JP2012193987A - Portable terminal, destination arrival reporting method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable terminal, destination arrival reporting method, and program which can report the arrival at a destination with a simple configuration.SOLUTION: A wireless LAN communication part 102 detects an AP. When the wireless LAN communication part 102 detects the beacon signal of the AP, a control part 109 determines whether the SSID of an AP allowing communication at a destination, which is stored in a storage part 108, matches the SSID contained in the detected beacon signal. The control part 109 reports the SSID allowing communication at the destination, which is stored in the storage part 108, and, if it is determined that the SSID matches the SSID contained in the detected beacon signal, the arrival at the destination.

Description

  The present invention relates to a portable terminal, a destination arrival notification method, and a program.

In order to prevent passengers from traveling, it is possible to set a mobile phone alarm to notify you by sound or vibration when you arrive at your destination on a train, etc. is there. In this case, if the train or the like is delayed, the mobile phone reports the expected arrival timing before reaching the destination.
In order to eliminate such inconvenience, when the mobile phone arrives at the destination set in advance, the server installed in the train notifies the mobile phone that the destination has been reached, and the mobile phone is vibrated. A technique for informing that effect has been proposed (see, for example, Patent Document 1).

JP 2009-166759 A

  However, in the technique disclosed in Patent Document 1, it is necessary to install a server that can acquire position information indicating the position of the train in the train, and the arrival at the destination is notified with a simple configuration. I can't.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a portable terminal, a destination arrival notification method, and a program capable of notifying arrival at a destination with a simple configuration. .

In order to achieve the above object, a mobile terminal according to the first aspect of the present invention provides:
A destination information storage unit for storing destination position information indicating the position of the destination;
A destination AP information storage unit for storing AP identification information for identifying an access point capable of communicating at the destination;
A detection unit for detecting the access point;
A determination unit that determines whether the AP identification information stored in the destination AP information storage unit matches the detected AP identification information of the access point when the detection unit detects the access point When,
A notification unit for notifying that the destination has been reached when it is determined that the AP identification information stored in the destination AP information storage unit matches the detected AP identification information of the access point;
It is characterized by providing.

In order to achieve the above object, a destination arrival notification method according to the second aspect of the present invention includes:
A detection step of detecting an access point;
A discriminating step for discriminating whether or not the AP identification information for identifying the access point capable of communicating at a destination matches the AP identification information of the detected access point when the access point is detected;
A notification step of notifying that the destination has been reached when it is determined that the AP identification information for identifying the access point capable of communicating at the destination matches the AP identification information of the detected access point;
It is characterized by providing.

In order to achieve the above object, a program according to the third aspect of the present invention provides:
On the computer,
A detection procedure for causing the detection unit to detect the access point;
A discriminating procedure for discriminating whether or not the AP identification information for identifying the access point communicable at the destination matches the AP identification information of the detected access point when the access point is detected;
A notification procedure for notifying that the destination has been reached when it is determined that the AP identification information for identifying an access point capable of communicating at the destination matches the AP identification information of the detected access point;
Is executed.

  ADVANTAGE OF THE INVENTION According to this invention, it can alert | report that it arrived at the destination with simple structure.

It is a block diagram which shows the structure of the destination arrival notification system which concerns on embodiment of this invention. It is a block diagram which shows the structure of the mobile telephone shown in FIG. It is a block diagram which shows the structure of the data server shown in FIG. It is a figure for demonstrating the structure of AP information DB shown in FIG. It is a flowchart for demonstrating the destination setting process which the control part shown in FIG. 2 performs. It is a flowchart for demonstrating the AP identification information provision process which the control part shown in FIG. 3 performs. (A) And (b) is a figure for demonstrating an example of a destination input screen and an unregistered notification screen, respectively. It is a flowchart for demonstrating the alerting | reporting process which the control part shown in FIG. 2 performs. It is a figure for demonstrating the path | route when a mobile telephone moves from the departure place to the destination. (A) And (b) is a figure for demonstrating the operation | movement which produces | generates destination DB from AP information DB.

  Hereinafter, a destination arrival notification system 100 according to an embodiment of the present invention will be described with reference to the drawings.

