and a modification, you may notify a user of the necessity for charge with a sound. For example, when the mobile terminal 81 approaches the vicinity of the chargeable place “convenience store” before entering the AA station on the route from the company to the AA station, the mobile terminal 81 informs that charging is necessary by sound or voice.

  Furthermore, in the present embodiment and the modification, when the user does not charge even though charging is necessary, the application may be executed in the low power mode, and after obtaining the user confirmation in advance. It may be executed in a low power mode.

(Embodiment 4)
The mobile terminal in the present embodiment predicts an application and a content parameter that will be used now or in the future, and a message that informs that new data is necessary to use the application and the content parameter, The user is notified of the location of the data.

FIG. 67 is a functional block diagram showing a functional configuration of the mobile terminal according to the present embodiment.
The mobile terminal 91 according to the present embodiment includes a display 105, a GPS receiver 108, a calendar clock 107, a situation detector 403, a movement history data storage unit 201a, a movement history recording unit 202a, an action prediction rule storage unit 203a, and an information display. A control unit 204b, an action pattern extraction unit 205a, an input device 106, a usage history recording unit 110a, a usage history storage unit 111a, and a data acquisition location detection unit 806 are provided. Of the above-described components included in the mobile terminal 91 according to the present embodiment, those having the same functions and configurations as those included in the mobile terminal 81 shown in FIG. The same reference numerals as the constituent elements of the terminal 81 are attached, and detailed description thereof is omitted.

  As in the third embodiment, the usage history recording unit 110a creates a usage history by associating the usage date and time with the used application and content parameters, and stores the usage history in the usage history storage unit 111a. Then, when the used content parameter is specific data, the usage history recording unit 110a of the present embodiment displays additional data indicating whether or not the data has been acquired from the server as its usage history. Is included.

  As a result, the behavior pattern extraction unit 205a in the present embodiment creates a usage prediction rule including the additional data.

  FIG. 68 is a diagram showing the contents of the usage prediction rule created by the behavior pattern extraction unit 205a of the present embodiment.

  For example, the behavior pattern extraction unit 205a uses a volume “75” and data “playback album: CountDown100” under the usage conditions such as the time “weekday night” and the place “company → station” by the application “music player”. When the usage pattern used for the content parameter is extracted, the usage prediction rule shown in FIG. 68 is updated so that the usage count of the usage pattern increases only once.

  Here, additional data indicated by (acquired) is attached to the data name “reproduction album: CountDown100” registered in the use prediction rule. That is, this data “playback album: CountDown100” indicates the latest song when the application “music player” is used, and additional data is the latest data from the server when the application “music player” is used. "Playback album: CountDown100" must be downloaded.

  In addition, when using the application “movie player”, the latest data “reproduction program: AB stock news” is required, and the data name “reproduction program: AB stock news” registered in the use prediction rule is also described above. The same additional data is attached. Further, when the application “game” is used, data “character data” is required, and additional data similar to the above is attached to the data name “character data” registered in the use prediction rule.

  As in the third embodiment, the information display control unit 204b refers to the use prediction rule shown in FIG. 68 to predict the application and content parameters that will be used now or in the future. For example, the information display control unit 204b predicts the application “music player” and uses the data “playback album: CountDown100” as a content parameter in usage situations such as time “night on weekdays” and place “route from company to station”. Predict. When the data “playback album: CountDown100” is predicted as the content parameter in this way, the information display control unit 204b notifies the data acquisition location detection unit 809 that it is necessary to download this data from the server. In addition, the information display control unit 204b predicts the application “movie player” and uses the data “reproduction program: as a content parameter in the usage situation such as time“ weekday night ”and place“ route from AA station to BB station ”. AB Stock News "is predicted. When the data “reproduction program: AB stock news” is predicted as the content parameter in this way, the information display control unit 204b notifies the data acquisition location detection unit 809 that it is necessary to download this data from the server.

  When the data acquisition location detection unit 806 acquires, for example, notification from the information display control unit 204b that the data “reproduction album: CountDown100” needs to be acquired, first, the data acquisition location detection unit 806 holds the data “reproduction album: CountDown100”. Confirm whether or not. When the data acquisition location detection unit 806 confirms that the data is not held, the data acquisition location detection unit 806 notifies the user whether the downloadable location is displayed and informs the user that the data is not held (unheld message). Is displayed on the display 105.

FIG. 69 is a diagram illustrating an example of the display 105 that displays an unheld message.
As shown in FIG. 69, an unretained message “There is no playback music. Do you want to display the download location?” Is displayed on the display 105.

