JP2016051384A - Living area determination device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a living area determination device in which decision precision is improved in living area stay determination.SOLUTION: A living area determination device (1) includes: a stay information generating part (11) which generates stay information; a usage state detection part (12) which generates appliance information; a reference information storage (15) which stores reference information; and a living area determination part (19) which performs user's living area stay determination by comparing the stay information and the appliance information, and reference information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technique for determining that a user is staying in a specific living area.

  Conventionally, it is an area where a user's current position is measured using a satellite positioning system such as GPS (Global Positioning System), and the user visits daily in daily life based on the current position and related information. Electronic devices that automatically determine the living area have been proposed. For example, in Patent Literature 1, a position detection unit that detects the presence position of its own device, a time detection unit that detects a time corresponding to the presence position, and the presence position and the time are associated with each other as history information. An electronic apparatus is disclosed that includes a recording control unit for recording and a determination unit that determines a living area that represents an area that a user visits on a daily basis based on the recorded history information.

JP 2012-42993 A (published March 1, 2012)

  However, the electronic device disclosed in Patent Document 1 uses the usage state of the electronic device such as the charging state and the display unit OFF state as a parameter for determining whether or not the current position of the user is within the living area. Not what you want. Therefore, since there are few parameters used as the determination material in the above living area stay determination, there is a problem that it is difficult to perform the determination with high accuracy and the possibility of erroneous determination is increased.

  In order to solve the above-described problem, a living area determination apparatus according to an aspect of the present invention measures the location of a portable communication device, and includes position information indicating the location and the communication device at the location. A stay information generating unit that generates time information as a stay information, a use state detecting unit that detects a use state of the communication device by a user at the location, and generates device information representing the use state A reference information storage unit that stores reference information that is a reference indicating that the user is staying in a specific living area that is an area in which daily life is conducted, and the stay information and the device using the reference information as a determination condition A living area determining unit that determines that the user is staying in the specific living area when the information satisfies the determination condition;

  According to one aspect of the present invention, since it is determined whether the user is staying in a specific living area in consideration of not only stay information but also device information, more information is determined for living area stay determination. Can be a material. Therefore, it is possible to improve the accuracy of the living area stay determination.

It is a block diagram which shows the structure of the portable communication apparatus which concerns on Embodiment 1 of this invention. It is a flowchart which shows the point calculation process by the life zone determination apparatus which concerns on Embodiment 1 of this invention. (A) is a figure which shows an example of the time table which the user information recording part of the said living area determination apparatus has recorded. (B) is a figure which shows an example of the user information database which the user information recording part of the said living area determination apparatus has recorded. (A) is the schematic which shows an example of the mesh data produced by dividing | segmenting the map database memorize | stored in the memory | storage part. (B) is a figure which shows an example of the point data table stored in the point calculation part of the said living area determination apparatus. (A) And (b) is a figure which shows an example of the reference | standard point data table stored in the reference | standard information storage part of the said living area determination apparatus. It is a flowchart which shows the living area stay determination process by the said living area determination apparatus. (A) is the schematic which shows an example of the mesh data produced by dividing | segmenting the map data which concern on Embodiment 2 of this invention. (B) is a figure which shows an example of the point data table stored in the point calculation part of the life zone determination apparatus which concerns on Embodiment 2 of this invention. (A) is the schematic which shows an example of the area set in the map data which concerns on Embodiment 3 of this invention. (B) is a figure which shows an example of the stay history data table stored in the point calculation part of the living area determination apparatus which concerns on Embodiment 3 of this invention.

  Embodiment 1 Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS.

  (Functional Configuration of Portable Communication Device) First, a main functional configuration of the portable communication device 100 will be described. Note that the portable type is not limited to the palm size. FIG. 1 is a block diagram illustrating a main functional configuration of the communication device 100. As shown in FIG. 1, the communication device 100 includes a control unit 10, an operation input unit 21, a display unit 22, a battery unit 23, an antenna unit 24, a radio unit 25, a gyro sensor 26, a microphone unit 27, and a speaker unit 28. ing. In the communication device 100, various components including the living area determination device 1 described later are accommodated in a housing that is large enough to be held or held in a bag. The communication device 100 may be a glasses-type or watch-type wearable communication device.

  The control unit 10 includes the living area determination device 1 and performs overall control of the communication device 100. The life zone determination device 1 determines whether or not the user is staying in a specific life zone that is an area where the user conducts daily life, such as home or work. Details thereof will be described later. The operation input unit 21 includes a touch panel, an optical sensor, and the like, and accepts user operations. The display unit 22 may have a display function using a display screen or a hologram. The battery unit 23 supplies power to each unit configuring the communication device 100, and the power supply to each unit is controlled by the control unit 10 when the power supply shutdown mode or standby mode is executed. The wireless unit 25 includes a modem capable of making and receiving voice calls using the communication standard 3G / LTE (Long Term Evolution) network, and transmits and receives various data via the antenna unit 24. The gyro sensor 26 detects the stationary state or the moving state of the communication device 100 by detecting the angular acceleration of the communication device 100. And the detection result by the gyro sensor 26 is transmitted to the stationary state detection part 12a mentioned later.

  (Functional Configuration of Living Area Determination Device) Next, a main functional configuration of the living area determination device 1 will be described. The life zone determination device 1 includes a stay information generation unit 11, a use state detection unit 12, a movement determination unit 13, a storage unit 17, a point calculation unit 18, a life zone determination unit 19, a timekeeping unit 20, and a user information recording unit 29. ing. The stay information generation unit 11 determines the location of the communication device 100 using a positioning system such as GPS (Global Positioning System) and generates position information. In addition, the stay information generating unit 11 notifies the time measuring unit 20 of the generation of the position information, and causes the time measuring unit 20 to measure the time until the position information changes to notify the time measuring unit 20 of new position information. The timer 20 generates time information (stay time information) when the communication device 100 stays at the location. The stay information generation unit 11 generates the position information and the stay time information as stay information and outputs the stay information to the user information recording unit 29. The position information is also output to the movement determination unit 13.

  The use state detection unit 12 includes a stationary state detection unit 12a, a charge state detection unit 12b, and a lighting state detection unit 12c in order to detect various use states of the communication device 100 by the user. Information indicating various usage states output by the detection units 12a to 12c is collectively referred to as device information, and information indicating individual usage states output by the detection units 12a to 12c is referred to as sub device information. Hereinafter, the sub device information output by each of the detection units 12a to 12c may be referred to as first sub device information, second sub device information, and third sub device information in this order.