As shown in FIG. 1, a destination arrival notification system 100 according to the present embodiment includes a mobile phone 10 that can be connected to a wireless local area network (LAN), a plurality of base stations 20 (20 _{1 to} 20 _m ), A plurality of wireless LAN APs (access points) 30 (30 ₁₁ to 30 _nm ), a data server 40, and a plurality of communication networks 50 (50 ₁ to 50 _m ) are provided.
In addition to the general call function, the mobile phone 10 acquires AP identification information for identifying the AP 30 that can communicate at the destination from the data server 40 via the nearest base station 20, and the acquired AP identification information is attached. When the detected AP 30 is detected, it has a characteristic function of notifying that it has arrived at the destination.

In this embodiment, the base station 20 _j and the plurality of APs 30 _ij are connected to a communication network 50 _j (i = 1, 2,... N; j = 1, 2,... M). Further, the arbitrary communication network 50 _p and the communication network 50 _q (p ≠ q) are connected directly or via another communication network 50 _r (r ≠ p, q).

As described above, the mobile phone 10 has the general call function, and also acquires, from the data server 40, the AP identification information for identifying the AP 30 that can communicate with the destination via the nearest base station 20. When the AP 30 to which the AP identification information is attached is detected, the fact that it has arrived at the destination is notified.
As shown in FIG. 2, the mobile phone 10 includes a wireless communication unit 101, a wireless LAN communication unit 102, an operation unit 103, a display unit 104, a codec unit 105, a speaker 106, and a microphone (microphone) 107. A storage unit 108 and a control unit 109.

  The wireless communication unit 101 is configured by a communication device adapted to a communication method such as a CDMA (Code Division Multiple Access) method or a GSM (Global Systems for Mobile communications) method, and is connected to the vicinity via an antenna 101a. Wirelessly communicates with the base station 20. The wireless communication unit 101 demodulates the audio signal received from the nearby base station 20 via the antenna 101 a and then supplies the demodulated audio signal to the codec unit 105. In addition, the wireless communication unit 101 modulates the audio signal supplied from the codec unit 105, and then transmits the modulated audio signal to the nearby base station 20 via the antenna 101a.

  The wireless LAN communication unit 102 includes a communication interface adapted to a communication standard such as Ethernet (registered trademark), and performs wireless communication with a nearby AP 30 via an antenna 102a.

  The operation unit 103 includes operation buttons, a numeric keypad, and the like, and supplies an operation signal according to a user operation to the control unit 109.

  The display unit 104 includes an LCD (Liquid Crystal Display) or the like, and displays a standby screen or the like under the control of the control unit 109.

The codec unit 105 includes a codec, a DAC (Digital to Analog Converter), an ADC (Analog to Digital Converter), an amplifier, and the like. The codec unit 105 decodes the digital audio signal supplied from the wireless communication unit 101 and converts it into an analog signal. Thereafter, the converted analog signal is amplified and supplied to the speaker 106 to output sound.
The codec unit 105 converts the analog audio signal supplied from the microphone 107 into a digital audio signal, encodes the encoded audio signal, and then supplies the encoded digital signal to the wireless communication unit 101.

  The speaker 106 is driven by an analog audio signal supplied from the codec unit 105 and emits sound. In addition, the speaker 106 emits a warning sound that informs the arrival at the destination under the control of the control unit 109. The speaker 106 includes earphones, headphones, and the like.

  The microphone 107 generates an analog audio signal based on surrounding sounds such as a voice uttered by the user, and supplies the generated audio signal to the codec unit 105.

  The storage unit 108 is configured by a flash memory or the like, and stores a destination DB that stores AP identification information acquired from the data server 40. Details of the destination DB will be described later.

  The control unit 109 includes a CPU (Central Processing Unit), a memory, and the like. The CPU 30 executes a predetermined program stored in the memory, whereby the AP 30 that can communicate at the destination via the nearest base station 20. The AP identification information is acquired from the data server 40, and when the AP 30 to which the acquired AP identification information is attached is detected, the arrival at the destination is notified. Further, the control unit 109 functions as a timer 1091. Details of the function of the control unit 109 and the control to be executed will be described later.

