JP2004150853A - Information terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information terminal for extracting a targeted position (a place, an area, or the like) based on movement history and easily obtaining information related to the extracted position. <P>SOLUTION: Information corresponding to a present position positioned by a positioning part 11 is accumulated in a movement history accumulation part 14 together with time at which positioning is performed. Based on movement history information accumulated in the accumulation part 14, a targeted position (a place, an area, or the like) is extracted and the information on the position (the place, the area, or the like) is transmitted to a center device 30. Relevant information related to the position transmitted from the center device 30 is received, stored in a reception information storage part 16, and displayed on a display part 17. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information terminal device that is carried or mounted on a mobile object such as a person or a car.
[0002]
[Prior art]
2. Description of the Related Art In recent years, information terminal devices that are carried or mounted on a mobile object such as a person or a car and used to acquire and display target information via the Web, the Internet, and the like have come to be seen. .
[0003]
2. Description of the Related Art In a car navigation device mounted on a car, a Web page on the Internet can be browsed, and a location such as an address of a facility such as a hotel, a sightseeing spot, or a restaurant or a telephone number is specified from information transmitted from the Web page. The information to identify the location, such as its address and telephone number, from the server, and obtain the location information of the information that identifies the location, such as a hotel or sightseeing spot that was previously viewed on the web page based on the location information. 2. Description of the Related Art It is known to display the position of a facility such as a restaurant on a map, or to set and guide a route to the position (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-2000-337911 (page 1, FIG. 7)
[0005]
[Problems to be solved by the invention]
However, conventionally known information terminal devices of this type all manually input or select information for specifying a place such as a target hotel, sightseeing spot, restaurant, etc. However, there has been a problem in that complicated operations such as position confirmation and information confirmation must be repeated, and the operation is troublesome.
[0006]
The present invention has been made in view of such a conventional problem, and manually specifies information for specifying a target location, or selects or selects, or several times complicated position confirmation, It is an object of the present invention to provide an information terminal device capable of easily acquiring and displaying the position and information related to the position without repeating operations such as information confirmation.
[0007]
[Means for Solving the Problems]
An information terminal device according to the present invention includes: a positioning unit that measures a current position; a movement history storage unit that sequentially stores a current position measured by the positioning unit together with a current time as a movement history; and a movement stored in the movement history storage unit. Position information extracting means for extracting position information based on the history; related information obtaining means for obtaining related information related to the position information extracted by the position information extracting means; and related information obtained by the related information related means. And a display means for displaying.
[0008]
With this configuration, based on the movement history stored in the movement history storage unit, position information under predetermined conditions is automatically extracted, and related information related to the position information is automatically acquired. Therefore, for example, if a condition for extracting a living area, other positions, areas, and the like is set as a predetermined condition, positional information on the home areas, positions, areas, and the like is automatically extracted, and the home areas, the area, and the like are automatically extracted. , Related information (for example, road information, event information, landmark information, etc.) related to the location and the area can be accurately obtained.
[0009]
Further, the information terminal device of the present invention has a configuration in which the related information acquisition unit is a transmission / reception unit that transmits the position information extracted by the position information extraction unit to the center device and receives the related information from the center device. I have. With this configuration, the related information can be easily and accurately obtained from the center device.
[0010]
Further, in the information terminal device of the present invention, the related information acquiring means is an extracting means for extracting the related information from the information received by the broadcast receiving means based on the position information extracted by the position information extracting means. It has a configuration. With this configuration, the related information can be obtained from the information received by the broadcast receiving unit.
[0011]
Further, the information terminal device of the present invention has a configuration in which the positioning means is a positioning satellite receiver. With this configuration, the present invention can be applied to an information terminal device that is carried or mounted on any mobile body regardless of a person or a vehicle.
[0012]
Further, the information terminal device of the present invention has a configuration in which the movement history includes information converted into a road link number in the map information based on the map information stored in the map information storage means. With this configuration, the amount of position information stored in the movement history storage unit can be reduced without storing useless position information such as when the moving body is stopped.