  The stationary state detection unit 12a detects the stationary state of the communication device 100 based on the detection result received from the gyro sensor 26, and generates first sub device information indicating that the communication device 100 is stationary. In addition, the stationary state detection unit 12a counts the duration of the stationary state by notifying the timing unit 20 of the generation start of the first sub device information and the generation end of the first sub device information accompanying the transition to the non-stationary state. Let the part 20 measure. Further, the stationary state detection unit 12 a stores the time information timed by the time measuring unit 20 and outputs the first sub device information and the time information to the user information recording unit 29. Similarly, the charging state detection unit 12b generates second sub device information indicating that the battery unit 23 has been charged, obtains time information regarding the duration of charging from the time measuring unit 20, and outputs the second sub device information. The sub device information and the time information are output to the user information recording unit 29. The lighting state detection unit 12c generates third sub device information indicating that the display surface of the display unit 22 is turned off, obtains time information regarding the duration of turn-off from the time measuring unit 20, and obtains the third sub device information and time. Information is output to the user information recording unit 29. The user information recording unit 29 corresponds to the stay information received from the stay information generating unit 11, various sub device information and time information received from the use state detecting unit 12, and position information indicating the location of the communication device 100. In addition, it is recorded in the user information storage unit 14 as user information.

  The movement determination unit 13 determines whether or not the communication device 100 has moved based on the position information received from the stay information generation unit 11 and transmits the determination result to a point calculation unit 18 described later. The storage unit 17 includes the user information storage unit 14, the reference information storage unit 15, and the map database 16, and further stores various control programs executed by the control unit 10. The storage unit 17 may be provided either inside or outside the control unit 10. Then, the user information is transmitted to the point calculation unit 18. Note that the time information accompanying the sub device information is not essential. For example, a usage state of the communication device 100 may be periodically detected, and the usage state may be determined based on the number of times the communication device 100 is detected during the staying time of the communication device 100. For example, if the number of stationary detections detected during the staying time of the communication device 100 is a predetermined multiple more than the number of non-stationary detections, the usage state is determined to be stationary, and sub device information indicating stillness is generated. Good.

  The reference information storage unit 15 stores information (reference information) indicating that the user is staying in a specific living area that is an area in which the user conducts daily life as a plurality of information including the specific living area. Store for each specific living area. The map database 16 stores map data and is used to create a mesh area and an area that are determination target areas for living area stay determination.

  The point calculation unit 18 assigns or calculates points corresponding to a specific living area to the device information in the user information received from the user information storage unit 14. In the present embodiment, first to third sub device points are assigned to the first to third sub device information according to a specific living area based on the duration corresponding to the first to third sub device information. Furthermore, the point calculation unit 18 assigns stay points corresponding to the specific living area to the stay information in the user information. Note that the point calculation unit 18 may directly acquire the stay information and the device information from the stay information generation unit 11 and the use state detection unit 12, respectively.

  In addition, each detection unit 12a to 12c acquires the time at which each sub device information is generated by each detection unit 12a to 12c from the time measuring unit 20, and associates the sub device information with the time information, so that the user information recording unit The user information may be stored in the user information storage unit 14 via 29. Further, as shown in FIG. 3 (a), each of the detection units 12a to 12c acquires the start time and end time of a certain usage state from the time measuring unit 20, and sub-device information and time information (year / month / day). / Time) may be stored in the user information storage unit 14 via the user information recording unit 29. In this case, the point calculation unit 18 can extract sub device information in a specific time zone (for example, a midnight time zone), and assign points for the specific time zone to the extracted sub device information. In the present embodiment, the compatible state in which the communication device 100 is in the stationary state and the unlit state in the midnight time zone and its duration are extracted, and the fourth is determined according to the specific living area based on the extracted duration. Sub device points are assigned (hereinafter, the first to fourth sub device points are collectively referred to as “sub device points”). In the present embodiment, 11:00 pm to 4:00 am is set as the midnight time zone. However, for example, the user may arbitrarily set the time zone by input from the operation input unit 21. Good.

  The point calculation unit 18 calculates the total points by summing up the above five types of points. The sub device points, the stay points, and the total points are output from the point calculation unit 18 to the living area determination unit 19. The life zone determination unit 19 acquires the reference information (reference total point) corresponding to the total point from the reference information storage unit 15, and compares the total point calculated by the point calculation unit 18 with the reference total point to specify It is determined whether the user is staying in the living area. Alternatively, the life zone determination unit 19 acquires reference information (reference sub device points) corresponding to the first to fourth sub device points from the reference information storage unit 15, and the first to fourth sub device points and the reference sub device points To determine whether or not the user is staying in a specific living area.

  (Point calculation process by life zone determination apparatus) Next, the point calculation process by the life zone determination apparatus 1 which the control part 10 supervises is demonstrated. FIG. 2 is a flowchart showing the processing. As shown in FIG. 2, first, after the life zone determining device 1 is activated, the stay information generating unit 11 measures the location of the communication device 100. The position information is output to the movement determination unit 13. Next, the movement determination unit 13 compares the position information acquired from the stay information generation unit 11 with another position information acquired before the position information, so that the communication device 100 can change the other information. It is determined whether or not the user has moved from the existing position associated with the position information (step 100; hereinafter abbreviated as S100). The process of S100 is repeated until movement is determined. Next, when the movement determination unit 13 detects the movement of the communication device 100 (Y in S100), the determination result is notified to the stay information generation unit 11. The stay information generation unit 11 obtains a stay time corresponding to the measured position information when the communication device 100 is moved, and outputs the stay time to the point calculation unit 18 or the user information recording unit 29 as stay information. The point calculation unit 18 acquires stay information from the stay information generation unit 11 or the user information storage unit 14, and assigns or calculates a stay point corresponding to a specific living area for the acquired stay information (S101).