  The base station 20 shown in FIG. 1 relays communication between the mobile phone 10 and the data server 40 in addition to relaying communication between the mobile phone 10 and another mobile phone 10.

The AP 30 relays communication between the mobile phone 10 and other communication devices.
In the present embodiment, the AP 30 periodically transmits a beacon signal including its own device SSID (Service Set Identifier). In order to facilitate understanding, it is assumed that the AP 30 can wirelessly communicate with a communication device whose distance from the own device is within a predetermined threshold L (for example, 90 m) or less.

  The data server 40 is a computer that provides AP identification information of the AP 30 that can communicate at the destination in response to a request from the mobile phone 10, and as shown in FIG. 3, a communication unit 401, an operation unit 402, A display unit 403, a storage unit 404, and a control unit 405 are provided.

  The communication unit 401 includes a communication interface adapted to a communication standard such as Ethernet (registered trademark), and communicates with the mobile phone 10 via the communication network 50 and the base station 20.

  The operation unit 402 includes a keyboard, a mouse, and the like, and supplies an operation signal corresponding to a user operation to the control unit 405.

  The display unit 403 includes an LCD (Liquid Crystal Display) or the like, and displays various images under the control of the control unit 405.

The storage unit 404 includes a magnetic disk or the like, and includes an AP information DB (database) 4041.
As shown in FIG. 4, the AP information DB 4041 prestores AP identification information for identifying the AP 30 and AP position information indicating the position of the AP 30 to which the AP identification information is attached in association with each other. In this embodiment, the SSID (Service Set Identifier) attached to the AP 30 is included in the AP identification information, and the latitude and longitude indicating the position of the AP 30 are included in the AP position information.

  The control unit 405 shown in FIG. 3 includes a CPU (Central Processing Unit), a memory, and the like, and the CPU executes a predetermined program stored in the memory, thereby responding to a request from the mobile phone 10 and receiving a destination. The AP identification information of the AP 30 that can communicate with the network is provided.

  A communication network 50 shown in FIG. 1 is a communication medium that connects the base station 20 and the data server 40 by wire or wirelessly.

  Next, the operation of the destination arrival notification system 100 having the above configuration will be described focusing on the operation of the mobile phone 10.

As described above, the mobile phone 10 has the general call function and acquires the AP identification information of the AP 30 that can communicate at the destination from the data server 40 via the nearest base station 20, and acquires the acquired AP. When the AP 30 with the identification information is detected, it has a characteristic function of notifying that it has arrived at the destination.
Hereinafter, characteristic operations of the mobile phone 10 will be described by taking as an example a case where the user sets a destination and carries the mobile phone 10 to move to the destination.

  When the user wants to set a destination, the user operates the operation unit 103 and gives an instruction to that effect. In response to the user's operation instruction, the control unit 109 starts the destination setting process shown in FIG. 5, and first displays a screen (destination input screen) for inputting position information indicating the position of the destination. (Step S11). An example of the destination input screen is shown in FIG.

Subsequently, the control unit 109 determines whether or not destination position information has been input (step S12).
Specifically, the control unit 109 determines whether or not the destination position information is input to the text box 1041 of the destination input screen and the setting button 1042 is pressed. When the destination position information is input to the text box 1041 of the destination input screen and the setting button 1042 is pressed, the control unit 109 determines that the destination position information has been input. On the other hand, the control unit 109 determines that the destination position information is not input when the destination position information is not input in the text box 1041 of the destination input screen or when the setting button 1042 is not pressed. To do.

When it is determined that the destination position information is not input (step S12; No), the control unit 109 repeats step S12.
On the other hand, if it is determined that the destination location information has been input (step S12; Yes), the control unit 109 transmits an AP identification information acquisition request of the AP 20 that can communicate at the destination to the data server 40 (step S12). S13). In the present embodiment, the control unit 109 stores the input destination position information in the storage unit 108, and includes the destination position information in the AP identification information acquisition request described above.