[0013]
Further, the information terminal device of the present invention is configured such that the movement history storage means sequentially stores the road link number together with the current time only when the road link number is updated. With this configuration, the amount of movement history information stored in the movement history storage unit can be further reduced.
[0014]
Further, the information terminal device of the present invention has a configuration in which the position information extracting means includes a moving frequency calculating means for calculating a moving frequency for each moving position based on the moving history, and extracts the position information based on the moving frequency. are doing. With this configuration, a position under a predetermined condition according to the movement frequency is accurately extracted.
[0015]
Further, the information terminal device of the present invention, the position information extraction means, comprises a conversion means for converting the movement history to a map mesh number, and means for calculating the movement frequency for each map mesh number converted by the conversion means, It has a configuration for extracting position information based on the movement frequency.
[0016]
With this configuration, the movement frequency is managed for each map mesh number, so that the amount of information is reduced as a whole and appropriate information management is enabled.
[0017]
Further, the information terminal device of the present invention has a configuration including means for executing position information extraction by the position information extracting means every time a predetermined period elapses. With this configuration, the position information under the predetermined conditions is extracted every predetermined period, so that the extraction operation is not frequently repeated, and it is possible to minimize unnecessary operations.
[0018]
Further, the information terminal device of the present invention has a configuration in which the movement frequency calculating means includes an updating means for updating the movement history stored in the movement history storage means when the movement frequency is equal to or higher than a predetermined frequency. I have.
[0019]
With this configuration, when the movement frequency is equal to or higher than the predetermined frequency, the movement history is updated, so that the movement history storage unit is effectively used in terms of capacity.
[0020]
Further, in the information terminal device of the present invention, the movement frequency calculation means calculates the movement frequency for each of the plurality of target periods, and the position extraction means calculates the position information based on the movement frequency calculated for each of the plurality of target periods. It has a configuration to extract.
[0021]
According to this configuration, the movement frequency is calculated for each of the plurality of target periods, and the position under the predetermined condition is extracted based on the movement frequency level. The lower position can be extracted.
[0022]
Also, the information terminal device of the present invention is a positioning means for positioning the current position, a movement history storage means for sequentially storing the current position measured by the positioning means together with the current time as a movement history, and is stored in the movement history storage means. Destination extraction means for extracting a destination under predetermined conditions based on the travel history, and a destination extracted by the destination extraction means to the center device, and a route around the route from the center device to the destination. It has a configuration including a transmission / reception unit that receives the related information, and a display unit that displays the route to the destination and the related information around the route to the destination received by the transmission / reception unit.
[0023]
With this configuration, a destination under predetermined conditions is automatically extracted based on the movement history, and a route to the destination and related information around the route (for example, traffic information, congestion information, landmark information, Event information, etc.) can be automatically obtained and displayed.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0025]
FIG. 1 is a schematic configuration diagram for explaining an information terminal device according to an embodiment of the present invention.
[0026]
As shown in FIG. 1, an information terminal device 10 according to an embodiment of the present invention includes a positioning unit 11 that receives a radio wave from a positioning satellite such as a GPS satellite and measures the current position, and transmits various commands and instructions. An input unit 12 for inputting manually or by voice, etc., a map information storage unit 13 storing map information in a predetermined format, and information on a current position measured by the positioning unit 11 together with time as a movement history. A movement history storage unit 14 for storing, a movement frequency storage unit 15 for storing a movement frequency of each position calculated based on the movement history stored in the movement history storage unit 14, and information obtained from the center device 30. Information storage unit 16 that stores the information, the positioning unit 11, the input unit 12, the map information storage unit 13, the movement history storage unit 14, the movement frequency storage unit 15, and the reception information storage unit 1. A display unit 17 for displaying the information as appropriate, respectively, and a transceiver 18 for exchanging information with the center device 30, and a control unit 19 for controlling these units, respectively.
