JP4260432B2 - INFORMATION PROVIDING METHOD, INFORMATION PROVIDING PROGRAM, RECORDING MEDIUM CONTAINING INFORMATION PROVIDING PROGRAM, AND INFORMATION PROVIDING DEVICE - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information providing method for presenting various kinds of information to a user based on the current position information of the user, an information providing program, a recording medium on which the information providing program is recorded, and an information providing apparatus.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, for example, in a car navigation system or a mobile phone system, a current position notification system that displays a user's current position on a map using a GPS (Global Positioning System) or the like has been provided. According to such a system, the user can grasp the geographical environment where the user is located in real time. For example, even in an unfamiliar place, the user can arrive at the destination without getting lost. .
[0003]
Further, for example, a service for providing a map via the Internet or the like is also performed. In this service, a user accesses a homepage that provides a map providing service using a computer connected to the Internet, designates an area where map information is to be obtained, and displays a map of that area. become.
[0004]
In this map providing service, a service for displaying store information and advertisements is also provided. In this service, first, an icon is displayed together with a store name or the like at a location where a store or facility for which store information or the like is provided is located on the displayed map. And the user can obtain the information regarding the store by clicking the icon of the store in which he is interested.
[0005]
[Problems to be solved by the invention]
In the current position notification system described above, the current position of the user is shown on a map. However, based on the current position of the user, some information about an object such as a store nearby is automatically presented. No such thing has been done.
[0006]
Further, in the above map providing service, the information about the store instructed by the user is provided within the range where the map is displayed by the user, but the concept such as the current position of the user is provided. There is no such thing, and it goes without saying that some information is not automatically presented based on the current location of the user.
[0007]
The present invention has been made to solve the above-described problems, and its purpose is to provide information related to a route predicted to be moved by the user to the user based on the current position of the user. An object is to provide an information providing method, an information providing apparatus, and the like that can be automatically presented.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, an information providing method according to the present invention includes a step of acquiring position information related to a user's position, and a geographical area within a predetermined range based on the acquired user's position. A step of setting a certain information acquisition area, a step of acquiring target related information relating to a target existing in the set information acquisition area, and a step of presenting the acquired target related information to the user It is characterized by that.
[0009]
In the above method, first, the position of the user is acquired, and the information acquisition area is set based on the position of the user. And the object relevant information regarding the object which exists in an information acquisition area is acquired, and this is shown to a user. That is, the information acquisition area is set as an area that the user is likely to reach in the future, and information related to the object existing in the information acquisition area is presented to the user. . Therefore, the user can obtain information on a nearby object that is likely to be required in the future, and can provide information adapted to the user's situation.
[0010]
The information providing method according to the present invention further includes a step of estimating a user's estimated future travel path based on the current position and past position of the user in the above method, and the estimated travel path The information acquisition area may be set based on the above.
[0011]
According to said method, a user's future estimated movement path | route is estimated and an information acquisition area is set based on this. When the information acquisition area is set in this way, for example, it is possible to exclude from the information acquisition area an area that is close to the current position of the user but is unlikely to move in the future. Become. Therefore, by removing unnecessary information from the information provided to the user, it is possible to provide only information that is highly likely to be required by the user.
[0012]
The information providing method according to the present invention further includes a step of estimating a future estimated traveling direction of the user based on the current position and past position of the user in the above method, and the estimated traveling direction The estimated moving route may be estimated based on the above.
[0013]
According to the above method, the estimated future traveling direction of the user is estimated based on the current position and the past position of the user, and the estimated moving path is estimated based on the estimated traveling direction. . That is, it is possible to estimate the estimated movement path more accurately by estimating the estimated movement path based on the direction that the user will proceed in the future.
[0014]
The information providing method according to the present invention further includes a step of recording a history of the position of the user in the above method, and based on the recorded history of the position of the user, It is good also as a method of estimating an estimated movement path | route.
[0015]
According to the above method, it is possible to grasp, for example, the tendency of the user's movement by referring to the history of the user's position. Therefore, by estimating the estimated movement route based on the history of the user's position, it is possible to estimate the estimated movement route of the user more accurately.
[0016]
The information providing method according to the present invention includes a step of extracting a past movement route that has passed through the current position of the user in the past based on the history of the position of the user in the above method, and the extracted past It is good also as a method which further has the step which calculates | requires the frequency for every advancing direction in a movement path | route, and calculates | requires a user's future estimated movement path | route based on this frequency.
[0017]
According to the above method, when the user has passed the current position in the past, by recognizing which traveling direction the user has traveled, there is a possibility that the user may travel in the future. It becomes possible to grasp whether it is high. That is, since the estimated movement path of the user is estimated based on the tendency of the movement of the user, the estimated movement path of the user can be estimated more accurately.
[0018]
In the information providing method according to the present invention, in the above method, when acquiring the location information of the user, the date / time information indicating the current date and / or time is acquired, and the date / time information is acquired by the user. It is also possible to record as a history together with the position information.
[0019]
According to the above method, when the user's position information is recorded as a history, the date / time information is also left in the history. Therefore, since it is possible to manage the user's past movement history based on the date and time, for example, when obtaining the estimated movement route of the user, it is possible to estimate the estimated movement route including the date and time information. It becomes.
[0020]
In addition, the information providing method according to the present invention is the above-described method, wherein the user's position and date / time information history are set based on the current time based on the user's location and date / time information history. A step of extracting a past movement route that has passed through the current position in the past, a step of obtaining a frequency for each traveling direction in the extracted past movement route, and a step of obtaining a future estimated movement route of the user based on the frequency. Furthermore, it is good also as the method which has.
[0021]
According to the above method, the past movement route that has passed through the user's current position in the past within the range of the date and / or time set based on the current time is extracted, and the past movement route extracted here is extracted. Based on the trend, the future travel route of the user is required. Therefore, for example, when the user has a different movement tendency depending on the time zone, the estimated movement route can be estimated more accurately.
[0022]
Further, in the information providing method according to the present invention, in the above method, the object related information related to the object included in the category selected by the user among the acquired object related information is presented to the user. It is good also as a method.
[0023]
According to the above method, the user can obtain only the object related information included in the category by designating the category for which information is desired. Therefore, it is possible to provide only the object related information desired by the user.
[0024]
Further, the information providing method according to the present invention further includes a step of estimating an estimated time required for reaching the object of the object related information presented to the user from the current position of the user in the above method. It is good also as the method which has.
[0025]
According to the method described above, for example, it is possible to include the time required to reach the target object in the target object related information presented to the user. Therefore, the user can grasp how far away the object corresponding to the obtained object related information is.
[0026]
In addition, the information providing method according to the present invention is the above-described method, in which, when the object is a transportation facility for using transportation facilities, the transportation facility in the vicinity of the time after the required time from the current time. The timetable may be presented to the user.