In response to the AP identification information acquisition request, the control unit 405 of the data server 40 starts the AP identification information provision process shown in FIG. 6 and first determines whether there is an AP 30 that can communicate at the destination. (Step S21).
Specifically, the control unit 405 determines that the AP position information in which the distance between the position specified by the destination position information included in the acquisition request and the position specified by the AP position information is equal to or less than a predetermined threshold L is AP. It is determined whether or not the information is stored in the information DB 4041.
The control unit 405 stores in the AP information DB 4041 AP position information in which the distance between the position specified by the destination position information included in the acquisition request and the position specified by the AP position information is equal to or less than a predetermined threshold L. If it is determined that there is an AP 30 that can communicate at the destination, it is determined. On the other hand, the control unit 405 stores AP position information in which the distance between the position specified by the destination position information included in the acquisition request and the position specified by the AP position information is equal to or less than a predetermined threshold L in the AP information DB 4041. If it is not stored, it is determined that there is no AP 30 that can communicate at the destination.

  When it is determined that there is an AP 30 that can communicate at the destination (step S21; Yes), the control unit 405 extracts AP identification information of the AP 30 that can communicate at the destination from the AP information DB 4041, and extracts the extracted AP identification information. The stored destination DB is generated (step S22). The control unit 405 transmits the generated destination DB to the mobile phone 10 (step S23), and ends the AP identification information provision process.

  On the other hand, when the control unit 405 determines in step S21 described above that there is no AP 30 that can communicate at the destination (step S21; No), the AP 30 that can communicate at the destination is not registered in the AP information DB 4041. Is transmitted to the mobile phone 10 (step S24), and the AP identification information providing process is terminated.

  Returning to FIG. 5, the control unit 109 of the mobile phone 10 indicates that the destination DB storing the AP identification information of the AP 30 communicable at the destination or the AP 30 communicable at the destination is not registered in the AP information DB 4041. An unregistered notification is received from the data server 40 (step S14). Subsequently, the control unit 109 determines whether or not the destination DB has been received (step S15). When determining that the destination DB has been received (step S15; Yes), the control unit 109 stores the received destination DB in the storage unit 108 (step S16), and ends the destination setting process.

On the other hand, if the control unit 109 determines in step S15 described above that the destination DB has not been received (step S15; No), a screen that displays the unregistered notification received from the data server 40 (unregistered notification screen). Is displayed on the display unit 104 (step S17). An example of the unregistered notification screen is shown in FIG.
The control unit 109 returns the process to step S11 when the OK button 1043 on the unregistered notification screen is pressed.

  In this way, when there is an AP 30 that can communicate at the destination, the destination DB storing the AP identification information of the AP 30 is stored in the storage unit 108 of the mobile phone 10.

The mobile phone 10 searches for the AP 30 to which the AP identification information stored in the destination DB is attached when the destination setting process is completed, and when the AP 30 is detected, the mobile phone 10 has arrived at the destination. Is notified.
Hereinafter, a characteristic operation of the mobile phone 10 will be described.

  The control unit 109 starts the notification process shown in FIG. 8 upon completion of the destination setting process, and first resets the counter value t of the timer 1091 to 0 to start timing (step S31). The control unit 109 determines whether or not the counter value of the timer 1091 has become equal to or greater than a predetermined threshold T (step S32). The predetermined threshold T corresponds to a period in which the mobile phone 10 searches (scans) the AP 30.

When the control unit 109 determines that the counter value of the timer 1091 is less than the predetermined threshold T (step S32; No), the control unit 109 repeats step S32.
On the other hand, when determining that the counter value of the timer 1091 is equal to or greater than the predetermined threshold T (step S32; Yes), the control unit 109 causes the wireless LAN communication unit 102 to search for a nearby AP 30 (step S33).
Specifically, the control unit 109 supplies a search instruction signal for searching for the AP 30 to the wireless LAN communication unit 102. The wireless LAN communication unit 102 searches for the AP 30 by detecting a beacon signal transmitted from the AP 30 in response to the search instruction signal supplied from the control unit 109. When the wireless LAN communication unit 102 detects a beacon signal transmitted from the AP 30, the wireless LAN communication unit 102 notifies the control unit 109 of the fact and the SSID included in the beacon signal. Notice.