[0027]
The center device 30 includes a transmission / reception unit 31 for exchanging information with the information terminal device 10, a database 32 including a lot of related information related to each position and each region, and a transmission / reception unit 31, a database 32 And a control unit 33 that controls each of the information terminal devices 10, so that information can be exchanged with the information terminal device 10 via the Internet or another communication network 20.
[0028]
Next, the operation of the information terminal device according to one embodiment of the present invention will be described.
[0029]
2 to 4 are flowcharts illustrating the operation of the information terminal device according to the embodiment of the present invention. FIGS. 5 and 6 are movement histories generated by the information terminal device according to the embodiment of the present invention. It is a figure showing an example of movement frequency etc.
[0030]
In the information terminal device 10 according to the embodiment of the present invention, when a power supply (not shown) is turned on, the positioning unit 11 operates to periodically measure the current position. The measured current position is displayed on the display unit 17 together with the map stored in the map information storage unit 13 under the control of the control unit 19.
[0031]
When the destination is input using the input unit 12 and the information terminal device 10 instructs to perform route guidance, the destination is calculated from the current position measured by the positioning unit 11 under the control of the control unit 19. The route to is automatically set and displayed on the display unit 17.
[0032]
That is, the information terminal device according to the present embodiment has a function as a navigation device.
[0033]
Next, an operation of generating a movement history, extracting a position under a predetermined condition based on the movement history, and obtaining and displaying information related to the position will be described.
[0034]
In the information terminal device according to the present embodiment, as shown in FIG. 2, when the current position is measured by the positioning unit 11, a movement history is generated based on the measured current position information. It is stored (step (hereinafter referred to as S) 201). When the movement history is generated and accumulated, position information (location, area, etc.) under predetermined conditions is extracted based on the information of the movement history (S202).
[0035]
The extracted position information (location, region, etc.) is transmitted from the transmission / reception unit 18 to the predetermined center device 30 automatically or appropriately manually via the communication network 20 (S203). The transmitted position information (location, region, etc.) is received by the transmitting / receiving unit 31 of the center device 30 (S204), and is input to the control unit 33.
[0036]
When the received position information is input to the control unit 33, under the control of the control unit 33, related information related to the received position information (location, region, etc.) is extracted from the database 32 (S205). The relevant information is transmitted from the transmission / reception unit 31 to the information terminal device 10 via the communication network 20 (S206).
[0037]
When the related information is transmitted to the information terminal device 10, the related information is received by the transmission / reception unit 18 of the information terminal device 10 (S207), stored in the reception information storage unit 16, and displayed on the display unit 17 as appropriate. (S208).
[0038]
Here, the predetermined conditions include, for example, a condition for determining a living area based on a traveling frequency and a condition for determining other areas, places, routes, and the like based on a movement history. The relevant information of the position (place, area, route, etc.) extracted in the above is, for example, main sightseeing information, traffic, etc. in these positions, or in the vicinity, suburban position, or the route to those positions. Information, traffic congestion information, landmark information, event information, and other related information.
[0039]
Therefore, according to the present embodiment, for example, the location information of the living area that is automatically determined in advance based on the movement history is extracted, and what event is performed in the living area based on the location information is performed. The user can easily obtain necessary related information such as whether the vehicle is in a traffic jam situation.
[0040]
By the way, in the present embodiment, when generating a movement history and when extracting a position under a predetermined condition based on the movement history, the following configuration is used to facilitate the configuration. And
[0041]
First, when the movement history is generated, the current position measured by the positioning unit 11 may be directly stored in the movement history storage unit 14 together with the time (date and time) at which the positioning was performed. Requires a memory having a relatively large capacity as a memory constituting the movement history storage unit 14.
[0042]
In other words, the positioning by the positioning unit 11 is usually performed almost continuously at every moment, regardless of whether or not the moving body is moving. Therefore, each time, the current position is set to the time (date and time). ), The useless information is very much accumulated as the movement history.