  Next, the point calculation unit 18 acquires the first to third sub device information from each of the detection units 12a to 12c, or acquires the first to fourth sub device information from the user information storage unit 14, and stores the information in each sub device information. Assign or calculate stay points according to a specific living area. Here, the time information associated with each piece of sub device information is used, and sub device points are assigned to each sub device information (S102 to S105). Next, the point calculation unit 18 outputs the obtained stay points and sub device points to the user information recording unit 29. The user information recording unit 29 associates the stay point and the sub device point received from the point calculation unit 18 with the location information indicating the location of the communication device 100 and records it in the user information storage unit 14 as a point data table. To do. At this time, a total point that is the sum of the stay point and the sub device point may be calculated and recorded. In addition, each detection part 12a-12c is notified from the movement determination part 13 that the communication apparatus 100 moved, and may make it output the 1st-3rd sub apparatus information to the point calculation part 18 according to it. . Next, the use state detection unit 12 clears the sub device information held by the detection units 12a to 12c (S108). Thereby, a point calculation process returns to S100.

  The point data table may be stored in a built-in memory provided in the point calculation unit 18.

  (Sub Device Point Allocation Processing) Next, processing in which the point calculation unit 18 allocates points to stay information of the communication device 100 and each sub device information (information on various usage states) will be described. The calculation of points is based on the stay time and the duration of use state. For example, 1 point is assigned to each stay time and duration of 1 hour. Then, when the stay time of the communication device 100 or the duration of the stationary state is 5 hours, 5 points are calculated as the stay point or the first sub device point. Note that the coefficient for converting the time value into the point value is not limited to 1, and can be arbitrarily determined. The coefficient may be set as a fixed value, or may be varied based on a user instruction. The point calculation unit 18 acquires the stay time and position information from the stay information generation unit 11 and acquires information on the duration of various usage states (sub device information) from each of the detection units 12a to 12c, or the point calculation The unit 18 can acquire the stay time, the position information, and the duration information related to each sub device information from the user information storage unit 14. Therefore, it is possible to assign stay points and sub-equipment points in association with living areas (home, work, favorite shops, etc.) specified by the position information.

  The user information recording unit 29 refers to the time table stored in the user information storage unit 14 as shown in FIG. 3A as time information, and subtracts the start time from the end time and stays there. The time or duration is calculated, and the stay time or duration is recorded in the user information storage unit 14 as a user information database as shown in FIG.

  Specifically, the user information recording unit 29 uses the position information acquired from the stay information generating unit 11 and stores map data corresponding to an area having a predetermined radius centered on the point indicated by the position information in the storage unit 17. Extracted from the map database 16. Next, mesh data in which a plurality of mesh regions are set is created by dividing the map data at regular intervals. The shape and size of the mesh region can be appropriately set according to the specification or design. Each mesh region is given a mesh ID (such as “mesh 1 to 16” in FIG. 4A) that can identify the mesh region. Then, the user information recording unit 29 creates and updates the user information database by recording the stay time or duration associated with each mesh ID in the user information storage unit 14. In addition, as illustrated in FIG. 3B in the case of the mesh 2 or 6, when the user stays in the same mesh region a plurality of times, the stay time and duration in one stay are It is recorded in the user information database in association with the stay start date and time of the stay. Therefore, in this case, the stay time or duration for each stay of the user is recorded for the same mesh ID.

  In addition, instead of calculating the point regarding the usage state by time, as described above, a certain usage state of the communication device 100 is periodically detected, and 1 point is given each time the usage state is detected. That is, points may be calculated based on the number of detections.

  (Sub equipment point, stay point, and total point calculation recording process) Next, the sub equipment point, stay point, and total point calculation recording process will be described with reference to FIG. FIG. 4A is a schematic diagram illustrating an example of mesh data generated by the user information recording unit 29 by dividing map data of a specific area. FIG. 4B is an example of a point data table stored in the user information storage unit 14 or the point calculation unit 18. The point data table includes a target mesh area in which at least one positioning point, which is a position where the presence position of the communication device 100 is positioned, a sub equipment point, a stay point obtained and assigned in the target mesh area, and It is a data table which shows the correspondence with the comprehensive point calculated in the said object mesh area | region.

  An example in which the location of the communication device 100 is measured within the meshes 1, 2, 5, and 6 in FIG. First, the point calculation unit 18 specifies mesh IDs (mesh 1, 2, 5, and 6) corresponding to each location based on the stay information received from the stay information generation unit 11. Next, every time movement of the communication device 100 is detected, the point calculation unit 18 performs point processing for assigning a stay point and a sub device point at each location. Then, the point calculation unit 18 calculates a total point by summing the sub-equipment points and the stay points, creates a point data table by associating with each mesh ID, and has a built-in memory or user information storage unit 14 stores the point data table.

  In addition, about the mesh ID in which a certain number of stays by the user have been confirmed, the point calculation unit 18 uses the total points obtained by further totaling the total points for each stay for the life zone stay determination of the mesh ID (total User information) may be transmitted to the living area determination unit 19. When stay points and sub equipment points are used for the living area stay determination of the mesh ID, the total points (total user information) of stay points and sub equipment points for each stay are transmitted to the life area determining unit 19. . Thereby, compared with the case where the living area is determined each time a stay is confirmed, it is possible to prevent a decrease in determination accuracy due to positioning errors. Here, the “predetermined number of times” may be the number of stays that can prevent misjudgment and improve the accuracy of the judgment. For example, 3-4 times (data for 3-4 days), 7 times (1 week) Minute data) and the like, and the user may arbitrarily set the data. Further, the “certain number of times” that is associated with a certain mesh ID may be the number of times that the stay has been confirmed for at least one day for the mesh ID, and mesh 2 in FIG. Alternatively, as exemplified in the case of 6, it may be the number of times the stay was confirmed on a different day.

  Furthermore, the stay points and sub device points used for the living area stay determination are limited to past data that has been traced back to the predetermined number of times from the latest updated data. For the data older than the past data, the point calculation unit 18 deletes the data or does not transmit it to the living area determination unit 19.

  (Determination Method Using Reference Point Data Table) Next, with reference to FIG. 5, a method for determining whether or not the user is staying in a specific living area using the reference point data table will be described. FIG. 5A is an example of a reference point data table stored as the reference information storage unit 15 in the storage unit 17. FIG. 5B is another example of the reference point data table. The reference point data table is a table in which reference points, which are determination criteria for staying in the living area, are written when the communication device 100 is produced. The reference point may be appropriately determined assuming a common sense behavior pattern of a standard person. In order to determine the reference point more accurately, for example, the reference points to be assigned to the stay information and the sub device information may be statistically determined by using the behavior patterns of a plurality of users as sample targets. For example, when the plurality of users are at home, at work, and in other living areas, the average stay time per day, the average duration of each use state per day, and the stationary state and the unlit state in the midnight time zone Get average duration etc. continued at the same time. Using the average stay time and average duration, the reference point is calculated as described above. This makes it possible to create a reference point data table in units of one day.