  The control unit 109 determines whether or not a beacon signal is detected based on the notification from the wireless LAN communication unit 102 (step S34). When the control unit 109 determines that a beacon signal has been detected (step S34; Yes), the SSID included in the AP identification information stored in the destination DB is any of the SSIDs included in the notification from the wireless LAN communication unit 102. It is determined whether or not they match (step S35).

  If the control unit 109 determines that the SSID included in the AP identification information stored in the destination DB matches one of the SSIDs included in the notification from the wireless LAN communication unit 102 (step S35; Yes), the control unit 109 By emitting a warning sound, notification of arrival at the destination is given (step S36), and the notification process is terminated.

  On the other hand, if the control unit 109 determines that the beacon signal is not detected in step S34 described above (step S34; No), and the SSID included in the AP identification information stored in the destination DB in step S35 is a wireless LAN. When it is determined that none of the SSIDs included in the notification from the communication unit 102 matches (step S35; No), the process returns to step S31. In this way, the control unit 109 repeats the above processing.

  The above operation will be specifically described with reference to FIGS.

  In the following, the mobile phone 10 is set as an example in which the user sets the destination position information (latitude and longitude of the destination) as (north latitude) 35 ° 40'55 "and (east longitude) 139 ° 46'03". The operation of the data server 40 will be described. In order to facilitate understanding, it is assumed that the AP information DB 4041 stores AP identification information and AP position information in association with each other as shown in FIG.

In this case, the control unit 405 of the data server 40 determines whether there is an AP 30 that can communicate at the destination specified by the position information (35 ° 40′55 ″, 139 ° 46′03 ″) in step 21 of FIG. Determine whether or not.
Specifically, the control unit 405 determines whether or not there is an AP 30 whose distance from the destination is a predetermined threshold L = 90 m or less.
In this embodiment, for example, a conversion formula for converting a unit amount of latitude and longitude into a distance is stored in the storage unit 404 in advance, such as latitude 1 second = 30 m and longitude 1 second = 31 m. Based on these conversion equations, the control unit 405 searches the AP information DB 4041 for AP position information where the distance between the destination and the AP 30 is a predetermined threshold L = 90 m or less, and is shaded in FIG. The indicated AP position information S0102, S0103, S0104 is specified.
In this case, the control unit 405 determines that there is an AP 30 that can communicate at the destination (step S21).

  As shown in FIG. 10B, the control unit 405 extracts the AP identification information S0102, S0103, S0104 of the AP 30 that can communicate at the destination from the AP information DB 4041, and stores the extracted AP identification information in the destination DB. Is generated (step S22), and the generated destination DB is transmitted to the mobile phone 10 (step S23).

  In order to receive the destination DB from the data server 40, the control unit 109 of the mobile phone 10 becomes Yes in step S15, and stores the received destination DB in the storage unit 108 (step S16).

  In this way, the destination DB storing the AP identification information of the AP 30 that can communicate at the destination is stored in the storage unit 108 of the mobile phone 10.

Next, it is assumed that the mobile phone 10 has moved from the departure place PS to the destination PE as shown by a locus R1 in FIG. It is assumed that beacon signals transmitted by AP30 _1m , AP30 _2m , and AP30 _3m near the destination include S0102, S0103, and S0104 as the respective SSIDs.
In this case, since the wireless LAN communication unit 102 detects the beacon signals transmitted from the neighboring AP30 _1m , AP30 _2m , and AP30 _3m , the result is Yes in step S34 in FIG.

  In addition, since any of the SSIDs (S0102, S0103, S0104) included in the AP identification information stored in the destination DB matches with any of the SSIDs (S0102, S0103, S0104) included in the detected beacon signal, In step S35, the answer is Yes, and the control unit 109 notifies that the destination has been reached (step S36).

  As described above, the control unit 109 acquires the destination DB storing the AP identification information of the AP 30 that can communicate at the destination from the data server 40 and is included in the AP identification information stored in the destination DB. When a beacon signal including the SSID is detected, a notification that the destination has been reached is notified. For this reason, it can alert | report that it arrived at the destination with simple structure.

  Further, since the function of connecting to the wireless LAN that the mobile phone 10 generally has is used, the development cost of the mobile phone 10 according to the above embodiment can be reduced. Furthermore, since the AP 30 is often installed indoors, the mobile phone 10 can notify that it has arrived at the destination even indoors. Further, the power consumption of the mobile phone 10 can be reduced as compared with a system that measures its own position periodically by GPS (Global Positioning System) and determines whether or not the vehicle has arrived at the destination.