[0027]
According to the method described above, the user can obtain information on a nearby traffic facility, for example, and can also obtain information on a timetable near the expected time to reach the traffic facility. Thus, for example, when there are multiple traffic facilities in the vicinity, the user can obtain information such as which traffic facility to use to reach the destination earliest after considering the timetable. It becomes.
[0028]
The information providing method according to the present invention may be a method in which the information acquisition area is set based on the estimated required time in the above method.
[0029]
According to the above method, only the object related information of the object in a place where the user can move within a predetermined time from the current position is presented to the user. Therefore, it is possible to provide only the information required for the user at present and in the near future.
[0030]
The information providing method according to the present invention may be a method in which, in the above method, the information acquisition area is set in a range in which the estimated required time is within a predetermined time designated by a user.
[0031]
According to the above method, the user can set the information to be provided as information about a location that can be reached within the future, so that the range desired by the user can be set. It is possible to provide only the object-related information within.
[0032]
Further, the information providing method according to the present invention may be a method in which, in the above method, the information acquisition area is set based on a distance from the current position of the user.
[0033]
According to the above method, only the object related information of the object within the predetermined distance from the current position of the user is presented to the user. Therefore, it is possible to provide only the information required for the user at present and in the near future.
[0034]
Also, the information providing method according to the present invention is a method in which, in the above method, the information acquisition area is set within a range in which the distance from the current position of the user is within a predetermined distance set by the user. It is good.
[0035]
According to the above method, the user can set how much distance the user is provided from the current position, so that the range desired by the user can be set. It is possible to provide only the object-related information within.
[0036]
The information providing method according to the present invention further includes a step of storing the estimated travel route estimated in the past in the above method, and an estimated travel route estimated in the past, an estimated travel route estimated in the past, It is good also as a method of acquiring the object relevant information regarding the object which exists in the said information acquisition area set based on the estimated movement path | route currently estimated only when they differ.
[0037]
According to the above method, only when the currently estimated estimated travel route is different from the estimated travel route estimated in the past, the information acquisition area set based on the currently estimated estimated travel route Since the object related information is acquired, the operation for acquiring the object related information can be minimized. Therefore, it is possible to reduce the processing burden on the information providing apparatus.
[0038]
In addition, the information providing method according to the present invention further includes a step of storing the acquired object related information in the above method, and the object related information stored for the object is newly acquired. Only when the target related information is different from the target related information, the newly acquired target related information may be presented to the user.
[0039]
According to the above method, only when the object-related information stored for a certain object is different from the newly acquired object-related information, the newly acquired object-related information is sent to the user. Since the information is presented, it is possible to prevent the same information from being presented many times to the user.
[0040]
The information providing method according to the present invention may be a method for acquiring the object related information from an external device by communication in the above method.
[0041]
According to the above method, the object related information is acquired from the external device by communication, so that it is not necessary to maintain a database related to the object related information in the information providing device. Therefore, the apparatus cost in the information providing apparatus can be reduced. Also, if the object-related information is updated to the latest information in the external device, the user can always obtain fresh information.
[0042]
An information providing program according to the present invention causes a computer to execute the information providing method according to the present invention.
[0043]
By loading the program into the computer system, the information providing method can be provided to the user.
[0044]
Also, a recording medium on which an information providing program according to the present invention is recorded is characterized in that an information providing program for causing a computer to execute the above information providing method is recorded.
[0045]
By loading the program recorded on the recording medium into the computer system, the information providing method can be provided to the user.
[0046]
Further, the information providing apparatus according to the present invention includes a position information acquisition unit that acquires position information related to the position of the user, and an information acquisition area that is a geographical area within a predetermined range based on the acquired position of the user. A range setting unit for setting a target, an information acquisition unit for acquiring target related information regarding a target existing in the set information acquisition area, and an information presenting unit for presenting the acquired target related information to the user It is characterized by having.
[0047]
In the above configuration, first, the position of the user is acquired by the position information acquisition unit, and the information acquisition area is set by the range setting unit based on the position of the user. And the object relevant information regarding the object which exists in an information acquisition area is acquired by an information acquisition part, and this is shown to a user by an information presentation part. That is, the information acquisition area is set as an area that the user is likely to reach in the future, and information related to the object existing in the information acquisition area is presented to the user. . Therefore, the user can obtain information on a nearby object that is likely to be required in the future, and can provide information adapted to the user's situation.
[0048]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
An embodiment of the present invention will be described below with reference to FIGS.
[0049]
The information providing apparatus according to the present embodiment provides information within a specific range from the current position of the user. FIG. 1 is a functional block diagram showing a schematic configuration of the information providing apparatus 1. As shown in the figure, the information providing apparatus 1 includes a position information acquisition unit 2, a range setting unit 3, an information acquisition unit 4, an information DB (database) 5, an information presentation unit 6, and a memory 7. It has become.
[0050]
The position information acquisition unit 2 performs processing for acquiring the current position of the user who uses the information providing apparatus 1 by receiving information from the external apparatus. Here, examples of the external device include a GPS (Global Positioning System) device 8, a mobile phone 9, and a PHS (registered trademark) phone 10, as shown in FIG. The GPS device 8 is a device that acquires the current position of the user using GPS. When the mobile phone 9 is used, the current position of the user is acquired from a mobile phone with a built-in GPS function, for example. When using the PHS telephone 10, for example, the current position of the user is acquired by using a position information acquisition service in the PHS. The current position information of the user acquired by the position information acquisition unit 2 is stored in the memory 7.
[0051]
The external device is not limited to the above example, and any external device may be used as long as it can acquire the current position of the user. The position information acquisition unit 2 itself may include a position information acquisition function such as a GPS function.
[0052]
The range setting unit 3 reads the current location information of the user acquired by the location information acquisition unit 2 from the memory 7, and sets a location area consisting of a specific range as an information acquisition area based on the read current location information. The processing is performed. Information on the information acquisition area set by the range setting unit 3 is stored in the memory 7.
[0053]
The information acquisition unit 4 reads information related to the information acquisition area set by the range setting unit 3 from the memory 7 and acquires information related to the object existing in the read information acquisition area from the information DB 5. The processing is performed. Information related to the object acquired by the information acquisition unit 4 is stored in the memory 7.
[0054]
The information presentation unit 6 reads information related to the object acquired by the information acquisition unit 4 and stored in the memory 7 and performs a process of presenting the information to the user.
[0055]
The information providing apparatus 1 configured as described above can be realized in various forms. For example, the information providing apparatus 1 can be configured by a terminal device that can be carried by the user, such as a PDA (Personal Digital Assistant) terminal or a notebook PC. Further, the mobile phone or the PHS phone itself may constitute the information providing apparatus 1. Further, the information providing apparatus 1 may be configured by a car navigation system mounted on an automobile or the like.
[0056]
In addition, each of the above-described configurations, that is, the position information acquisition unit 2, the range setting unit 3, the information acquisition unit 4, and the information presentation unit 6 is an information providing program that allows the computer constituting the information providing device 1 to realize the corresponding function. The processing may be performed by executing. This information providing program is recorded on a recording medium provided in the information providing apparatus 1, for example, a non-volatile recording medium such as a hard disk device or a flash EEPROM (electrically erasable programmable read only memory), and is read into the work memory at the time of execution. Will be executed.