  When the user selects “Yes” by operating the input device 106 while such a screen is displayed, the data acquisition location detection unit 806 selects a location where the data “Playback Album: CountDown100” can be downloaded. The download location data shown is acquired from the server via the network 804.

  If the data acquisition location detection unit 806 determines that the data notified from the information display control unit 204b is held, the data acquisition location detection unit 806 communicates with the server via the network 804, and the held data is the latest data. Check if it exists. If it is determined that the data is not the latest data, the data acquisition location detection unit 806 displays a message (update message) that informs the user whether to display the downloadable location of the latest data, while notifying that the data is not the latest. 105 is displayed.

FIG. 70 is a diagram illustrating an example of the display 105 that displays an update message.
As shown in FIG. 70, an update message “Reproduced music has been updated. Do you want to display the download location?” Is displayed on the display 105.

  When the user selects “Yes” by operating the input device 106 while such a screen is displayed, the data acquisition location detection unit 806, as described above, displays the latest data “Reproduction Album: CountDown100”. Download location data indicating a location where can be downloaded from the server via the network 804.

  When acquiring the download location data from the server as described above, the data acquisition location detection unit 806 notifies the server of the data name of the acquisition target data and the current location detected by the GPS reception unit 108. The server searches the download location list data held by itself for a location where the data of the notified data name can be downloaded and is in the vicinity of the notified current location. The corresponding location is transmitted to the data acquisition location detection unit 806 as download location data.

FIG. 71 is a diagram showing the contents of download location list data held by the server.
As shown in FIG. 71, in the download location list data, a data name such as “playback album: CountDown100”, a location where data with the data name can be downloaded, and a charge and coupon for downloading the data are registered. ing.

  When the server receives a data name (for example, “playback album: CountDown100”) and a notification notifying the current location from the data acquisition location detection unit 806, the server searches the download location list data for the data name. When the data name is found, the data acquisition detection unit 806 further finds a location closest to the current location notified from the data acquisition location detection unit 806 among the locations associated with the data name.

  Then, the server generates download location data indicating the found location and billing and coupons related thereto, and transmits the download location data to the data acquisition location detection unit 806.

  For example, the server generates download location data indicating the location “north latitude N3, east longitude E3”, billing “20 yen / kbyte” and coupon “2 points” for the data “reproduction album: CountDown100”, and the data acquisition location detection unit To 806. In addition, the server generates download location data indicating the location “north latitude N1, east longitude E1, radius 1 km”, billing “10 yen / kbyte”, and coupon “1 point” for the data “reproduction program: AB stock news”. To the data acquisition location detection unit 806.

  When the data acquisition location detection unit 806 acquires the download location data as described above, the data acquisition location detection unit 806 displays the content on the display 105.

  FIG. 72 is a diagram showing the display 105 that displays the contents of the download location data.

  When the data acquisition location detection unit 806 acquires the download location data indicating the location “North latitude N3, East longitude E3”, billing “20 yen / kbyte”, and coupon “2 points” for the data “reproduction album: CountDown100”, FIG. As shown in 72 (a), the location is displayed on a map, and the contents of billing and coupons are also displayed. Note that the location indicated by the download location data is a facility where a download machine for transferring the data to the mobile terminal 91 by directly connecting to the mobile terminal 91 is installed.

  The data acquisition location detection unit 806 also downloads the location “north latitude N1, east longitude E1, radius 1 km”, billing “10 yen / kbyte” and coupon “1 point” for the data “reproduced program: AB stock news”. When the location data is acquired, as shown in FIG. 72 (b), the location is displayed on the map, and the contents of the billing and the coupon are also displayed. Note that the location indicated by the download location data is a location that can be downloaded by wireless communication.

  Here, the operation of the mobile terminal 91 according to the present embodiment will be described with reference to FIG.

FIG. 73 is a flowchart showing the operation of the mobile terminal 91.
First, the information display control unit 204b of the mobile terminal 91 specifies the current date and time, the location, and the weather situation based on the output results from the GPS reception unit 108, the calendar clock 107, and the situation detection unit 403 (step S1101). .

  Next, the information display control unit 204b predicts applications and content parameters that will be used in the future or present by referring to the use prediction rules stored in the behavior prediction rule storage unit 203a (step S1102). ).

  For example, when the user of the mobile terminal 91 is heading from the company to the station on Friday at 20:00, the information display control unit 204b uses the application “music player” and the application prediction rule shown in FIG. It is predicted that the content parameter (data “playback album: CountDown100”) is currently used.