  In the reference point data table shown in FIG. 5 (a), the life zone types to be determined are “home”, “workplace”, and “frequently visited store”, and only these three reference comprehensive points are recorded. Yes. In the reference point data table shown in (b) of FIG. 5, reference sub equipment points are further recorded for each reference stay point and each use state. A square “-” indicates that no point is described. “25 <” and “<0.5” mean that the determination condition is that the point is greater than 25 and less than 0.5, respectively. For example, the life zone determination unit 19 compares the total points acquired from the point calculation unit 18 with each of the three reference total points called from the reference information storage unit 15. When the total point is larger than the reference total point of “home”, the target mesh area is determined to be “home”. Further, when the total point is less than the standard total point of “home” and larger than the standard total point of “workplace”, the target mesh region is determined as “workplace”. Further, when the total point is less than the standard total point of “workplace” and larger than the standard total point of “Frequently visited store”, the target mesh area is determined as “Frequently visited store”.

  Next, the living area stay determination method using the reference point data table shown in FIG. 5B will be described. The reference sub device point is a point serving as a reference for determining that the user is staying in a specific living area with respect to at least one usage state of the plurality of sub device information. The reference sub device point includes a reference first sub device point corresponding to a stationary state, a reference second sub device point corresponding to a charged state, a reference third sub device point corresponding to a lighting state, and a stationary state and an unlit state. 4th sub apparatus information corresponding to the coexistence state of midnight and midnight time zone is included. The reference stay point is a reference point indicating that the user is staying in the specific living area with respect to stay information. In the reference point data table shown in (b) of FIG. 5, regarding the determination of the home and the workplace, “home 1, workplace 1” to “home 4” in consideration of the user's needs for the lifestyle and determination accuracy of the user. , Workplace 4 ”is available. For example, for “Home 1, Work 1”, a reference fourth sub-equipment point is set in addition to other reference points, assuming a user who normally works and requests high determination accuracy. Has been. For example, for people who work long hours of overtime almost every day, when compared only with total points, the point at work is larger than at home, and judgment between home and work may be reversed. There is sex. However, even people like the above are unlikely to work overtime until late at night. Therefore, if the set of “Home 1, Work 1” is used, for example, if the user returns home before midnight, the fourth sub equipment point is added for “Home 1”, and “Work 1” The point is not added. Therefore, when returning home before midnight, the fourth sub equipment point satisfies the condition that the standard fourth sub equipment point of “home 1” is 0.8 or more, so long overtime work almost every day Even for those who are doing this, it is possible to accurately determine the home and workplace.

  The difference between the set of “Home 2, Work 2” and the set of “Home 3, Work 3” lies in how to set the reference second sub-equipment point regarding the state of charge. In the set of “Home 2, Work 2”, “0.8 <” is set in the reference second sub-equipment point of “Home 2”, and in the set of “Home 3, Work 3”, the second standard of “Work 3” “0.8 <” is set for the sub device point. As a result, if the set of “Home 2, Work 2” is used, the living area of the user having a life pattern in which charging is mainly performed at home can be correctly determined. In addition, when the set of “home 3 and workplace 3” is used, it is possible to correctly determine the living area of a user having a lifestyle pattern in which charging is mainly performed at the workplace. As for “home 4 and workplace 4”, assuming that users with relatively low needs for determination accuracy are used, only the reference comprehensive points are the determination conditions as in FIG.

  Here, with respect to the above four types of sets, it is assumed that a specific user is acting on the basis of his / her own behavior at home and work which constitute each set. Workplace judgment is performed at once. As a collective determination method, for example, only when there is a mesh area that satisfies the condition “Home 2”, it may be determined whether or not the other mesh area satisfies the condition “Work 2”. The determination may be made in the reverse order. In addition, as to which set is used for the living area stay determination, when “Home 1, Work 1” to “Home 4, Work 4” are all used in order, and the conditions of “Home 1, Work 1” are not met The set may be changed until the corresponding set appears, such as “Home 2, Work 2”. In addition, the user may arbitrarily select a set by inputting from the operation input unit 21, or the user's behavior information such as “late work” is input from the operation input unit 21, and the action information is matched. The set may be automatically selected.

  The life zone determination unit 19 receives each point (stay point, sub-equipment point and total point) in the target mesh area received from the point calculation unit 18 and reference information (reference stay point, reference point) called from the reference information storage unit 15 Compare the sub equipment points and the reference total points). When all the points to be compared satisfy the determination condition based on the corresponding reference point, it is determined that the target mesh region is a specific living area that is the determination target. In addition, about the determination method of the life zone stay using the reference | standard point data table of (b) of FIG. 5, you may abbreviate | omit the comparison with a comprehensive point and a reference | standard comprehensive point.

  Note that the reference point data tables in FIGS. 5A and 5B may be more varied according to the user's behavior pattern. For example, in order to support users whose “workplace” is the main living area, the standard total point for “workplace” is maximized, the standard total point for “home” is the second largest, and both are set as one set. Also good. In addition, the reference total point of the “frequently visited store” may be maximized so that the “frequently visited store” (for example, a game hall) can cope with a user who is a main living area. Further, the third living area may be changed from “a frequently visited store” to another living area such as “a specific friend's house”, and the above “specific friend's house” is set as the fourth living area. It may be set anew. Moreover, the reference point data table of (a) and (b) of FIG. 5 may be user-customized according to the behavior pattern of a specific user. For example, the action history of a specific user is recorded for a certain period (one week to several months or more), and the reference points in the third living area such as “Home”, “Work” and “Frequently visited store” are recorded. An average point per day may be calculated and written in the reference point data table. Since such a reference point data table reflects an actual behavior pattern of a specific user, the accuracy of determination can be further improved.