[0043]
Therefore, in the present embodiment, as shown in FIG. 3, the current position is measured by the positioning unit 11 (S301), and the road information stored in the map information storage unit 13 is determined based on the position information of the measured current position. The road link number corresponding to the road including the current position measured by the positioning unit 11 is extracted from the road link number indicating the link relationship of (a) (S302), and the extracted road link number is moved along with the time (date and time) at which the positioning was performed. The data is stored in the storage unit 14.
[0044]
When the road link number and the time (date and time) are respectively stored in the movement history storage unit 14, whether the road link number has become a different road link number, that is, the road link number is updated and at least It is monitored whether or not the vehicle has moved to the position of the road link number of any one of the roads (S303), and only when updated, the updated road link number and time (date and time) are stored in the movement history storage unit 14, respectively. The data is accumulated (S304).
[0045]
FIG. 5 shows an example of the movement history information thus accumulated in the movement history accumulation unit 14. In FIG. 5, the flag values indicate the states of the respective pieces of movement history information accumulated in the movement history accumulation unit 14.
[0046]
The information with the flag value of “001” is a state in which information such as a road link number and time (date and time) to be the movement history information has only been passed from the control unit 19 to the movement history accumulation unit 14. It is shown that.
[0047]
The information in this state, that is, the information with the flag value “001” is compared with the movement history information that has already been stored in the movement history storage unit 14 before and the flag value is “010”. As a result of the comparison, if the road link numbers are the same, the information having the flag value “001” is discarded as not being updated.
[0048]
If the road link number is different and has been updated, information with a flag value of “001” is newly stored in the movement history storage unit 14 as formal movement history information, and the flag value of the information is set to “001”. "To" 010 ". Then, the flag value of the movement history information whose flag value was previously “010” is changed from “010” to “011”.
[0049]
When a destination is input using the input unit 12, the destination is also stored in the movement history storage unit 14 as movement history information. In the present embodiment, as shown in FIG. 5, destinations are stored with road link numbers closest to the destination.
[0050]
As described above, in the present embodiment, the current position measured by the positioning unit 11 is not stored in the movement history storage unit 14 as it is, and the road link number corresponding to the current position is stored only when the road link number is updated. I try to accumulate. Therefore, the amount of information stored in the movement history storage unit 14 is significantly smaller than that in the case where the information of the current position is stored as it is, and the capacity of the memory constituting the movement history storage unit 14 is made relatively small. Can be.
[0051]
Next, a specific operation when a position under a predetermined condition is extracted based on the movement history will be described.
[0052]
When extracting the position under the predetermined condition based on the movement history, as shown in FIG. 4, first, the oldest movement history information from the movement history information accumulated in the movement history accumulation unit 14 is obtained. It is determined whether or not the extracted date and time of the oldest movement history information is before a predetermined period (for example, one month) or more (S401).
[0053]
In this case, if the predetermined period does not accumulate a considerable number of pieces of movement history information at first, the accuracy as movement history information becomes low. Therefore, initially, for example, set as long as three months, and thereafter, For example, it can be set as short as one month.
[0054]
In this way, it is determined whether the date and time of the oldest travel history information is earlier than a predetermined period (S401). As a result, if it is determined that the predetermined period has elapsed, the travel history is determined. The movement history information with the flag value “011” stored in the storage unit 14 is extracted as information to be processed, and the movement history information extracted as these processing objects is rearranged in ascending order with respect to the road link number and the date and time. If any of the information of the same road link number has the same date, the information is collected into one information (S402).
[0055]
When the arrangement and aggregation of these pieces of information are completed, the flag value of the information on which the arrangement and aggregation are completed is updated to “100”.
[0056]
Here, the reason why the information is aggregated is to avoid duplication of these pieces of information as travel history information when the same road link is passed in going and returning. When overlapping is permitted, such arrangement and aggregation can be omitted. However, also in this case, the flag value is updated to “100”.
[0057]
When the flag value is updated to “100” in this manner, the respective road link numbers of the movement history information are set to the map mesh numbers based on the map mesh numbers stored in the map information storage unit 13. (S403).