[0057]
If the information providing apparatus 1 has a communication function, the information providing program may be downloaded via a communication unit and executed to implement each functional block. .
[0058]
Furthermore, the information providing apparatus 1 may be a system realized by a server computer (hereinafter referred to as an ASP server) that constitutes an application service provider. That is, the user has a terminal device having a communication function, and by accessing the ASP server through the terminal device, the processing in each functional block is performed by the ASP server, and the result is sent to the terminal device. Such a form may be sufficient.
[0059]
Moreover, although said information DB5 may be recorded on the non-volatile recording medium with which the information provision apparatus 1 is equipped, when the information provision apparatus 1 is provided with a communication function, The information DB 5 may be provided in an external computer or information recording device, and the information acquisition unit 4 may access the information DB 5 via communication when necessary to obtain information. Even when the information providing apparatus 1 includes the information DB 5, it may be possible to update information recorded in the information DB 5 by obtaining data from an external apparatus through communication.
[0060]
Next, the flow of processing in the information providing apparatus will be described below with reference to the flowchart shown in FIG. First, in step 1 (hereinafter referred to as S1), the position information acquisition unit 2 acquires information about the current position of the user and stores it in the memory 7.
[0061]
Next, in S2, the current position information is read from the memory 7 by the range setting unit 3, and an information acquisition area is set based on the current position information. As this information acquisition area, for example, an area that is within a certain distance from the current position of the user is set.
[0062]
The information acquisition area may be set as an area where the arrival time from the current position of the user is within a predetermined time, or may be set according to other criteria. Moreover, the reference | standard which determines an information acquisition area may be preset, and a reference | standard may be set by the user.
[0063]
Next, in S3, information related to the object is acquired from the information DB 5 by the information acquisition unit 4. Then, it is determined whether or not the position information of the information related to the object acquired in S3 is included in the information acquisition area set by the range setting unit 3 and stored in the memory 7 in S2 ( S4).
[0064]
If YES in S4, that is, if it is determined that the position information of the acquired object related information is within the information acquisition area, the corresponding object related information is stored in the memory 7 (S5). On the other hand, if NO in S4, that is, if it is determined that the position information of the acquired object-related information is not within the information acquisition area, it is determined that the relevant object-related information is unnecessary at the present time, The process proceeds to the next step S6.
[0065]
In the above example, the object-related information is selected based on the position information. However, when the category of information desired by the user is set, for example, The object related information may be selected. It is also possible to sort object related information according to various other conditions.
[0066]
In S6, it is determined whether or not all the object related information stored in the information DB 5 has been collated. If NO in S6, that is, if unmatched data exists, the process returns to step 3 and the matching process is repeated.
[0067]
On the other hand, if YES in S6, that is, if it is determined that all the object related information stored in the information DB 5 has been collated, the selected object related information stored in the memory 7 is presented as information in S7. It is read by the unit 6 and presented to the user.
[0068]
FIG. 3 shows an example of a map showing the current position of the user assumed in the present embodiment and the surrounding area. First, when the position information acquisition unit 2 acquires information on the current position of the user in S1 described above, the user position UP shown in FIG. 3 is specified based on this information. If the information acquisition area is set by the range setting unit 3 according to the distance from the current position of the user in the above S2, the inside of a circle with a radius R centered on the user position UP shown in FIG. The area is specified as the information acquisition area.
[0069]
Next, when the object-related information is acquired from the information DB 5 in the above S3 by the information income unit 4, the objects OA1 to OA3, OB1 shown in FIG. 3 are based on the position information of these object-related information. -The position of OB2, OC1, and OC2 is specified. In S4 and S5, the objects OA1, OA2, OB1, and OC1 included in the information acquisition area are specified, and information related to these objects is presented to the user by the information presentation unit 6. The
[0070]
Here, for example, it is assumed that the objects OA1 to OA3 indicate restaurants, the objects OB1 and OB2 indicate rental video shops, and the objects OC1 and OC2 indicate convenience stores. In this case, for example, assuming that the category of desired information is specified by the user in the restaurant, the objects OA1 and OA2 included in the information acquisition area are presented to the user by the information presentation unit 6. Will be.
[0071]
(Embodiment 2)
The following will describe another embodiment of the present invention with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structure which has the function similar to the structure demonstrated in above-mentioned Embodiment 1, and the description is abbreviate | omitted.
[0072]
The information providing apparatus according to the present embodiment estimates the traveling direction of the user from the current position of the user and sets an information acquisition area based on the estimated traveling direction. FIG. 4 is a functional block diagram illustrating a schematic configuration of the information providing apparatus according to the present embodiment. As shown in the figure, the information providing apparatus 1 includes a position information acquisition unit 2, a range setting unit 3, an information acquisition unit 4, an information DB 5, an information presentation unit 6, a memory 7, and a traveling direction estimation unit 11. It has a configuration. Here, since the position information acquisition unit 2, the range setting unit 3, the information acquisition unit 4, the information DB 5, the information presentation unit 6, and the memory 7 are substantially the same as those described in the first embodiment, Then, the explanation is omitted.
[0073]
The traveling direction estimation unit 11 performs processing for estimating the traveling direction of the user based on the change in the current position of the user stored in the memory 7. In the present embodiment, the traveling direction is estimated using the position shift until just before the user. However, the traveling direction is estimated using information from another method or an external device such as an acceleration sensor or a gyroscope. May be estimated. The user's travel direction information estimated by the travel direction estimation unit 11 is stored in the memory 7 and used for the range setting unit 3.
[0074]
Next, the flow of processing in the information providing apparatus will be described below with reference to the flowchart shown in FIG. First, in S <b> 11, information regarding the current position of the user is acquired by the position information acquisition unit 2 and stored in the memory 7. Here, it is assumed that a predetermined amount of the history of the current position information of the user is stored in the memory 7.
[0075]
In step S12, the traveling direction estimation unit 11 reads the history of the current position information of the user stored in the memory 7, and the traveling direction of the user is estimated based on the history. Information relating to the estimated traveling direction of the user is stored in the memory 7.
[0076]
Next, in S13, the current position information and the traveling direction information are read from the memory 7 by the range setting unit 3, and an information acquisition area is set based on the current position information and the traveling direction information. As this information acquisition area, for example, an area within a certain distance from the current position of the user and in the vicinity of the estimated traveling direction of the user is set.
[0077]
In addition, this information acquisition area may be set based on the arrival time from a user's present position, for example, and may be set by another reference | standard. Moreover, the reference | standard which determines an information acquisition area may be preset, and a reference | standard may be set by the user.
[0078]
Next, in S14, the information acquisition unit 4 acquires information related to the object from the information DB 5. Then, it is determined whether or not the position information of the information related to the object acquired in S14 is included in the information acquisition area set by the range setting unit 3 in S13 and stored in the memory 7 ( S15).