  Here, the information display control unit 204 determines whether the additional data is attached to the data “playback album: CountDown100” registered in the use prediction rule. The data acquisition location detection unit 806 is notified.

  Based on the notification from the information display control unit 204b and communication with the server, the data acquisition location detection unit 806 determines whether or not the data “playback album: CountDown100” needs to be downloaded from the server ( Step S1103).

  Here, when the data acquisition location detection unit 806 determines that the download is necessary (Yes in Step S1103), the data storage location detection unit 806 displays the above-described unretained message or update message on the display 105 (Step S1104).

  Then, the data acquisition location detection unit 806 determines based on the output result from the input device 106 whether or not the user has instructed to display the location where the data acquisition is possible (step S1106). If it is determined that the instruction has been given (Yes in step S1106), the data acquisition location detection unit 805 displays the data acquisition available location on the display 105 (step S1107).

<Modification>
Here, a modification of the present embodiment will be described.

  The data acquisition location detection unit of the mobile terminal according to the present modified example preferentially displays the data obtainable location on the route to the destination of the mobile terminal on the display 105, as in the modified example of the third embodiment. Let

  For example, if the user carrying the mobile terminal is heading for AA station from the company at 20:00 on Friday, the future location predicting unit 206 determines that the mobile terminal is next AA station based on the behavior pattern of FIG. To go to BB station. Therefore, the data acquisition location detection unit preferentially displays the current location of the mobile terminal and the data acquisition available location on the route to the AA station based on the download location data acquired from the server.

  FIG. 74 is a flowchart showing the operation of the data acquisition location detection unit according to this modification.

  In step S1107 shown in FIG. 73, the data acquisition location detection unit first transmits the detection result of the GPS reception unit 108 and the data name predicted by the information display control unit 204b to the server, and download location data from the server. Obtain (step S1301). The download location data indicates a plurality of locations that are the nearest locations and from which data with the above data names can be downloaded.

  Next, the data acquisition location detection unit specifies the current location detected by the GPS reception unit 108 (step S1302), and further specifies the future location predicted by the future location prediction unit 206 (step S1303). Then, the data acquisition location detection unit preferentially displays the data acquisition possible location on the route from the current location to the future location on the display 105 (step S1304).

  In this modified example, since the data acquisition places on the destination route are preferentially displayed among the nearest data acquisition places, the user can save time and effort to change the destination. Can do.

  In this modification, the data acquisition places on the destination route are preferentially displayed, but the data acquisition places that the user has used in the past and the data acquisition places where there are merits such as low charges are available. You may display preferentially. Thereby, the convenience with respect to a user can be improved.

  As described above, the present invention has been described using the embodiment and the modified examples, but the present invention is not limited thereto.

  For example, in the embodiment and the modified example, the name of the predicted application is displayed on the display 105, or the screen on which the application is activated is displayed on the display 105. It is also possible to preferentially activate applications having a high use probability by the number 105 and display the screens of the activated applications on each display 105. Thereby, after confirming the content of the predicted application, the user can select and use one of the applications, thereby improving the usability of the user.

  The mobile terminal according to the present invention has an effect that information that the user intends to use can be appropriately provided according to the destination of the user with a simple configuration. For example, the mobile terminal is mounted on a mobile phone or a car navigation system. It can be applied to devices.