[0058]
When the road link number is converted into a map mesh number, for each map mesh number, how many times the map mesh number has been passed, that is, how many times the map has been moved, is counted, and the movement frequency for each map mesh number is calculated. It is calculated (S404).
[0059]
When the movement frequency is calculated for each map mesh number, any method may be used. In the present embodiment, the following method (procedure) is employed. That is, in the present embodiment, the movement history information of the target flag value “100” is sequentially read, the map mesh number is read from the movement history information, and the movement frequency of the map mesh number is counted up by “1”.
[0060]
This is performed for all the movement history information whose target flag value is “100”, and the movement frequency for each map mesh is calculated.
[0061]
After the movement frequency for each map mesh is calculated, the movement frequency level for each map mesh is calculated by taking into account the value of the movement frequency update flag described later to these movement frequencies (S405). .
[0062]
As shown in FIG. 6, the movement frequency update flag is represented by “1” when the movement frequency in one predetermined period is equal to or greater than a predetermined value (for example, “2”). Bits are sequentially shifted from left to right for each predetermined period, and a predetermined period (for example, 5 predetermined periods) is represented by a plurality of bits (for example, 5 bits).
[0063]
Therefore, when calculating the movement frequency level, the so-called short-term movement frequency in the latest one predetermined period is determined by the predetermined predetermined period (for example, 1 bit) representing the movement frequency in one predetermined period. , The value of a so-called long-term movement frequency update flag representing the movement frequency for (5 predetermined periods).
[0064]
Then, in this case, the algorithm for calculation weights the short-term movement frequency and the long-term movement frequency update flag, respectively, so that the obtained movement frequency level expresses the user's action pattern more clearly. I have.
[0065]
When the movement frequency and the movement frequency level are calculated, the movement frequency and the movement frequency level are respectively stored in the movement frequency storage unit 15 as shown in FIG.
[0066]
After the moving frequency and the moving frequency level are stored in the moving frequency storage unit 15, the moving frequency update flag is updated for calculating the next moving frequency level. That is, it is determined whether or not the movement frequency in the latest one predetermined period calculated and stored in the movement frequency storage unit 15 is equal to or more than a predetermined value (for example, “2”) (S406).
[0067]
As a result, if the value is equal to or more than a predetermined value (for example, “2”), “1” is added to the leftmost bit in the movement frequency update flag, and the bit is shifted right by one bit in that state, and the rightmost wing is added. The bit is deleted (S407). If the result of determination in S406 is that the value is not equal to or greater than a predetermined value (for example, “2”), “0” is added to the leftmost bit in the movement frequency update flag, and the bit is shifted right by one bit in that state. In the same manner, the rightmost bit is deleted (S408).
[0068]
For example, if the movement frequency is “1” and the movement frequency update flag is “10001”, the movement frequency is “1” which is equal to or less than “2”, and thus “0” is added to the leftmost bit of the movement frequency update flag. Then, the rightmost bit is deleted as "010001" and updated to "01000".
[0069]
In this way, when the movement frequency update flag is updated and stored in the movement frequency storage unit 15, all the movement history information of the flag value “100” which has been processed so far is deleted from the movement history storage unit. (S409).
[0070]
Here, the reason why all the movement history information with the flag value “100” is deleted is to allow more subsequent movement histories to be accumulated. If the movement history information of the flag value “100” to be processed is left in the movement history storage unit 14 as it is, the capacity of the memory constituting the movement history storage unit 14 must be increased accordingly.
[0071]
However, once the processing is completed and the movement frequency level is calculated and stored, the details of those movement histories are no longer necessary. Therefore, in the present embodiment, all of these pieces of movement history information are deleted, so that more subsequent movement histories can be accumulated.
[0072]
When all the movement history information with the flag value “100” is thus deleted, the movement frequency level stored in the movement frequency storage unit 15 is equal to or more than a predetermined value (for example, “3”). Is determined. As a result, if there is, the map mesh number is extracted assuming that the position and the area of the map mesh number equal to or more than the specified value are all the user's main activity areas (for example, living areas) (S410).