[0079]
If YES in S15, that is, if it is determined that the position information of the acquired object related information is within the information acquisition area, the object related information is stored in the memory 7 (S16). On the other hand, if NO in S15, that is, if it is determined that the position information of the acquired object-related information is not within the information acquisition area, it is determined that the relevant object-related information is unnecessary at the present time, The process proceeds to the next step S17.
[0080]
In the above example, the object related information is selected based on the position information. However, as described above, the object related information is selected according to the category set by the user and other various conditions. It is also possible to do so.
[0081]
In S17, it is determined whether or not all the object related information stored in the information DB 5 has been collated. If NO in S17, that is, if unmatched data exists, the process returns to S14 and the matching process is repeated.
[0082]
On the other hand, if YES in S17, that is, if it is determined that all the object-related information stored in the information DB 5 has been collated, the selected object-related information stored in the memory 7 is presented as information in S18. It is read by the unit 6 and presented to the user.
[0083]
FIG. 6 is a map showing the current position of the user and the surrounding area. First, when the position information acquisition unit 2 acquires information on the current position of the user in S11, the user position UP shown in FIG. 6 is specified based on this information. Further, a history of the user's current position information is acquired as a user locus RH. Then, the traveling direction estimation unit 11 estimates that the traveling direction of the user is eastward based on the user trajectory RH.
[0084]
Thereafter, when the information acquisition area is set by the range setting unit 3 according to the distance from the current position of the user and the traveling direction in S13, a circle with a radius R centered on the user position UP shown in FIG. Among these, a sector-shaped inner region that is within a predetermined angle range with respect to the estimated traveling direction is specified as the information acquisition area.
[0085]
Next, when the object-related information is acquired from the information DB 5 in the above S14 by the information income unit 4, the objects OA1 to OA3, OB1 shown in FIG. 6 are based on the position information of these object-related information. -The position of OB2, OC1, and OC2 is specified. And in said S15 and S16, target object OA1 contained in an information acquisition area is specified, and the information relevant to these target objects is shown with respect to a user by the information presentation part 6. FIG.
[0086]
Here, for example, as described above, the objects OA1 to OA3 indicate restaurants, the objects OB1 and OB2 indicate rental video shops, and the objects OC1 and OC2 indicate convenience stores. To do. In this case, for example, assuming that the category of desired information is specified in the restaurant by the user, the object OA2 included in the information acquisition area is presented to the user by the information presentation unit 6. become.
[0087]
Note that the estimated route estimated based on the estimated direction is stored in the memory 7, and the estimated route stored in the memory 7 is compared with the current estimated route only when the route is different. If the product related information is acquired, it is possible to reduce the trouble of acquiring the information.
[0088]
Also, record the update date and time of the object related information presented to the user, and present that information only if the currently acquired object related information is different from the update date of the previously presented object related information. By doing so, it is possible to avoid the trouble of repeatedly presenting the same information to the user.
[0089]
(Embodiment 3)
The following will describe still another embodiment of the present invention with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structure which has the function similar to the structure demonstrated in each above-mentioned embodiment, and the description is abbreviate | omitted.
[0090]
The information providing apparatus according to the present embodiment estimates a future user's movement route based on a past user's movement route, and sets an information acquisition area based on the estimated route. . FIG. 7 is a functional block diagram illustrating a schematic configuration of the information providing apparatus according to the present embodiment. As shown in the figure, the information providing apparatus 1 includes a position information acquisition unit 2, a range setting unit 3, an information acquisition unit 4, an information DB 5, an information presentation unit 6, a memory 7, a route estimation unit 12, and a position information DB 13 It is the composition provided with. Here, since the position information acquisition unit 2, the range setting unit 3, the information acquisition unit 4, the information DB 5, the information presentation unit 6, and the memory 7 are substantially the same as those described in the first embodiment, Then, the explanation is omitted.
[0091]
The position information DB 13 stores a history of user position information acquired by the position information acquisition unit 2. That is, every time the user's position information is acquired by the position information acquisition unit 2, the position information is stored in the position information DB 13. Thereby, the history of the user's movement route is stored in the position information DB 13.
[0092]
The position information DB 13 may be recorded on a non-volatile recording medium provided in the information providing apparatus 1. However, when the information providing apparatus 1 is provided with a communication function, The position information DB 13 may be provided in an external computer or information recording device, and the information acquisition unit 4 may access the position information DB 13 via communication and record and read information when necessary.
[0093]
The route estimation unit 12 performs a process of estimating the user's future travel route based on the user's travel route history stored in the position information DB 13. As a method for estimating the movement route, for example, the following method can be cited. First, a history of past movement paths that have passed through the current user's position is selected, and the frequency of the movement direction when the current user's position in these movement paths has passed is examined. Then, the travel route that is the most frequently traveled direction is set as the estimated travel route of the future user. The user's movement route information estimated by the route estimation unit 12 is stored in the memory 7 and used for the range setting unit 3.
[0094]
Next, the flow of processing in the information providing apparatus will be described below with reference to the flowchart shown in FIG. First, in S <b> 21, the position information acquisition unit 2 acquires information about the current position of the user and stores it in the memory 7. Thereafter, in S22, the position information of the user acquired by the position information acquisition unit 2 is recorded in the position information DB 13.
[0095]
In step S23, the route estimation unit 12 reads the history of the user's travel route stored in the position information DB 13, and based on this, the user's future travel route is estimated. Information on the user's travel route estimated here is stored in the memory 7.
[0096]
Next, in S24, the current position information and the movement route information are read from the memory 7 by the range setting unit 3, and an information acquisition area is set based on the current position information and the movement route information. As this information acquisition area, for example, an area within a certain distance from the current position of the user and in the vicinity of the estimated movement route of the user is set.
[0097]
In addition, this information acquisition area may be set based on the arrival time from a user's present position, for example, and may be set by another reference | standard. Moreover, the reference | standard which determines an information acquisition area may be preset, and a reference | standard may be set by the user.
[0098]
Next, in S25, the information acquisition unit 4 acquires information related to the object from the information DB 5. Then, it is determined whether or not the position information of the information related to the object acquired in S25 is included in the information acquisition area set by the range setting unit 3 and stored in the memory 7 in S24 ( S26).
[0099]
If YES in S26, that is, if it is determined that the position information of the acquired object related information is within the information acquisition area, the corresponding object related information is stored in the memory 7 (S27). On the other hand, if NO in S26, that is, if it is determined that the position information of the acquired object-related information is not within the information acquisition area, it is determined that the relevant object-related information is unnecessary at the present time, The process proceeds to the next step S28.
[0100]
In the above example, the object related information is selected based on the position information. However, as described above, the object related information is selected according to the category set by the user and other various conditions. It is also possible to do so.