  The present invention is not limited to the above embodiments, and various modifications and applications are possible. For example, the configuration and operation of the hardware shown in the above description are examples, and the present invention is not limited to these, and can be changed and applied as appropriate.

In the above embodiment, the data server 40 stores the AP information DB 4041 in the storage unit 404, but the present invention is not limited to this, and the mobile phone 10 may store the AP information DB 4041 in the storage unit 108. The mobile phone 10 may further include a portable memory (for example, memory card) reader (reading unit), and the AP information DB 4041 may be stored in the portable memory.
In this case, the control unit 109 of the mobile phone 10 may execute the AP identification information provision process shown in FIG.

In the above embodiment, in order to facilitate understanding, the user directly inputs the latitude and longitude of the destination as the location information of the destination, but the mobile phone 10 displays a map on the display unit 104. The user may specify the destination from the displayed map by operating the operation unit 103.
In this case, the mobile phone 10 includes a map DB that stores information on the map image (image information) and position information indicating a position on the map in the storage unit 108, and the control unit 109 is designated by the operation unit 103. The position information corresponding to the determined position may be acquired from the map DB.

In the above embodiment, only one location information of the destination is set, but location information of a plurality of destinations may be set.
In this case, the control unit 109 notifies the destination when the SSID included in any of the AP identification information stored in the destination DB matches one of the SSIDs included in the notification from the wireless LAN communication unit 102. What is necessary is just to alert | report.

In the above embodiment, when there are a plurality of APs 30 that can communicate at the destination, the control unit 405 of the data server 40 extracts the AP identification information of all communicable APs 30 from the AP information DB 4041 and generates the destination DB. However, the present invention is not limited to this. For example, when there are a plurality of APs 30 that can communicate at the destination, the AP identification information of the AP 30 closest to the destination is extracted from the AP information DB 4041 and the destination DB is generated. Good. The same applies to the case where the mobile phone 10 stores the AP information DB 4041 in the storage unit 108 and the control unit 109 executes the AP identification information providing process shown in FIG.
In this case, the control unit 405 or 109 controls the AP whose distance between the position specified by the destination position information and the position specified by the AP position information stored in the AP information DB 4041 is equal to or less than a predetermined threshold L. What is necessary is just to extract the position information that minimizes the distance from the AP information DB 4041 and generate the destination DB.

In the above embodiment, when there are a plurality of AP identification information stored in the destination DB, the control unit 109 of the mobile phone 10 determines that any of the SSIDs included in these AP identification information is sent from the wireless LAN communication unit 102. If it matches any of the SSIDs included in the notification, the fact that it has arrived at the destination is informed, but the present invention is not limited to this. For example, the control unit 109 counts the number of matches indicating the number of matching SSIDs. The notification mode may be changed based on the number of matches.
For example, as in the specific example described above, the SSIDs included in the AP identification information stored in the destination DB are S0102, S0103, S0104, and the SSIDs included in the notification from the wireless LAN communication unit 102 are S0102, S0103. , S0104 includes a warning sound of LB1 decibels when any one is included, and when any two are included, notifies with a warning sound of LB2 (> LB1) decibels, and includes all, LB3 ( > LB2) Notification may be made with a louder warning sound as the number of matches increases by giving a warning with a decibel warning sound.

  In the above embodiment, the SSID is included in the AP identification information for identifying the AP 30, but the present invention is not limited to the SSID.

  In the above embodiment, when it is determined that there is no communicable AP 30 at the destination, the control unit 109 redisplays the destination input screen on the display unit 104 and prompts the user to input position information of another destination. It is not limited to this. For example, when it is determined that there is no communicable AP 30 at the destination, the control unit 109 displays an arrival prediction timing input screen for inputting the arrival prediction timing on the display unit 104, and the input arrival prediction timing is stored in the storage unit 108. And when the current date and time acquired from the timer 1091 reaches the expected arrival timing stored in the storage unit 108, it may be notified that the vehicle has arrived at the destination.