[0073]
By the way, in the present embodiment, a so-called home zone such as a living zone, other positions, areas, and the like are separately and arbitrarily input using the input unit 12 so as to be stored in the movement frequency storage unit 15. I have. When these positions, regions, and the like are input using the input unit 12, "1" is stored in the home range flag column of the map mesh number corresponding to those positions and regions, as shown in FIG.
[0074]
When “1” is stored in the home range flag column, the position of the map mesh number in which “1” is stored in the home range flag column regardless of the value of the mobile frequency level stored in the mobile frequency storage unit 15 The map mesh number is extracted assuming that all the regions are also the user's main activity area (for example, the life area).
[0075]
When the map mesh number is extracted, all the map mesh numbers are automatically transmitted from the transmission / reception unit 18 to the predetermined center device 30 via the communication network 20.
[0076]
As described above, related information such as the latest event information, landmark information, and news is accumulated in the center device 30 in the beta base 32 corresponding to each map mesh number.
[0077]
Therefore, when the map mesh number is received by the transmission / reception unit 31 of the center device 30, the control unit 33, based on the received map mesh number, updates the latest event information of the position (location, area) corresponding to the map mesh number. And relevant information such as landmark information and news. Then, the related information is transmitted from the transmission / reception unit 31 to the information terminal device 10 via the communication network 20.
[0078]
When related information such as the latest event information, landmark information, and news at the position corresponding to the map mesh number is transmitted from the center device 30, the related information is received by the transmitting / receiving unit 18 of the information terminal device 10, The information is stored in the reception information storage unit 16 of the information terminal device 10. These pieces of information are displayed on the display unit 17 as appropriate.
[0079]
In the present embodiment, it is determined whether or not the movement frequency level is equal to or greater than a specified value, and if so, a map mesh number equal to or larger than the specified value is automatically transmitted to the center device 30 at that time. However, whether or not to transmit the map mesh number to the center device 30 may be performed by manual input, voice input, other input or instruction from the input unit 12, or may be performed by both. You may.
[0080]
In the case of such a configuration, the extracted map mesh number is arbitrarily transmitted to the center device 30 by the input and the instruction from the input unit 12 using the information stored in the movement frequency storage unit 15. It is possible to obtain the latest relevant information of the location and area corresponding to the transmitted map mesh number at any time.
[0081]
Further, in the present embodiment, a so-called home range such as a living area, other positions, areas, and the like are arbitrarily input using the input unit 12, so that relevant information of these positions and areas can be obtained. However, these functions are not necessarily required.
[0082]
In the present embodiment, the update of the movement frequency update flag (S406, S407, S408) is performed after the calculation of the movement frequency level (S405), but may be performed before the calculation of the movement frequency (S404). good. In this way, after the movement frequency is calculated, the movement frequency update flag is not updated until the next predetermined period arrives, and the oldest flag (the rightmost wing flag) reaches the next predetermined period as it is. It will not be deleted until time.
[0083]
Therefore, this flag (the oldest flag) can be used as needed until the next predetermined period is reached.
[0084]
In the present embodiment, the extracted map mesh number is transmitted to the center device 30 via the communication network 20 and the center device 30 obtains the location and area related information corresponding to the transmitted map mesh number. In this case, all related information is obtained at one time. However, detailed information may be obtained interactively in several stages according to the user's request.
[0085]
For example, at the stage when the extracted map mesh number is transmitted to the center device 30 via the communication network 20, only the index of the relevant information such as the position and the area corresponding to the transmitted map mesh number is transmitted from the center device 30. To be done. First, at this stage, only the index is received by the transmission / reception unit 18 and is displayed on the display unit 17 or notified by voice.
[0086]
The user checks the index displayed on the display unit 17 or notified by voice, selects a desired index from the index, and inputs information corresponding to the selected index on the input unit 12, and at that stage, The information corresponding to the selected index is transmitted to the center device 30, and the center device 30 transmits detailed information relating to the index information corresponding to the selected information.