  (Life Area Stay Determination Process by Life Area Determination Device) Next, the life area stay determination process by the life area determination device 1 will be described with reference to FIG. 5B and FIG. Needless to say, the simplest reference point data table shown in FIG. FIG. 6 is a flowchart showing the processing. As shown in FIG. 6, first, the living area determination unit 19 causes the point calculation unit 18 to change the mesh A according to the movement of the current position from the mesh A to the other mesh by the point calculation process shown in the flowchart of FIG. 2. It is determined whether or not the point data table (see FIG. 4B) has been updated (step 200; hereinafter abbreviated as S200). When receiving an update notification from the point calculation unit 18 or receiving point data from the point calculation unit 18, the life zone determination unit 19 determines that each point of the mesh A has been updated (Y in S200). Proceed to the next process (S201). Next, the point calculation unit 18 calculates target points (stay points, sub device points, general points) of the mesh A, and transmits the calculation result to the living area determination unit 19 (S201). The mesh area (mesh A) to be determined is a mesh area that has been updated at least once, preferably a plurality of times (for example, 3 to 4 times or 7 times), that is, a fixed number of times. The mesh area in which the user's stay is confirmed. Therefore, when a mesh region in which a plurality of user stays are confirmed is set as a determination target, the target points are the sum of the stay points, the sub device points, and the total points for each stay. The life zone determination unit 19 determines whether or not the target point received from the point calculation unit 18 satisfies the condition of “home” determination. Specifically, the living area determination unit 19 compares the target point with the reference point (reference stay point, reference sub-equipment point, reference integrated point) of “home” in the reference point database. Then, it is determined whether or not the target point satisfies the condition of the reference point of “home” (14 <, 0.8 <or <0.5, etc.) (S202).

  If the life zone determination unit 19 determines Y (YES) in S202, the life zone determination unit 19 refers to the history information of each mesh region constituting the mesh data stored in the point calculation unit 18 to obtain other than the mesh A. It is determined whether or not the mesh area has already been determined as “home” (S203). On the other hand, when the living area determining unit 19 determines N (NO) in S202, the living area determining unit 19 performs the process of S206 described later. Next, when the living area determining unit 19 determines that there is no other mesh area determined as “home” (N in S203), it determines that the mesh A is “home” (S205). On the other hand, when it is determined that there is another mesh region determined as “home” (Y in S203), the living area determination unit 19 extracts a total point of the other mesh region from the history information, and mesh A Are compared with the total points (S204). When the living area determining unit 19 determines that the total point of the mesh A exceeds the total point of the other mesh area (Y in S204), the living area determining unit 19 newly determines the mesh A as “home” (S205). On the other hand, when the determination result of S204 is NO, the process proceeds to S207.

  Next, when the living area determining unit 19 determines N in S202, the living area determining unit 19 performs the same process as S203 (S206). When the living area determining unit 19 determines that there is no other mesh area determined as “home” (N in S206), it determines that the mesh area itself determined as “home” does not exist. Then, the living area stay determination process is terminated. On the other hand, if it is determined that there is another mesh region determined as “home” (Y in S206), the living area determination unit 19 determines whether the target point satisfies the condition of the reference point of “work”. Determination is made (S207). When the determination result in S207 is Y, the living area determination unit 19 determines whether or not a mesh area other than the mesh A has already been determined as “workplace” by referring to the history information. (S208). On the other hand, when the determination result of S207 is N, the living area determination unit 19 performs the process of S211 described later.

  Next, when the living area determining unit 19 determines that there is no other mesh area determined as “workplace” (N in S208), it determines the mesh A as “workplace” (S210). On the other hand, if the determination result in S208 is Y, the living area determination unit 19 extracts the total points of the other mesh region from the history information, and compares this with the total points of the mesh A (S209). When the living area determining unit 19 determines that the total point of the mesh A exceeds the total point of the other mesh area (Y in S209), the living area determining unit 19 newly determines the mesh A as “workplace” (S210). ). On the other hand, when the determination result of S209 is N, the living area determination unit 19 performs the process of S212 described later.

  Next, when it determines with N by S207, the determination process of S211 -215 regarding the 3rd living area (for example, shop which goes frequently) is performed. Since the determination process of S211 to 215 is the same as the determination process of S206 to 210, description thereof will be omitted. In addition, when it determines with N by S211, the living area determination part 19 determines that the mesh area itself determined as "workplace" does not exist, and completes the living area stay determination process. Also, in S212, the living area stay determination process is also ended when the determination condition of the frequently visited store is not satisfied. Furthermore, when the determination result in S214 is N, the living area determination unit 19 determines that the other mesh area is still a “frequently visited store”, and ends the determination process. In the processing of S204, 209, and 214, the total point of mesh A was compared with the total points of other mesh regions, but the present invention is not limited to this, and a comparison between sub device points may be added. You may add a comparison between stay points.

  As shown in the flowchart of FIG. 6, the order of the living area stay determination target is a life area where the reference total point is relatively high (in this embodiment, “home” is the highest), and the point is relative It is better to judge before the lower living area. Therefore, depending on the user's behavior pattern, for example, if the standard comprehensive point of “Frequently visited store” is the highest and the point is decreased in the order of “Workplace” and “Home”, the living area stay determination Are performed in the order of “Frequently visited store” “Workplace” “Home”.

[Embodiment 2]
The following will describe another embodiment of the present invention with reference to FIG. For convenience of explanation, members having the same functions as those described in the embodiment are given the same reference numerals, and descriptions thereof are omitted. In the living area determination device 2 according to the present embodiment, when the point calculation unit 18 executes the point processing in the target mesh region, the point processing in the adjacent mesh region in contact with the target mesh region is performed in order to eliminate the positioning error. It differs from the said living area determination apparatus 1 by the point which performs the said point process using the result of, and calculates a 1st real point. A communication device provided with the life zone determination device 2 is referred to as a communication device 200.

  (First Real Point Calculation Recording Process) The real point calculation recording process will be described below. FIG. 7A is a schematic diagram showing an example of mesh data created by dividing map data of a specific area extracted from the map database 16. FIG. 7B is an example of a point data table stored in the point calculation unit 18.