  In the present embodiment, the speaker 106 emits a warning sound to notify the arrival at the destination. However, the notification method is not limited to this, for example, the mobile phone 10 includes an indicator, You may alert | report by making this indicator light or blink.

  Note that the portable terminal of the present invention does not need to use a dedicated device and can be realized by a normal computer. For example, the portable terminal of the present invention can be realized by recording and distributing a program and data for causing the computer to execute each of the above-described processes on a recording medium (CD-ROM or the like), and installing and executing the program and data. Further, the distribution of the program and data is not limited to the CD-ROM or the like, and may be performed via a communication line or the like.

  A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Appendix 1)
A destination information storage unit for storing destination position information indicating the position of the destination;
A destination AP information storage unit for storing AP identification information for identifying an access point capable of communicating at the destination;
A detection unit for detecting the access point;
A determination unit that determines whether the AP identification information stored in the destination AP information storage unit matches the detected AP identification information of the access point when the detection unit detects the access point When,
A notification unit for notifying that the destination has been reached when it is determined that the AP identification information stored in the destination AP information storage unit matches the detected AP identification information of the access point;
A portable terminal comprising:

(Appendix 2)
The discrimination unit
Determining whether any of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point;
The notification unit
If it is determined that any of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point, a notification that the destination has been reached is notified.
The mobile terminal according to appendix 1, characterized in that.

(Appendix 3)
The discrimination unit
Determining whether any one of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point;
The notification unit
When it is determined that any one of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point, the fact that the destination has been reached is notified. ,
The mobile terminal according to appendix 1, characterized in that.

(Appendix 4)
An AP information storage unit that stores the AP identification information of the access point and the AP position information indicating the position of the access point in association with each other;
Based on the destination location information stored in the destination information storage unit and the AP location information stored in the AP information storage unit, the AP identification information of the access point that can communicate at the destination is specified, An AP information identification unit stored in the destination AP information storage unit;
The mobile terminal according to any one of appendices 1 to 3, further comprising:

(Appendix 5)
The AP information specifying unit
Based on the destination location information stored in the destination information storage unit and the AP location information stored in the AP information storage unit, an AP whose distance between the destination and the access point is a predetermined threshold or less Identifying identification information and storing it in the destination AP information storage unit;
The mobile terminal according to appendix 4, characterized in that.

(Appendix 6)
The AP information specifying unit
Based on the destination location information stored in the destination information storage unit and the AP location information stored in the AP information storage unit, an AP whose distance between the destination and the access point is a predetermined threshold or less Among the identification information, the AP identification information with the smallest distance is specified and stored in the destination AP information storage unit.
The mobile terminal according to appendix 5, which is characterized by the above.

(Appendix 7)
The detector is
Detecting the access point by detecting a beacon signal transmitted from the access point;
The discrimination unit
Whether the AP identification information stored in the destination AP information storage unit matches the AP identification information included in the beacon signal when the detection unit detects a beacon signal transmitted from the access point Determine
The notification unit
When it is determined that the AP identification information stored in the destination AP information storage unit and the AP identification information included in the beacon signal match, a notification that the destination has been reached is notified.
The mobile terminal according to any one of appendices 1 to 6, characterized in that:

(Appendix 8)
A counting unit that counts a matching number indicating the number of AP identification information that matches the AP identification information of the detected access point among the AP identification information stored in the destination AP information storage unit;
Further comprising
The notification unit
Based on the number of matches, the notification mode is changed.
The mobile terminal according to any one of appendices 1 to 7, characterized in that:

(Appendix 9)
A detection step of detecting an access point;
A discriminating step for discriminating whether or not the AP identification information for identifying the access point capable of communicating at a destination matches the AP identification information of the detected access point when the access point is detected;
A notification step of notifying that the destination has been reached when it is determined that the AP identification information for identifying the access point capable of communicating at the destination matches the AP identification information of the detected access point;
A destination arrival notification method comprising:

(Appendix 10)
On the computer,
A detection procedure for causing the detection unit to detect the access point;
A discriminating procedure for discriminating whether or not the AP identification information for identifying the access point communicable at the destination matches the AP identification information of the detected access point when the access point is detected;
A notification procedure for notifying that the destination has been reached when it is determined that the AP identification information for identifying an access point capable of communicating at the destination matches the AP identification information of the detected access point;
A program characterized by having executed.