[0087]
Thus, the detailed information is received by the transmission / reception unit 18 of the information terminal device 10, and is displayed on the display unit 17 or notified by voice.
[0088]
With this configuration, it is possible to reduce the amount of information required to obtain the necessary information as compared with the case where all the detailed information is obtained at one time, and to reduce the communication cost and information required when obtaining the necessary information. Charges can be greatly reduced. If the notification can be made by voice or input by voice, hands-free operation can be performed without using hands. This is advantageous when you cannot release your hands during driving.
[0089]
In the present embodiment, the extracted map mesh number is transmitted to the center device 30 via the communication network 20, and the center device 30 obtains the relevant information of the position corresponding to the transmitted map mesh number. However, the information terminal device 10 is provided with a broadcast receiving unit, and selects only information related to the previously extracted map mesh number from the information received by the broadcast receiving unit, and stores it in the received information storage unit. 16 and may be displayed on the display unit 17.
[0090]
In such a configuration, in addition to the broadcast receiving unit, a judging means for judging whether or not information indicating a position such as a place name, an intersection, or a road name exists in the information received by the broadcast receiving unit. And extracting means for extracting information representing the position when the information representing the position exists, and the information representing the position extracted by the extracting means is information of a position corresponding to the previously extracted map mesh number. Determining means for determining whether the information is a position corresponding to the map mesh number, and extracting information related to the position from the information received by the broadcast receiving unit, and storing the extracted information in the received information storage unit 16. Needless to say, means for displaying on the display unit 17 is required.
[0091]
In the case of such a configuration, only information of a position corresponding to the previously extracted map mesh number is selected from information received by the broadcast receiving unit, and only information useful for the user is received. It can be stored in the storage unit 16 and displayed on the display unit 17.
[0092]
Further, in the present embodiment, a target position (place, area) is extracted based on the movement frequency level, and information related to the extracted position is obtained from the center device 30 or the broadcast receiving unit. However, a target position (place, area) is set as a target position to which the user wants to go, that is, the movement history stored in the movement history storage unit 14 and the movement frequency stored in the movement frequency storage unit 15 as the destination. , And the predicted position, the route to the predicted position, and the related information related to the position and the route may be obtained from the center device 30.
[0093]
In the case of such a configuration, as shown in FIG. 7, a target position, that is, a destination is automatically predicted by the control unit 19 using the movement history stored in the movement history storage unit 14 (see FIG. 7). S701). When predicting the destination, based on the road link numbers and the current time that are currently passing, the road link numbers that will sequentially pass next to the next are based on the travel frequency, time, etc. What is necessary is just to predict each according to a predetermined algorithm.
[0094]
When the destination is predicted, the position information of the destination is transmitted from the transmitting / receiving unit 18 to the center device 30 via the communication network 20 (S702).
[0095]
In the center device 30, when the transmission / reception unit 31 receives the destination, the control unit 33 searches for a route to the destination based on the destination, and controls the control unit 33 for related information around the route to the destination. The information is extracted from the database 32 and transmitted from the transmitting / receiving unit 33 to the information terminal device 10 via the communication network 20.
[0096]
Here, the related information around the route is, for example, event information, landmark information, news, traffic congestion information, etc. in a map mesh including the route.
[0097]
In this way, when the route to the destination and the related information around the route are transmitted, the information is received by the transmission / reception unit 18 of the information terminal device 10 (S703) and stored in the reception information storage unit 16. Then, the display unit 17 may appropriately display the image (S704).
[0098]
With this configuration, the target position can be predicted using the movement history information, the movement frequency information, and the like, and the route to the predicted position and related information around the route can be easily obtained. Thus, the user can automatically obtain the relevant information in the direction toward the destination without having to input the destination.