  In FIG. 7A, it is assumed that the presence position of the communication device 200 is measured in the mesh 6. However, if the positioning is not accurate, an error of several tens of meters to several hundreds of meters or more can occur in the position of the positioning. If it does so, there exists a possibility that the positioning presence position may be disperse | distributed to the mesh 1, 2, 5, and 6, for example. As described above, the point calculation unit 18 performs point calculation processing each time the mesh specified by positioning changes, and updates the point database. For this reason, as shown in FIG. 7B, the point data related to the meshes 1, 2, 5, and 6 measured in a distributed manner are recorded. In this case, for example, when the position is determined to be within the mesh 6 and the points of the mesh 6 are calculated, all the meshes 1, 2, 3, 5, 7, 9, 10, 11 adjacent to the mesh 6 are calculated. The points recorded in the point database may be multiplied by a coefficient smaller than 1 and then added to the mesh 6 points. Thereby, the probability of the point of the mesh 6 improves. As an example, in the case of the point database in FIG. 7B, the coefficient by which the points in the mesh area adjacent to the mesh 6 are multiplied is 0.8, and the substantial total point of the mesh 6 is 35.8+ (10.5 + 5.3 + 12). .2) x0.8 = 58.2. The same method may be used for each sub device point.

[Embodiment 3]
The following will describe another embodiment of the present invention with reference to FIG. For convenience of explanation, members having the same functions as those described in the embodiment are given the same reference numerals, and descriptions thereof are omitted. A communication device including the living area determination device 3 according to the present embodiment is referred to as a communication device 300.

  In the life zone determination device 3, the stay information generation unit 11 sets an area centering on the current position, which is the position of the portable communication device 300 measured at a specific time, in the map database 16, and The living area determination apparatus according to Embodiments 1 and 2 in that it is determined that the communication device 300 is present at the current position even when the position where the communication device 300 is moved from the current position within the area. Different from 1 and 2. Further, in the life zone determination device 3, the point calculation unit 18 executes point processing for each of the current position and the existing position in the area, and totals the points that are the execution results of the point processing. The second real point is also different from the life zone determination devices 1 and 2 described above.

(Second real point calculation recording process)
Next, the second real point calculation recording process will be described. 8A is a schematic diagram showing an example of an area set in the map data extracted from the map database 16, and FIG. 8B is a stay history data table stored in the point calculation unit 18. FIG. It is an example.

  In FIG. 8A, a case where the current position of the communication device 300 is measured at the point 1 and the presence position of the communication device 300 is measured at the points 2 to 4 will be described as an example. First, the stay information generating unit 11 specifies the current position based on position information of the communication device 300 at a specific time, and assigns a point ID (point 1) to the specified current position. The stay information generating unit 11 sets an area corresponding to the current position (point 1) in the map data and assigns an area ID (area A) to the area. Here, as shown in FIG. 8A, the area set by the stay information generating unit 11 is a circle with a predetermined diameter centered on the point 1, for example, 50 m. However, the shape and size of the area can be arbitrarily set by the user from the operation input unit 21 or can be automatically set according to the size of a specific living area to be determined. For example, the shape of the area may be a polygon such as a quadrangle or a hexagon with the current position as the center of gravity, and if the determination target is a workplace such as a factory, the size of the area is 100 to 100 mm. It may be 200 m. Moreover, the stay information generation part 11 may acquire the mesh data which the user information recording part 29 produced | generated in Embodiment 1, and may set one mesh area | region as one area.

  Next, the stay information generation unit 11 specifies the current position based on the new position information, and assigns a point ID (points 2 to 4) to the specified current position. Then, the stay information generating unit 11 determines whether or not the points 2 to 4 exist in the area A, and for the points 2 and 4 determined to exist in the area A, the current position is first specified. From the point 1, it is determined that the current position is not moving, and the points 2 and 4 are regarded as the current position. On the other hand, for the point 3 determined not to exist in the area A, it is determined that the current position has moved from the point 1 to the point 3, the point 3 is set as a new current position, and the point is the center. A new area (area B) is set. The stay information generating unit 11 transmits stay history information indicating whether the points 1 to 4 exist in the area A or B to the point calculation unit 18. The point calculation unit 18 executes point processing at each of the points 1 to 4 and calculates, for example, each total point. And the point calculation part 18 is based on the stay history information received from the stay information generation part 11, and the stay history data table comprised by point ID, a comprehensive point, and area ID as shown in (b) of FIG. create. The total points and areas (area A or B) corresponding to the points 1 to 4 are written in the stay history data table.

  Next, the point calculation unit 18 refers to the stay history data table, at points existing in the area A, that is, at points determined as the current position of the communication device 300 (points 1, 2, and 4). Real total points are calculated by summing each total point. The point calculation unit 18 calculates a real stay point and a real sub device point by totaling each stay point and each sub device point at the points 1, 2 and 4 calculated by executing the point processing. May be. Further, the stay information generation unit 11 may obtain the centroids of a plurality of existing positions measured in the area by referring to the stay history data table and the map data, and reset the obtained centroids as the centers of the areas. . Furthermore, the stay information generation unit 11 may calculate and update the area range (size) from the variance of a plurality of existing positions measured in the area.

[Example of software implementation]
The control blocks (especially the control unit 10 and the life zone determination unit 19) of the life zone determination devices 1 to 3 may be realized by a logic circuit (hardware) formed in an integrated circuit (IC chip) or the like, or a CPU (Central Processing Unit) may be used for software implementation. In the latter case, the living area determination devices 1 to 3 are configured such that a CPU that executes instructions of a program that is software that realizes each function, and a ROM (Read CPU) in which the program and various data are recorded so as to be readable by a computer (or CPU) Only Memory) or a storage device (these are referred to as “recording media”), a RAM (Random Access Memory) for expanding the program, and the like. And the objective of this invention is achieved when a computer (or CPU) reads the said program from the said recording medium and runs it. As the recording medium, a “non-temporary tangible medium” such as a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. The program may be supplied to the computer via an arbitrary transmission medium (such as a communication network or a broadcast wave) that can transmit the program. The present invention can also be realized in the form of a data signal embedded in a carrier wave in which the program is embodied by electronic transmission.