[0101]
In S28, it is determined whether or not all the object related information stored in the information DB 5 has been collated. If NO in S28, that is, if unmatched data exists, the process returns to S25 to repeat the matching process.
[0102]
On the other hand, if YES in S28, that is, if it is determined that all the object-related information stored in the information DB 5 has been collated, the selected object-related information stored in the memory 7 is presented as information in S29. It is read by the unit 6 and presented to the user.
[0103]
FIG. 9 is a map showing the current position of the user and the surrounding area. First, when the position information acquisition unit 2 acquires information on the current position of the user in S21 described above, the user position UP shown in FIG. 9 is specified based on this information. In addition, the history of the movement route of the user is read from the position information DB 13 and acquired as the movement routes R1 to R6.
[0104]
Here, of the travel routes R1 to R6 shown in FIG. 9, the routes that have passed the user position UP are travel routes R1, R2, R4, and R6. Regarding the four moving routes, when the frequency is taken into consideration with reference to the moving direction, there are three moving routes moving eastward and one moving route moving westward. Therefore, when such a travel route history is obtained, the route estimation unit 12 estimates the most frequent east direction as the direction of the future travel route, and sets the future travel route to the user position UP. Estimated to be an east-facing route.
[0105]
Thereafter, when the information acquisition area is set by the range setting unit 3 in S24 described above based on the distance from the user's current position and the estimated movement route, the radius R centered on the user position UP shown in FIG. Of the circle, a fan-shaped inner region that is within a predetermined angle range with respect to the estimated movement path is specified as the information acquisition area.
[0106]
Next, when the object-related information is acquired from the information DB 5 in S25 described above by the information income unit 4, the objects OA1 to OA3 and OB1 shown in FIG. 9 are based on the position information of these object-related information. -The position of OB2, OC1, and OC2 is specified. And in said S26 and S27, target object OA1 contained in an information acquisition area is specified, and the information relevant to these target objects is shown with respect to a user by the information presentation part 6. FIG.
[0107]
Here, for example, similarly to the above, the objects OA1 to OA3 indicate restaurants, the objects OB1 and OB2 indicate rental video shops, and the objects OC1 and OC2 indicate convenience stores. To do. In this case, for example, assuming that the category of desired information is specified in the restaurant by the user, the object OA2 included in the information acquisition area is presented to the user by the information presentation unit 6. become.
[0108]
As described above, the estimated movement route is stored in the memory 7, and only when the estimated movement route stored in the memory 7 is different from the current estimated movement route, If the product related information is acquired, it is possible to reduce the trouble of acquiring the information.
[0109]
In the same way as above, the update date and time of the object related information presented to the user is recorded, and only when the currently acquired object related information and the update date and time of the previously presented object related information are different. If the information is presented, it is possible to avoid the trouble of repeatedly presenting the same information to the user.
[0110]
(Embodiment 4)
The following will describe still another embodiment of the present invention with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structure which has the function similar to the structure demonstrated in each above-mentioned embodiment, and the description is abbreviate | omitted.
[0111]
The information providing apparatus according to the present embodiment estimates a user's future travel route based on the user's past travel route and the time when the travel route has passed, and obtains an information acquisition area based on the estimated travel route. It is intended to set. FIG. 10 is a functional block diagram showing a schematic configuration of the information providing apparatus according to the present embodiment. As shown in the figure, the information providing apparatus 1 includes a position information acquisition unit 2, a range setting unit 3, an information acquisition unit 4, an information DB 5, an information presentation unit 6, a memory 7, a route estimation unit 12, a position information DB 13, The time information acquisition unit 14 is provided. Here, the position information acquisition unit 2, the range setting unit 3, the information acquisition unit 4, the information DB 5, the information presentation unit 6, the memory 7, the route estimation unit 12, and the position information DB 13 have been described in the above-described third embodiment. Since the configuration is substantially the same, the description thereof is omitted here.
[0112]
When the position information acquisition unit 2 acquires current position information, the time information acquisition unit 14 performs processing for acquiring time information at that time in synchronization with the position information acquisition unit 2. The time information acquired by the time information acquisition unit 14 is recorded in the position information DB 13 together with the position information acquired by the position information acquisition unit 2. Then, based on the user's past location information and time information stored in the location information DB 13, the route estimation unit 12 estimates the user's future travel route.
[0113]
Next, the flow of processing in the information providing apparatus will be described below with reference to the flowchart shown in FIG. First, in S <b> 31, information regarding the current position of the user is acquired by the position information acquisition unit 2 and stored in the memory 7. In S <b> 32, the time information acquisition unit 14 acquires time information when the current position of the user is acquired by the position information acquisition unit 2. Thereafter, in S33, the user's position information acquired by the position information acquisition unit 2 and the time information acquired by the time information acquisition unit 14 are recorded in the position information DB 13.
[0114]
In step S34, the route estimation unit 12 reads the user's travel route and the history of the time stored in the position information DB 13, and based on this, the user's future travel route is estimated. Information on the user's travel route estimated here is stored in the memory 7.
[0115]
Next, in S35, the current position information and the movement route information are read from the memory 7 by the range setting unit 3, and an information acquisition area is set based on the current position information and the movement route information. As this information acquisition area, for example, an area within a certain distance from the current position of the user and in the vicinity of the estimated movement route of the user is set.
[0116]
In addition, this information acquisition area may be set based on the arrival time from a user's present position, for example, and may be set by another reference | standard. Moreover, the reference | standard which determines an information acquisition area may be preset, and a reference | standard may be set by the user.
[0117]
Next, in S36, information related to the object is acquired from the information DB 5 by the information acquisition unit 4. Then, it is determined whether or not the position information of the information related to the object acquired in S36 is included in the information acquisition area set by the range setting unit 3 and stored in the memory 7 in S35 ( S37).
[0118]
If YES in S37, that is, if it is determined that the position information of the acquired object related information is within the information acquisition area, the object related information is stored in the memory 7 (S38). On the other hand, if NO in S37, that is, if it is determined that the position information of the acquired object related information is not within the information acquisition area, it is determined that the relevant object related information is unnecessary at the present time, The process proceeds to the next step S39.
[0119]
In the above example, the object related information is selected based on the position information. However, as described above, the object related information is selected according to the category set by the user and other various conditions. It is also possible to do so.
[0120]
In S39, it is determined whether or not all the object related information stored in the information DB 5 has been collated. If NO in S398, that is, if there is unmatched data, the process returns to S36 and the matching process is repeated.
[0121]
On the other hand, if YES in S39, that is, if it is determined that all the object-related information stored in the information DB 5 has been collated, the selected object-related information stored in the memory 7 is presented as information in S40. It is read by the unit 6 and presented to the user.
[0122]
FIG. 12A is a map showing the current position of the user and the surrounding area. First, when the position information acquisition unit 2 acquires information on the current position of the user in S31, the user position UP shown in FIG. 12A is specified based on this information. In addition, the history of the user's travel route is read from the position information DB 13 and acquired as travel routes R1 to R7. Furthermore, the time information for each acquired travel route is read from the position information DB 13, and as shown in FIG. 12 (b), each travel route and the time when the travel route passed are acquired.