[0099]
【The invention's effect】
As described above, according to the information terminal device of the present invention, the current position measured by the positioning means is sequentially stored together with the current time as a movement history, and the position information under predetermined conditions based on the movement history is stored. It is configured to extract and obtain related information related to the position information based on the extracted position information.Therefore, for example, as a predetermined condition, a position such as a home area such as a living area or a destination, By setting the conditions for extracting regions, it is possible to automatically extract only the location information of these locations and regions first, and accurately extract the relevant information related to these locations and regions without complicated operations. It has the effect that it can be obtained.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an information terminal device according to an embodiment of the present invention.
FIG. 2 is a flowchart showing the overall operation of the information terminal device according to one embodiment of the present invention;
FIG. 3 is a first flowchart showing an operation of the information terminal device according to the embodiment of the present invention;
FIG. 4 is a second flowchart showing the operation of the information terminal device according to one embodiment of the present invention;
FIG. 5 is a diagram showing a configuration of a movement history storage unit included in the information terminal device according to one embodiment of the present invention
FIG. 6 is a diagram illustrating a configuration of a movement frequency storage unit included in the information terminal device according to one embodiment of the present invention;
FIG. 7 is a flowchart showing the operation of the information terminal device according to another embodiment of the present invention.
[Explanation of symbols]
10 Information terminal equipment
11 Positioning unit
12 Input section
13 Map information storage
14 Movement history storage unit
15 Movement frequency storage
16 Received information storage unit
17 Display
18 Transceiver
19 Control part
20 Communication Network
30 center equipment
31 Transceiver
32 databases
33 control unit

Claims (12)

Positioning means for measuring the current position; movement history storage means for sequentially storing the current position measured by the positioning means together with the current time as a movement history; and position information based on the movement history stored in the movement history storage means. Information extracting means for extracting the related information, related information acquiring means for acquiring related information related to the position information extracted by the position information extracting means, and display means for displaying the related information acquired by the related information acquiring means. An information terminal device comprising: 2. The information according to claim 1, wherein the related information acquiring unit is a transmitting / receiving unit that transmits the position information extracted by the position information extracting unit to a center device and receives the related information from the center device. Terminal device. The said related information acquisition means is an extraction means which extracts the said related information from the information received by the broadcast receiving means based on the position information extracted by the position information extraction means. 2. The information terminal device according to 1. 4. The information terminal device according to claim 1, wherein said positioning means is a positioning satellite receiver. 5. The travel history according to claim 1, wherein the travel history includes information converted into a road link number in the map information based on the map information stored in the map information storage unit. Information terminal device as described in the above. 6. The information terminal device according to claim 5, wherein the movement history storage unit sequentially stores the road link number together with a current time only when the road link number is updated. The position information extracting unit includes a moving frequency calculating unit that calculates a moving frequency for each moving position based on the moving history, and extracts the position information based on the moving frequency. The information terminal device according to claim 6. The position information extraction unit includes a conversion unit that converts the movement history into a map mesh number, and a unit that calculates a movement frequency for each map mesh number converted by the conversion unit, and based on the movement frequency, 7. The information terminal device according to claim 1, wherein position information is extracted. 9. The information terminal device according to claim 1, further comprising a unit that executes the position information extraction by the position information extraction unit every time a predetermined period elapses. 8. The information terminal according to claim 7, wherein said moving frequency calculating means includes updating means for updating a moving history stored in said moving history storing means when said moving frequency is equal to or higher than a predetermined frequency. apparatus. The moving frequency calculating unit calculates the moving frequency for each of a plurality of target periods, and the position information extracting unit extracts the position information based on the moving frequency calculated for each of the plural target periods. 10. The information terminal device according to 10. Positioning means for measuring the current position, movement history storage means for sequentially storing the current position measured by the positioning means together with the current time as a movement history, and a movement history stored in the movement history storage means, wherein Destination extracting means for extracting a destination under the set conditions, transmitting the destination extracted by the destination extracting means to a center device, and a route from the center device to the destination and related information around the route. An information terminal device comprising: a transmission / reception unit that receives the information; and a display unit that displays the route to the destination and the related information around the route to the destination received by the transmission / reception unit.

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