FIG. 1 is a configuration diagram showing an overall configuration of an information providing system including a mobile terminal and a server device using the place prediction method A. FIG. 2 is a block diagram showing a hardware configuration of a mobile terminal using the location prediction method A. FIG. 3 is a functional block diagram showing a functional configuration of a mobile terminal using the location prediction method A. FIG. 4 is a functional block diagram illustrating a functional configuration of the server apparatus. FIG. 5 is a flowchart showing the operation of the information providing system. FIG. 6 is a flowchart showing the detailed operation of the process of recording the movement history of the mobile terminal. FIG. 7 is a diagram showing a movement history of the mobile terminal. FIG. 8 is a diagram showing a map database. FIG. 9 is a diagram illustrating an example of a place list. FIG. 10 is a diagram for explaining a behavior pattern extraction method. FIG. 11 is a diagram illustrating an example of a behavior prediction rule. FIG. 12 is a diagram showing facility information data. FIG. 13 is a diagram showing category data. FIG. 14 is a diagram showing category-specific facility information data. (A) of FIG. 15 is a figure which shows the example of a display in which detailed information is displayed on a display, (b) is a figure which shows the example of a display on a display. FIG. 16 is a flowchart showing the operation of the information providing system including the mobile terminal using the location prediction method B. FIG. 17 is a schematic diagram showing an example of the movement history of the user of the mobile terminal. FIG. 18 shows a list of places and paths. FIG. 19 is a diagram illustrating a behavior pattern extraction method. FIG. 20 is a diagram illustrating an example of a behavior prediction rule. FIG. 21 is a diagram showing a display example displayed on the display of the mobile terminal. FIG. 22 is a configuration diagram showing a configuration of a system including a mobile phone using the location prediction method C. FIG. 23 is a configuration diagram showing the internal configuration of the mobile phone. FIG. 24 is a flowchart showing the operation of the mobile phone. FIG. 25 is a screen display diagram illustrating an example of a screen displayed when the traffic search unit performs a route search. FIG. 26 is a diagram showing the contents of the route search history accumulated by the destination candidate accumulation unit. FIG. 27 is a screen display diagram showing a screen on which the information providing unit displays destination candidates and estimated arrival times. FIG. 28 is a diagram for explaining a method in which the mobile phone predicts a destination using GPS. FIG. 29 is a configuration diagram showing an internal configuration of a mobile phone according to a modification. FIG. 30 is a flowchart showing the operation of the mobile phone according to the modification. FIG. 31 is a diagram illustrating the contents of the station name list accumulated in the station name accumulation unit. FIG. 32 is a diagram showing the contents of the mail received by the mail communication unit. FIG. 33 is a diagram showing the contents (mail communication history) accumulated in the destination candidate accumulation unit. FIG. 34 is a diagram illustrating an example of a screen on which the mobile phone displays a prediction result. FIG. 35 is a functional block diagram showing a functional configuration of the mobile terminal according to the first embodiment. FIG. 36 is a diagram showing the contents of the application usage history described above. FIG. 37 is a diagram showing an application usage pattern extraction method according to the above. FIG. 38 is a diagram showing usage prediction rules for the application described above. FIG. 39 is a flowchart showing an application operation process performed by the information display control unit. FIG. 40 is a diagram for explaining application operation processing performed by the information display control unit of the above. 41A is a view showing a display example of a message, FIG. 41B is a view showing a display example of a message asking whether to use a past history, and FIG. 41C is a selection of a mail transmission partner. (D) is a diagram showing a display example of messages transmitted in the past. FIG. 42 is a functional block diagram showing a functional configuration of the mobile terminal in the second embodiment. FIG. 43 is a diagram for explaining an example of the template described above. FIG. 44 shows the contents of the application usage history. FIG. 45 is a diagram showing the contents of the usage prediction rules stored in the behavior prediction rule storage unit same as above. FIG. 46 is a diagram for explaining the usage pattern extraction method. FIG. 47 is a diagram showing a state in which the content parameter control unit of the above inputs content parameters to the mail application. FIG. 48 is a diagram for explaining the case where the selectively changeable sentence is set in the template 1. FIG. 49 is a screen display diagram showing a screen displayed on the display according to the operations of the information display control unit and the content parameter control unit. FIG. 50 is a flowchart showing the overall operation of the mobile terminal of the above. FIG. 51 is a flowchart showing in detail the above-described prediction operation. FIG. 52 is a screen display diagram showing a screen displayed by a mobile terminal equipped with the wiper sensor same as above. FIG. 53 is a diagram showing the contents of the template into which the arrival time predicted by the navigation function is inserted. FIG. 54 is a screen display diagram for displaying the screen of the mobile terminal. FIG. 55 is a diagram showing the contents of the usage prediction rules stored in the behavior prediction rule storage unit of the mobile terminal according to the modified example. FIG. 56 is a functional block diagram showing a functional configuration of the mobile terminal according to the third embodiment. FIG. 57 is a diagram showing the contents of the usage prediction rule created by the behavior pattern extraction unit. FIG. 58 is a diagram showing the contents of the behavior prediction rule held by the future location prediction unit same as above. FIG. 59 shows the contents of the power consumption table. FIG. 60 is an explanatory diagram for explaining a state in which the above-described power control unit predicts a power consumption amount. FIG. 61 is a diagram showing the transition of the remaining power of the mobile terminal. FIG. 62 is a diagram showing an example of a screen displayed on the display by the power control unit. FIG. 63 is a diagram showing an example of a map displayed on the display same as above. FIG. 64 is a flowchart showing the operation of the mobile terminal of the above. FIG. 65 is a screen display diagram of a display that preferentially displays chargeable places on the route to the destination of the above. FIG. 66 is a flowchart showing the operation of the charging location acquisition unit according to the modified example. FIG. 67 is a functional block diagram showing a functional configuration of the mobile terminal according to the fourth embodiment. FIG. 68 is a diagram showing the contents of the usage prediction rule created by the behavior pattern extraction unit. FIG. 69 is a diagram showing an example of a display for displaying the above-mentioned unheld message. FIG. 70 is a diagram showing an example of a display that displays the update message of the above. FIG. 71 is a diagram showing the contents of download location list data held by the server. FIG. 72 is a diagram showing a display for displaying the contents of the download location data. FIG. 73 is a flowchart showing the operation of the mobile terminal of the above. FIG. 74 is a flowchart showing the operation of the data acquisition location detection unit according to the modified example of sympathy.