[0123]
Thereafter, the route estimation unit 12 extracts a travel route having a passing time within a predetermined time difference from the current time from the acquired travel route history, and based on this, the future travel route of the user is extracted. Estimate As an example, assume that the current time is 10:05, and the predetermined time difference from the current time is 30 minutes. In this case, the travel routes R1, R2, R6, and R7 are extracted as travel routes that have passed the current position based on FIG. 12A, and from these, the current time is determined based on FIG. 12B. Movement paths R1, R6, and R7 are extracted as movement paths that have passed within 30 minutes before and after.
[0124]
With regard to these three movement routes, when the frequency is taken into consideration with reference to the movement direction, the movement route moving in the east direction is one route, and the movement route moving in the west direction is two routes. Therefore, in this case, the route estimation unit 12 estimates the westward direction with the highest frequency as the direction of the future moving route, and estimates the future moving route as the westward route from the user position UP.
[0125]
Thereafter, when the information acquisition area is set by the distance from the user's current position and the estimated movement route by the range setting unit 3 in S35 described above, the user position UP shown in FIG. Of the circles having a radius R, a fan-shaped internal region that is within a predetermined angle range with respect to the estimated movement route is specified as the information acquisition area.
[0126]
Next, when the object-related information is acquired from the information DB 5 in the above S36 by the information income unit 4, the objects OA1 to OA1 shown in FIG. 12 (a) are obtained based on the position information of these object-related information. The positions of OA3, OB1, OB2, and OC1, OC2 are specified. And in said S37 and S38, the target object OB1 contained in an information acquisition area is specified, and the information relevant to these target objects is shown with respect to a user by the information presentation part 6. FIG.
[0127]
Here, for example, similarly to the above, the objects OA1 to OA3 indicate restaurants, the objects OB1 and OB2 indicate rental video shops, and the objects OC1 and OC2 indicate convenience stores. To do. In this case, for example, if a user specifies a category of desired information as a restaurant, the information acquisition area does not include an object whose category is a restaurant. The information presenting unit 6 will present to the user that there is no error.
[0128]
As described above, the estimated movement route is stored in the memory 7, and only when the estimated movement route stored in the memory 7 is different from the current estimated movement route, If the product related information is acquired, it is possible to reduce the trouble of acquiring the information.
[0129]
In the same way as above, the update date and time of the object related information presented to the user is recorded, and only when the currently acquired object related information and the update date and time of the previously presented object related information are different. If the information is presented, it is possible to avoid the trouble of repeatedly presenting the same information to the user.
[0130]
(Embodiment 5)
The following will describe still another embodiment of the present invention with reference to FIG. 13 and FIG. In addition, the same code | symbol is attached | subjected to the structure which has the function similar to the structure demonstrated in each above-mentioned embodiment, and the description is abbreviate | omitted.
[0131]
The information providing apparatus according to the present embodiment, when the object for which information is acquired is a transportation facility for using transportation facilities, for example, a transportation facility such as a train station, a bus stop, a port, and an airfield, The time required to the facility is estimated, and a timetable of transportation facilities that can be used by the transportation facility before and after the estimated arrival time is provided to the user. FIG. 13 is a functional block diagram illustrating a schematic configuration of the information providing apparatus according to the present embodiment. As shown in FIG. 1, the information providing apparatus 1 includes a position information acquisition unit 2, a range setting unit 3, an information acquisition unit 4, an information DB 5, an information presentation unit 6, a memory 7, and a required time estimation unit 15. It has a configuration. Here, since the position information acquisition unit 2, the range setting unit 3, the information acquisition unit 4, the information DB 5, the information presentation unit 6, and the memory 7 are substantially the same as those described in the first embodiment, Then, the explanation is omitted.
[0132]
The required time estimation unit 15 performs processing for estimating a required time from the current position of the user to an object for which information should be presented to the user. The required time can be estimated based on, for example, the distance from the current position of the user to the object and the moving average speed of the user. Here, the moving average speed of the user may be calculated based on, for example, a history of the position information of the user and the time from a current time to a predetermined time before, for example, The moving average speed may be set in advance according to walking, traveling by car, or the like, and the current moving state may be set by the user.
[0133]
Next, the flow of processing in the information providing apparatus will be described below with reference to the flowchart shown in FIG. First, in S <b> 41, the position information acquisition unit 2 acquires information about the current position of the user and stores it in the memory 7. Here, it is assumed that a predetermined amount of the history of the current position information of the user is stored in the memory 7.
[0134]
Next, in S42, the current position information is read from the memory 7 by the range setting unit 3, and an information acquisition area is set based on the current position information. As this information acquisition area, for example, an area that is within a certain distance from the current position of the user is set.
[0135]
The information acquisition area may be set as an area where the arrival time from the current position of the user is within a predetermined time, or may be set according to other criteria. Moreover, the reference | standard which determines an information acquisition area may be preset, and a reference | standard may be set by the user.
[0136]
Next, in S43, the information acquisition unit 4 acquires information related to the object from the information DB 5. Then, it is determined whether or not the position information of the information related to the object acquired in S43 is included in the information acquisition area set by the range setting unit 3 and stored in the memory 7 in S42 ( S44).
[0137]
If YES in S44, that is, if it is determined that the position information of the acquired object related information is within the information acquisition area, it is determined whether or not the corresponding object is a transportation facility (S45). If YES in S45, that is, if the target object is a traffic facility, the required time estimation unit 15 calculates the required time from the current position of the user to the target object (traffic facility) (S46). Then, the arrival time of the user to the target object is obtained based on the required time, and the timetable of the transportation facility that can be used by the transportation facility before and after the arrival time is acquired from the information DB 5 (S47). .
[0138]
If NO in S45, that is, if the target object is not a traffic facility, the target object related information is stored in the memory 7, and if the target object is a traffic facility, the target object related information is displayed. In addition, the transportation timetable acquired in S47 is stored in the memory 7 (S48).
[0139]
On the other hand, if NO in S44, that is, if it is determined that the position information of the acquired object-related information is not within the information acquisition area, it is determined that the relevant object-related information is unnecessary at the present time, The process proceeds to the next step S49.
[0140]
In the above example, the object-related information is selected based on the position information. However, when the category of information desired by the user is set, for example, The object related information may be selected. It is also possible to sort object related information according to various other conditions.
[0141]
In S49, it is determined whether or not all the object related information stored in the information DB 5 has been collated. If NO in S49, that is, if there is unmatched data, the process returns to S43 and the matching process is repeated.
[0142]
On the other hand, if YES in S49, that is, if it is determined that all the object related information stored in the information DB 5 has been collated, the selected object related information stored in the memory 7 is presented as information in S50. It is read by the unit 6 and presented to the user.