[Summary]
The living area determination device (1, 2, 3) according to the aspect 1 of the present invention measures the location of the portable communication device (100, 200, 300), the location information indicating the location, and the presence A stay information generation unit (11) that generates time information when the communication device stays at a position as stay information, and device information that detects the use state of the communication device by the user at the location and represents the use state A use state detection unit (12) that generates a reference, and a reference information storage unit (15) that stores reference information that serves as a reference indicating that the user is staying in a specific living area that is an area in which daily life is conducted A living area determining unit (19) that determines that the user is staying in the specific living area when the reference information is used as the determining condition and the stay information and the device information satisfy the determining condition; With There. According to the said structure, the living area determination part produced | generated by the stay information generation part by making into criteria the reference | standard information showing that the user is staying in the specific living area acquired from the reference | standard information storage part When the stay information and the device information generated by the use state detection unit satisfy the determination condition, it is determined that the user is staying in the specific living area. As described above, since it is determined whether the user is staying in a specific living area in consideration of not only the stay information but also the device information, more information is used as a judgment material for the living area stay determination. Can do. Therefore, the accuracy of determining the presence or absence of the stay can be improved.

  In the aspect 1, the living area determining apparatus (1, 2, 3) according to aspect 2 of the present invention divides the map data to set a plurality of mesh regions, and the communication device (100, 200, 300) A user information recording unit that records, as user information, the stay information at the positioning point and the device information in association with each other in the mesh region where at least one positioning point is a point at which the presence position is determined. 29), and the living area determination unit (19) sets a target mesh area in which a plurality of positioning points exist as a determination target, based on the user information for each of the plurality of positioning points in the target mesh area. If the total user information generated in this way satisfies the determination condition, it may be determined that the user is staying in the specific living area. According to the above configuration, the life zone determining apparatus can determine the target mesh region as the same life zone even if the communication device moves within the target mesh region. Thereby, it is possible to prevent an erroneous determination that the user has moved from a specific living area due to a slight movement of the existence position. Further, even when it is determined that the communication device has moved due to positioning errors, it can be determined as the same living area if it is moved within the target mesh area. Therefore, it is possible to determine whether or not the user is staying in a specific living area with higher accuracy than in the case where the living area stay determination is performed based on user information at a single positioning point. Furthermore, even if positioning points are dispersed in a plurality of mesh areas due to positioning errors, the effect of improving the determination accuracy can be obtained by setting the target mesh area having a plurality of positioning points as a determination target. Can do.

  The living area determination device (1, 2, 3) according to aspect 3 of the present invention is the communication device (100, 100) based on the position information measured by the stay information generation unit (11) in the aspect 1 or 2. 200, 300) is further provided, and the reference information storage unit (15) includes a plurality of specific life areas for each of the specific life areas including the specific life areas. The reference information corresponding to the living area is stored, and the living area determining unit (19) stores the plurality of specific living areas each time the moving determining unit determines that the communication device has moved. By using the corresponding reference information as a determination condition and determining which determination condition the stay information and device information satisfy, in which living area the plurality of specific living areas are staying May be determined. According to the above configuration, the life zone determination apparatus performs stay determination on the life zone using the reference information corresponding to each life zone as a determination condition even when the user moves between a plurality of specific life zones. be able to. Therefore, it is possible to improve the determination accuracy for stay determination regarding a plurality of specific living areas.

  In the living area determination apparatus (1, 2, 3) according to aspect 4 of the present invention, in any one of aspects 1 to 3, the device information includes a plurality of sub-devices representing a plurality of different use states including the use state. Including at least one of the plurality of sub device information, assigning a sub device point corresponding to the specific living area based on a duration of use state represented by the at least one sub device information, and A point calculation unit (18) that performs a point process of calculating a total point by assigning a stay point corresponding to the specific living area to the stay information and totaling the sub device point and the stay point, The reference information storage unit (15) serves as a reference point indicating that the user is staying in the specific living area as the reference information. Quasi-comprehensive points are stored, and the life zone determination unit (19) compares the total points calculated by the point calculation unit with the reference comprehensive points acquired from the reference information storage unit, thereby identifying the specific points. It may be determined whether or not the user is staying in the living area. According to the above configuration, since the determination element of the living area stay determination is quantified as a total point, the use state of the communication device and the stay state of the user can be grasped more clearly. In addition, since the reference information is also digitized as a reference total point, the user information and the reference information can be easily compared.

  In the living area determination apparatus (1, 2, 3) according to aspect 5 of the present invention, in any one of aspects 1 to 3, the device information includes a plurality of sub-devices representing a plurality of different usage states including the usage state. Including at least one of the plurality of sub device information, assigning a sub device point corresponding to the specific living area based on a duration of use state represented by the at least one sub device information, and A point calculation unit (18) for executing a point process for assigning stay points according to the specific living area to stay information, and the reference information storage unit (15) uses the plurality of sub devices as the reference information For at least one piece of information, storing a reference sub-equipment point serving as a reference point indicating that the user is staying in the specific living area In addition, for the stay information, a reference stay point serving as a reference point indicating that the user is staying in the specific living area is stored, and the living area determining unit (19) stores the point calculation. The sub-apparatus points allocated by the unit and the reference sub-apparatus points acquired from the reference information storage unit, and the stay points allocated by the point calculation unit and the reference acquired from the reference information storage unit You may determine whether the said user is staying in the said specific living area by comparing with a stay point. According to the above configuration, in addition to the comparison between the stay point and the reference stay point, the life zone determination unit further compares the plurality of sub device points with the plurality of reference sub device points, thereby obtaining a specific life zone. It is determined whether or not the user is staying. Therefore, since the determination factor increases compared with the case where the presence / absence of the stay is determined only by comparing the total point and the reference total point, whether or not the user is staying in a specific living area with higher accuracy. Can be determined.

  In the living area determination device (1, 2, 3) according to the aspect 4 or 5, the point calculation unit (18) divides the map data to set a plurality of mesh areas, and the presence of the communication device. You may perform the point process which combines the result of the said point process performed for every said several positioning point about the object mesh area | region in which the some positioning point which is a position where the position was located exists. According to the above configuration, when there are a plurality of positioning points in the target mesh region, the target mesh region is identified as a specific life by using the result of the point processing that combines the results of the point processing executed for each of the plurality of positioning points. The living area determining unit can determine whether the area falls within the area. Therefore, even if the communication device moves within the target mesh area, the target mesh area can be determined as the same living area. Thereby, it is possible to prevent an erroneous determination that the user has moved from a specific living area due to a slight movement of the existence position. Further, even when it is determined that the communication device has moved due to positioning errors, it can be determined as the same living area if it is moved within the target mesh area. Therefore, it is possible to determine whether or not the user is staying in a specific living area with higher accuracy than in the case where the living area stay determination is performed based on the stay point at a single positioning point.