Explanation of symbols

81 mobile terminal 105 display 106 input device 107 calendar clock 108 GPS receiving unit 110a usage history recording unit 111a usage history storage unit 201a movement history data storage unit 202a movement history recording unit 203a behavior prediction rule storage unit 204b information display control unit 205a behavior Pattern extraction unit 403 Status detection unit 802 Power control unit 803 Power detection unit 805 Charging location acquisition unit

Claims (10)

A mobile terminal that provides information to a user,
The station indicated by the text information acquired via the network is the user's destination candidate, the destination candidate storage means for storing the text information,
Boarding station detection means for detecting boarding information about the boarding station when the mobile terminal passes the ticket gate of the boarding station;
Based on the boarding information detected by the boarding station detection means, a destination prediction means for determining a station that is a destination of the user from a station indicated by text information stored in the destination candidate storage means; ,
An information providing means for providing information about the station determined by the destination prediction means. The mobile terminal further includes:
The mobile terminal according to claim 1, further comprising traffic information search means for searching for traffic information via a network and acquiring the traffic information as the text information. The traffic information search means searches the traffic information indicating a departure station and an arrival station,
The mobile terminal according to claim 2, wherein the destination candidate storage unit stores the text information indicating the departure station and the arrival station. The traffic information search means searches the traffic information indicating a departure station, an arrival station, and a route,
The destination candidate accumulation means accumulates the text information indicating the departure station, arrival station, and route,
The boarding station detection means detects the boarding information indicating the boarding station and a route of the boarding station,
The destination predicting means is based on the boarding station and route indicated by the boarding information and the departure station and route indicated by the text information stored in the destination candidate accumulating means, and the arrival station indicated by the text information. The mobile terminal according to claim 3, further comprising: determining a station to be a destination. The traffic information search means searches the traffic information indicating a departure station, an arrival station, a route, and a departure time of the departure station,
The destination candidate accumulation means accumulates the text information indicating the departure station, arrival station, route, and departure time,
The boarding station detection means detects the boarding station, route, and the boarding information indicating the current time,
The destination prediction means is based on the boarding station, route, and current time indicated by the boarding information, and the departure station, route, and departure time indicated by text information stored in the destination candidate storage means. The mobile terminal according to claim 4, further comprising: determining a destination station from an arrival station indicated by the text information. The destination candidate storage means includes the search date and time when the search is executed by the traffic information search means in the text data, and stores the text information.
The boarding station detection means detects the boarding station, route, and the boarding information indicating the current time,
The destination prediction means, among the arrival stations indicated by the text information stored in the destination candidate storage means, the departure station and the route indicated by the text information coincide with the boarding station and the route indicated by the boarding information, The mobile terminal according to claim 4, wherein an arrival station whose search date and time of the text information is close to a current date and time of the boarding information is determined as a destination station. The mobile terminal further includes:
A moving direction detecting means for detecting the moving direction of the user;
The destination predicting means includes a boarding station and route indicated by the boarding information, a moving direction detected by the moving direction detecting means, and a departure station and route indicated by text information accumulated in the destination candidate accumulating means. 5. The mobile terminal according to claim 4, wherein a destination station is determined from an arrival station indicated by the text information. The mobile terminal further includes:
The mobile terminal according to claim 1, further comprising mail communication means for receiving an electronic mail as the text information via a network. A method for providing information to a user, comprising:
An accumulation step of storing the station indicated by the text information acquired via the network as a user's destination candidate, and accumulating the text information in the destination candidate accumulating unit;
A boarding station detection step of detecting boarding information about the boarding station when the mobile terminal passes the ticket gate of the boarding station;
Based on the boarding information detected in the boarding station detection step, a destination prediction step for determining a station to be a user's destination from the station indicated by the text information stored in the destination candidate storage means; ,
An information provision method comprising: an information provision step for providing information on the station determined in the destination prediction step.   A program for causing a computer to execute the steps included in the information providing method according to claim 9.

Images