[0143]
In the present embodiment, the configuration in which the required time estimation unit 15 is provided in the configuration shown in the first embodiment has been described. However, the required time estimation unit 15 has the configuration shown in each of the second to fourth embodiments. Of course, it is also possible to provide it.
[0144]
The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the claims, and the technical means disclosed in different embodiments can be appropriately combined. Embodiments are also included in the technical scope of the present invention.
[0145]
【The invention's effect】
As described above, the information providing method according to the present invention includes a step of acquiring position information related to the position of the user, and an information acquisition area that is a geographical area within a predetermined range based on the acquired position of the user. , A step of acquiring object related information regarding the object existing in the set information acquisition area, and a step of presenting the acquired object related information to the user.
[0146]
Accordingly, the user can obtain information on a nearby object that is likely to be required in the future, and thus it is possible to provide information adapted to the user's situation. .
[0147]
The information providing method according to the present invention further includes a step of estimating a user's future estimated movement path based on the current position and past position of the user, and based on the estimated movement path, It is good also as a method of setting an information acquisition area.
[0148]
As a result, in addition to the effects of the above method, it is possible to provide only information that is likely to be required by the user by removing unnecessary information from the information provided to the user. The effect of becoming.
[0149]
The information providing method according to the present invention further includes a step of estimating a future estimated traveling direction of the user based on the current position and the past position of the user, and based on the estimated traveling direction, It is good also as a method of estimating an estimated movement route.
[0150]
Thereby, in addition to the effect by the above method, it is possible to estimate the estimated movement path more accurately by estimating the estimated movement path based on the direction in which the user will proceed in the future. Play.
[0151]
In addition, the information providing method according to the present invention further includes a step of recording a history of the user's position, and estimates an estimated future travel route of the user based on the recorded user's position history. It is good also as a method to do.
[0152]
As a result, in addition to the effects of the above method, for example, it is possible to grasp the tendency of the user's movement, etc., so that it is possible to estimate the user's future estimated movement route more accurately. There is an effect.
[0153]
Further, the information providing method according to the present invention includes a step of extracting a past movement route that has passed through the user's current position in the past based on the user's position history, and a traveling direction in the extracted past movement route. It is good also as a method which further has the step which calculates | requires every frequency and calculates | requires a user's future estimated movement path | route based on this frequency.
[0154]
As a result, in addition to the effects of the above method, the estimated movement path of the user is estimated based on the tendency of the movement of the user, so that the estimated movement path of the user can be estimated more accurately. There is an effect that becomes possible.
[0155]
The information providing method according to the present invention acquires date / time information indicating the current date and / or time when acquiring the user's location information, and records the date / time information together with the user's location information as a history. It is good also as a method of recording as.
[0156]
As a result, in addition to the effects of the above method, the user's past movement history can be managed by the date and time. For example, when obtaining the estimated movement route of the user, the date and time information is included. There is an effect that it is possible to estimate the estimated movement route.
[0157]
In addition, the information providing method according to the present invention provides the user's current location in the past within a date and / or time range set based on the current time based on the user's location and date / time history. A step of extracting a past movement route that has passed, and a step of obtaining a frequency for each traveling direction in the extracted past movement route, and obtaining a future estimated movement route of the user based on the frequency. It is good also as a method.
[0158]
Thereby, in addition to the effect by the above method, there is an effect that, for example, when the user has a different movement tendency depending on the time zone, the estimated movement route can be estimated more accurately. .
[0159]
In addition, the information providing method according to the present invention may be a method in which object related information related to an object included in a category selected by the user is presented to the user among the acquired object related information. .
[0160]
Thereby, in addition to the effect by said method, there exists an effect that it becomes possible to provide only the target relevant information which belongs to the category which a user desires.
[0161]
In addition, the information providing method according to the present invention further includes a step of estimating an estimated time required to reach the object of the object related information presented to the user from the current position of the user. It is good.
[0162]
Thereby, in addition to the effect by said method, there exists an effect that a user becomes possible [grasping | ascertaining how far the target object applicable to the acquired target object relevant information].
[0163]
In addition, the information providing method according to the present invention uses the timetable of the relevant transportation in the vicinity of the time after the required time from the current time when the object is a transportation facility for using the transportation. It is good also as the method of showing to a person.
[0164]
As a result, in addition to the effects of the above method, for example, when there are a plurality of transportation facilities in the vicinity, the user can use which transportation facility to reach the destination earliest after considering the timetable. It is possible to obtain information such as.
[0165]
The information providing method according to the present invention may be a method in which the information acquisition area is set based on the estimated required time.
[0166]
Thereby, in addition to the effect by said method, there exists an effect that only the information currently required in the near future can be provided with respect to a user.
[0167]
Further, the information providing method according to the present invention may be a method in which the information acquisition area is set in a range in which the estimated required time is within a predetermined time designated by the user.
[0168]
Thereby, in addition to the effect by said method, there exists an effect that it becomes possible to provide only the target relevant information within the range which a user desires.
[0169]
The information providing method according to the present invention may be a method in which the information acquisition area is set based on a distance from the current position of the user.
[0170]
Thereby, in addition to the effect by said method, there exists an effect that only the information currently required in the near future can be provided with respect to a user.
[0171]
The information providing method according to the present invention may be a method in which the information acquisition area is set in a range in which the distance from the current position of the user is within a predetermined distance set by the user.
[0172]
Thereby, in addition to the effect by said method, there exists an effect that it becomes possible to provide only the target relevant information within the range which a user desires.
[0173]
In addition, the information providing method according to the present invention further includes a step of storing the estimated movement path estimated in the past, and when the estimated movement path currently estimated is different from the estimated movement path estimated in the past. Only, it is good also as a method of acquiring the object relevant information regarding the object which exists in the said information acquisition area set based on the estimated movement path | route currently estimated.
[0174]
Thereby, in the above method, the acquisition operation of the object related information can be minimized, so that the processing burden on the information providing apparatus can be reduced.
[0175]
In addition, the information providing method according to the present invention further includes a step of storing the acquired object related information, and for a certain object, the stored object related information and the newly acquired object related information. It is good also as a method of showing newly acquired object related information to a user only when is different.
[0176]
Thereby, in said method, there exists an effect that it becomes possible to prevent that the same information is shown many times with respect to a user.
[0177]
The information providing method according to the present invention may be a method for acquiring the object-related information from an external device by communication.
[0178]
Accordingly, in the above method, it is not necessary to maintain a database related to the object related information in the information providing apparatus, and thus it is possible to reduce the apparatus cost in the information providing apparatus. Moreover, if the object related information is updated to the latest information in the external device, the user can always obtain fresh information.
[0179]
An information providing program according to the present invention causes a computer to execute the information providing method according to the present invention.
[0180]
Thus, there is an effect that the information providing method can be provided to the user by loading the program into the computer system.
[0181]
Moreover, the recording medium which recorded the information provision program which concerns on this invention is the structure which has recorded the information provision program which makes a computer perform said information provision method.