10 mobile phone 20 base station 30 AP (access point)
40 data server 50 communication network 100 destination arrival notification system 101 wireless communication unit 101a antenna 102 wireless LAN communication unit 102a antenna 103 operation unit 104 display unit 105 codec unit 106 speaker 107 microphone 108 storage unit 109 control unit 1091 timer 401 communication unit 402 Operation unit 403 Display unit 404 Storage unit 4041 AP information DB
405 control unit

Claims (10)

A destination information storage unit for storing destination position information indicating the position of the destination;
A destination AP information storage unit for storing AP identification information for identifying an access point capable of communicating at the destination;
A detection unit for detecting the access point;
A determination unit that determines whether the AP identification information stored in the destination AP information storage unit matches the detected AP identification information of the access point when the detection unit detects the access point When,
A notification unit for notifying that the destination has been reached when it is determined that the AP identification information stored in the destination AP information storage unit matches the detected AP identification information of the access point;
A portable terminal comprising: The discrimination unit
Determining whether any of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point;
The notification unit
If it is determined that any of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point, a notification that the destination has been reached is notified.
The mobile terminal according to claim 1. The discrimination unit
Determining whether any one of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point;
The notification unit
When it is determined that any one of the AP identification information stored in the destination AP information storage unit matches any of the detected AP identification information of the access point, the fact that the destination has been reached is notified. ,
The mobile terminal according to claim 1. An AP information storage unit that stores the AP identification information of the access point and the AP position information indicating the position of the access point in association with each other;
Based on the destination location information stored in the destination information storage unit and the AP location information stored in the AP information storage unit, the AP identification information of the access point that can communicate at the destination is specified, An AP information identification unit stored in the destination AP information storage unit;
The mobile terminal according to any one of claims 1 to 3, further comprising: The AP information specifying unit
Based on the destination location information stored in the destination information storage unit and the AP location information stored in the AP information storage unit, an AP whose distance between the destination and the access point is a predetermined threshold or less Identifying identification information and storing it in the destination AP information storage unit;
The mobile terminal according to claim 4. The AP information specifying unit
Based on the destination location information stored in the destination information storage unit and the AP location information stored in the AP information storage unit, an AP whose distance between the destination and the access point is a predetermined threshold or less Among the identification information, the AP identification information with the smallest distance is specified and stored in the destination AP information storage unit.
The mobile terminal according to claim 5. The detector is
Detecting the access point by detecting a beacon signal transmitted from the access point;
The discrimination unit
Whether the AP identification information stored in the destination AP information storage unit matches the AP identification information included in the beacon signal when the detection unit detects a beacon signal transmitted from the access point Determine
The notification unit
When it is determined that the AP identification information stored in the destination AP information storage unit and the AP identification information included in the beacon signal match, a notification that the destination has been reached is notified.
The mobile terminal according to claim 1, wherein the mobile terminal is a mobile terminal. A counting unit that counts a matching number indicating the number of AP identification information that matches the AP identification information of the detected access point among the AP identification information stored in the destination AP information storage unit;
Further comprising
The notification unit
Based on the number of matches, the notification mode is changed.
The portable terminal according to claim 1, wherein the portable terminal is a portable terminal. A detection step of detecting an access point;
A discriminating step for discriminating whether or not the AP identification information for identifying the access point capable of communicating at a destination matches the AP identification information of the detected access point when the access point is detected;
A notification step of notifying that the destination has been reached when it is determined that the AP identification information for identifying the access point capable of communicating at the destination matches the AP identification information of the detected access point;
A destination arrival notification method comprising: On the computer,
A detection procedure for causing the detection unit to detect the access point;
A discriminating procedure for discriminating whether or not the AP identification information for identifying the access point communicable at the destination matches the AP identification information of the detected access point when the access point is detected;
A notification procedure for notifying that the destination has been reached when it is determined that the AP identification information for identifying an access point capable of communicating at the destination matches the AP identification information of the detected access point;
A program characterized by having executed.

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