  Moreover, in the life zone determination apparatus (1, 2, 3) according to the aspect 4 or 5, the point calculation unit (18) divides the map data to set a plurality of mesh areas, and the presence of the communication device. The result of the point processing in the adjacent mesh region that is in contact with the target mesh region when executing the point processing in the target mesh region for the target mesh region where there is at least one positioning point that is the position where the position is determined The point process may be executed using the same to calculate a substantial point that is a determination factor as to whether or not the target mesh region is the specific living area. According to the above configuration, even when the presence position is dispersed between the target mesh region and the adjacent mesh region due to an error in positioning the presence location, the life zone determination unit performs the life zone determination using the real points. Therefore, it is possible to reduce the deterioration of the determination accuracy due to the influence of the error. This effect is particularly noticeable when a specific living area is near the boundary between the target mesh area and the adjacent mesh area.

  Furthermore, in the living area determination apparatus (1, 2, 3) according to the aspect 4 or 5, the stay information generation unit (11) has an area centered on the current position of the communication device measured at a specific time. Even when the communication device is set and the communication device moves from the current position to another position in the area, it is determined that the communication device is still present at the current position, and the point calculation unit ( 18) executing the point process for each of the current position and the other position measured by the stay information generation unit in the area, and each point process for the current position and the other position. May be added together. According to the above configuration, when a communication device moves a plurality of times within a specific area set around the current position, it is assumed that the communication device exists at the current position, and the current position and the other after the movement. Each point processing at the position of is executed. Therefore, it is possible to prevent an erroneous determination that the communication device has moved out of a specific living area due to a slight movement of the communication device. Therefore, it is possible to determine whether or not the user is staying in a specific living area with higher accuracy than when performing the living area stay determination based only on the stay point at the current position.

  The living area determination method according to the aspect 6 of the present invention measures the location of a portable communication device, and includes location information indicating the location and time information when the communication device stays at the location. A stay information generating step for generating information, a use state detecting step for detecting a use state of the communication device by the user at the presence position, and generating device information representing the use state, and a region where the user conducts daily life If the criteria information, which is a reference indicating that the user is staying in a specific living area, is used as a determination condition, and the stay information and the device information satisfy the determination condition, the user is included in the specific living area. And a living area determining step for determining that is staying. Thereby, there exists an effect similar to the aspect 1. FIG.

  The portable communication device (100, 200, 300) according to aspect 7 of the present invention may include the living area determining device (1, 2, 3) according to any one of aspects 1 to 5. According to the said structure, the portable communication apparatus which can determine with high precision whether the user is staying in the specific living area is realizable. The living area determining apparatus according to each aspect of the present invention may be realized by a computer. In this case, a life zone determination program that causes a computer to operate as each unit included in the life zone determination device and a computer-readable recording medium that records the program also fall within the scope of the present invention.

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention. Furthermore, a new technical feature can be formed by combining the technical means disclosed in each embodiment.

  The present invention can be used for communication equipment in general.

1, 2, 3 Living zone determination device 11 Stay information generation unit 12 Usage state detection unit 13 Movement determination unit 15 Reference information storage unit 18 Point calculation unit 19 Life zone determination unit 29 User information recording unit 100, 200, 300 Communication device

Claims (5)

A stay information generating unit that measures the location of a portable communication device and generates location information indicating the location and time information when the communication device stays at the location as stay information;
A usage state detection unit that detects a usage state of the communication device by the user at the location and generates device information representing the usage state;
A reference information storage unit for storing reference information serving as a reference indicating that the user is staying in a specific living area that is an area in which daily life is conducted;
A living area determining unit that determines that the user is staying in the specific living area when the reference information is used as a determining condition and the stay information and the device information satisfy the determining condition. Living area determination device characterized by being. Dividing the map data and setting a plurality of mesh areas, the stay information at the positioning point and the mesh information where there is at least one positioning point that is a point where the position of the communication device is located It further includes a user information recording unit that records device information in association with device information,
The living area determination unit uses the target mesh region in which a plurality of the positioning points exist as a determination target, and the comprehensive user information generated based on the user information for each of the plurality of positioning points in the target mesh region The living area determining apparatus according to claim 1, wherein when the determination condition is satisfied, it is determined that the user is staying in the specific living area. A movement determination unit that determines movement of the communication device based on the position information measured by the stay information generation unit;
The reference information storage unit stores the reference information according to the plurality of specific living areas for each of a plurality of specific living areas including the specific living area,
Each time the movement determination unit determines that the communication device has moved, the life zone determination unit uses the reference information according to the plurality of specific life zones as a determination condition, and the stay information and device information are The life according to claim 1 or 2, wherein it is determined which living area of the plurality of specific living areas the user is staying by determining which determination condition is satisfied. Area determination device. The device information includes a plurality of sub device information representing a plurality of different use states including the use state,
For at least one of the plurality of sub device information, a sub device point corresponding to the specific living area is allocated based on a duration of use state represented by the at least one sub device information, and the stay information A point calculation unit that executes a point process for calculating a total point by assigning a stay point according to a specific living area and totaling the sub device point and the stay point,
The reference information storage unit stores, as the reference information, a reference comprehensive point that is a reference point indicating that the user is staying in the specific living area,
Whether the user is staying in the specific living area based on a comparison between the total point calculated by the point calculating unit and the reference total point acquired from the reference information storage unit. The living area determining apparatus according to claim 1, wherein the living area determining apparatus according to claim 1 is determined. The device information includes a plurality of sub device information representing a plurality of different use states including the use state,
For at least one of the plurality of sub device information, a sub device point corresponding to the specific living area is allocated based on a duration of use state represented by the at least one sub device information, and the stay information It further includes a point calculation unit that executes point processing for assigning stay points according to a specific living area,
The reference information storage unit stores, as the reference information, a reference sub device point serving as a reference point indicating that the user is staying in the specific living area with respect to at least one of the plurality of sub device information. In addition, for the stay information, a reference stay point serving as a reference point representing that the user is staying in the specific living area is stored,
The living area determination unit compares the sub device point assigned by the point calculation unit with the reference sub device point acquired from the reference information storage unit, and the stay point assigned by the point calculation unit 4. The method according to claim 1, wherein it is determined whether or not the user is staying in the specific living area by comparing the reference stay point acquired from the reference information storage unit. 5. The living area determining apparatus according to item 1.

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