[0182]
Thus, by loading the program recorded on the recording medium into the computer system, the information providing method can be provided to the user.
[0183]
Further, the information providing apparatus according to the present invention includes a position information acquisition unit that acquires position information related to the position of the user, and an information acquisition area that is a geographical area within a predetermined range based on the acquired position of the user. A range setting unit for setting a target, an information acquisition unit for acquiring target related information regarding a target existing in the set information acquisition area, and an information presenting unit for presenting the acquired target related information to the user It is the structure which has.
[0184]
Accordingly, the user can obtain information on a nearby object that is likely to be required in the future, and thus it is possible to provide information adapted to the user's situation. .
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing a schematic configuration of an information providing apparatus according to an embodiment of the present invention.
FIG. 2 is a flowchart showing a flow of processing in the information providing apparatus.
FIG. 3 is a diagram showing an example of a map showing a current position of a user assumed in the embodiment and the surrounding area.
FIG. 4 is a functional block diagram showing a schematic configuration of an information providing apparatus according to another embodiment of the present invention.
FIG. 5 is a flowchart showing a flow of processing in the information providing apparatus.
FIG. 6 is a diagram showing an example of a map showing the current position of the user assumed in the embodiment and the surrounding area.
FIG. 7 is a functional block diagram showing a schematic configuration of an information providing apparatus according to still another embodiment of the present invention.
FIG. 8 is a flowchart showing a flow of processing in the information providing apparatus.
FIG. 9 is a diagram showing an example of a map showing a current position of a user assumed in the embodiment and an area around the current position.
FIG. 10 is a functional block diagram showing a schematic configuration of an information providing apparatus according to still another embodiment of the present invention.
FIG. 11 is a flowchart showing a flow of processing in the information providing apparatus.
FIG. 12 (a) is a diagram showing an example of a map showing the current position of the user assumed in the embodiment and the surrounding area, and FIG. 12 (b) shows each travel route and It is a table | surface which shows an example of the time which passed the movement path | route.
FIG. 13 is a functional block diagram showing a schematic configuration of an information providing apparatus according to still another embodiment of the present invention.
FIG. 14 is a flowchart showing a flow of processing in the information providing apparatus.
[Explanation of symbols]
1 Information provision device
2 Location information acquisition unit
3 Range setting section
4 Information acquisition department
5 Information DB
6 Information presentation part
7 memory
8 GPS device
9 Mobile phone
10 PHS phone
11 Traveling direction estimation unit
12 Route estimation part
13 Location information DB
14-hour information acquisition unit
15 Time required estimation part

Claims (12)

A position information acquisition unit, a route estimation unit, a range setting unit, an information acquisition unit, an information presentation unit, a position information DB, and an information providing method by an information providing device including an information DB,
The position information acquiring unit, acquiring position information indicating the current position of the user,
The position information acquisition unit records in the position information DB every time the position information is acquired ;
A step the path estimating unit, to extract from the history of the position information of the user who is recorded in the location information DB, a past movement path passing through the current position of the user in the past,
The path estimating unit obtains the frequency of the movement direction when passing through the position of the current user in the extracted past movement path, the movement paths of the most frequent movement direction, when the user moves the future and determining the estimated travel route is a route to be estimated,
The range setting unit setting an information acquisition area that is a geographical area of a predetermined range based on the estimated travel route;
In the information DB, object-related information that is information related to the object and position information of the object-related information are recorded in association with each other, and the information acquisition unit stores information from the information DB. obtaining a Target-related information becomes said positional information exists on the information set acquired area
The information providing unit includes a step of presenting the acquired object-related information to a user. In the step of acquiring the position information, the position information acquisition section, when acquiring the position information of the user, it acquires the date and time information indicating the date and / or time at that time, use of the date and time information The information providing method according to claim 1, wherein the information is recorded as a history together with the position information of the person in the position information DB . The information providing apparatus further includes a required time estimation unit,
The required time estimation unit obtains the distance from the current position of the user to the target of the target related information presented to the user, and based on the moving average speed of the user, information providing method according to claim 1 or 2, characterized in that it comprises further a step of estimating the estimated time is the time required. The information providing apparatus further includes a memory,
The information DB further stores timetables of transportation facilities that can be used by transportation facilities,
In the step of acquiring the object related information, the information acquisition unit estimates the estimated required time when the object of the object related information acquired from the information DB is a transportation facility for using a transportation facility. In the step, the required time estimation unit calculates a required time from the current position of the user to the traffic facility, obtains the arrival time of the user to the traffic facility based on the required time, and determines the arrival time. The timetable of the transportation facility that can be used by the transportation facility before and after is obtained from the information DB, and in addition to the object related information, is stored in the memory,
4. The information according to claim 3, wherein, in the step of presenting the object related information to the user, the information presentation unit reads the object related information stored in the memory and presents the information to the user. How to provide. In the step of setting the information acquisition area, the range setting unit, the information acquisition area, a range within a certain distance from the current position of the user, and that set the area to be near the estimated travel route The information providing method according to claim 1, characterized in that: The fixed distance from the current position of the user, information providing method according to claim 5, characterized in that the range of a predetermined in distance set by the user. The information providing apparatus further includes a memory,
The route estimation unit further includes a step of storing the estimated travel route estimated in the memory ,
In the step of acquiring the object related information, the information acquisition unit compares the estimated movement route stored in the memory with the estimated movement route currently estimated , and only when the route is different, estimated information providing method according to claim 1, wherein the acquiring the object-related information about an object that exists in the information acquisition area in a that is set based on the estimated travel route. The information acquisition unit further comprises the step of storing the acquired said object related information in the memory,
The information presentation unit may record update date of the object-related information presented to the user, and previously the presented object related information, only if the different Modified currently acquired object-related information 8. The information providing method according to claim 7, wherein the currently acquired object related information is presented to the user. The position information acquisition unit, the object-related information, the information providing method according to any one of claims 1 to 8, characterized in that acquired by the communication from the external device. The information provision program which makes a computer perform the information provision method as described in any one of Claims 1 thru | or 9 . It claims 1 to recording medium recording the information provision program for executing the information provision method according to the computer in any one of 9. Acquires position information indicating the current position of the user, a position information acquisition unit that records the position information DB for each to obtain the position information of the user,
From the history of the position information of the user stored in the upper Symbol location information DB, a route estimation unit for extracting a past movement path passing through the current position of the user in the past, the extracted past The frequency of the moving direction when passing the current user's position on the moving route is obtained, and the moving route having the most frequent moving direction is obtained as the estimated moving route that is estimated to be moved by the user in the future. A route estimator;
Based on the estimated travel route, a range setting unit that sets an information acquisition area that is a geographical area of a predetermined range;
Information DB in which object-related information, which is information related to the object, and position information of the object-related information are recorded in association with each other;
From the information DB, an information acquisition section that acquires become Target-related information which exists in the location information information acquisition area set,
An information providing apparatus comprising: an information presentation unit that presents the acquired object-related information to a user.

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