JP2014041046A - Terminal device, information processing method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide service information on the basis of a position such as the number of floor corresponding to a user's altitude.SOLUTION: A terminal device comprises: a provided information reception unit which receives a plurality of pieces of altitude information, position information associated with each piece of the altitude information, and service access information associated with each piece of the position information; an altitude calculation unit which calculates an altitude of its own device; an altitude difference calculation unit which calculates an altitude difference on the basis of the altitude calculated by the altitude calculation unit; a position determination unit which determines one piece of altitude information among the plurality of pieces of altitude information on the basis of the altitude difference calculated by the altitude difference calculation unit; and a display unit which identifies the position information associated with the altitude information determined by the position determination unit, and displays service information on the basis of the service access information associated with the position information.

Description

  The present invention relates to a terminal device that displays service information, an information processing method thereof, and a program.

A technique for providing a user's current position to a terminal device held by the user is known. In Patent Document 1, the estimated position of the floor of the building where the pedestrian is located or the floor of the elevator is displayed on the display unit of the position measurement device due to a change in the atmospheric pressure measured by the barometer included in the portable position measurement device. In this case, a pedestrian position measurement method is described in which when there are a plurality of estimated positions, the estimated position having the smallest evaluation coefficient is the position of the pedestrian.
In Patent Document 2, the current altitude is estimated by converting the pressure difference between the measured value of the pressure sensor built in the terminal device carried by the climber and the expected pressure of the area at the current time into an altitude difference, An altitude estimation method for displaying the altitude on the display unit of the terminal device is described.

JP 2009-229204 A JP 2011-257260 A

  However, the technology of Patent Document 1 or 2 does not handle information other than position information, and is based on the position such as the floor number according to the user's altitude in a commercial facility having a plurality of floors such as department stores and supermarkets. Service information could not be provided to users.

  This invention provides the terminal device, information processing method, and program which can solve said subject.

  To achieve the above object, the present invention includes a provision information receiving unit that receives a plurality of altitude information, location information associated with the altitude information, and service access information associated with the location information. An altitude calculation unit that calculates the altitude of the device, an altitude difference calculation unit that calculates an altitude difference based on the altitude calculated by the altitude calculation unit, and the plurality of altitude information based on the altitude difference calculated by the altitude calculation unit A position determination unit that specifies one of the position information, the position information associated with the altitude information identified by the position determination unit, and service information based on the service access information associated with the position information And a display unit.

  In addition, the present invention includes an atmospheric pressure measurement unit that measures atmospheric pressure, and the altitude calculation unit calculates an altitude based on a relational expression between the altitude and the atmospheric pressure measured by the atmospheric pressure measurement unit.

  Further, according to the present invention, the provision information receiving unit communicates with the provision information transmitting device, so that a plurality of altitude information, position information associated with the altitude information, and a plurality of service accesses associated with the position information. And receiving information.

  Further, the present invention is characterized in that the display unit displays only service information selected from a plurality of service information on the display screen.

  Further, the present invention is characterized in that the altitude calculation unit acquires the altitude by GPS.

  The present invention is also an information processing method for a terminal device, wherein the provided information receiving unit includes a plurality of altitude information, location information associated with the altitude information, and service access information associated with the location information. The altitude calculation unit calculates the altitude of the device itself, the altitude difference calculation unit calculates the altitude difference based on the altitude calculated by the altitude calculation unit, and the position determination unit calculates the altitude calculation unit. One of the plurality of altitude information is identified based on the altitude difference, and the display unit identifies the position information associated with the altitude information identified by the position determination unit, and is associated with the position information. An information processing method characterized by displaying service information based on service access information.

  The present invention also provides a computer of a terminal device, provided information receiving means for receiving a plurality of altitude information, location information associated with the altitude information, and service access information associated with the location information, Based on the altitude calculated by the altitude calculating means, the altitude difference calculating means for calculating the altitude difference based on the altitude calculated by the altitude calculating means, and based on the altitude difference calculated by the altitude difference calculating means, Position determining means for identifying one of them, display means for identifying position information associated with the altitude information identified by the position determining means, and displaying service information based on service access information associated with the position information, It is a program characterized by making it function as.

  According to the terminal device, the information processing method, and the program of the present invention, the user can easily confirm the current position according to the altitude, and can easily acquire information useful for the user at the current position according to the altitude. Is obtained.

It is a figure which shows the system configuration common to each embodiment of this invention. It is a block diagram which shows the structure of the terminal device by 1st embodiment of this invention. It is a figure which shows the example of information which the terminal device by 1st embodiment of this invention receives from the outside. It is a figure which shows the example of a screen which the terminal device by 1st embodiment of this invention displays. It is a figure which shows the processing flow of the terminal device by 1st embodiment of this invention. It is a block diagram which shows the structure of the terminal device by 2nd embodiment of this invention. It is a figure which shows the processing flow of the terminal device by 2nd embodiment of this invention.

<First embodiment>
FIG. 1 shows a system configuration common to the embodiments of the present invention.
This system includes a terminal device 1, a provided information transmission device 101, servers 102 and 103, and a network W.
The terminal device 1 communicates wirelessly with the provided information transmitting device 101 and acquires necessary information. Further, the terminal device 1 communicates with the servers 102 and 103 via the network W by wirelessly connecting to the network W, and acquires necessary information.

FIG. 2 is a block diagram showing the configuration of the terminal device 1 according to the first embodiment. FIG. 2 also shows the configuration of the provided information transmitting apparatus 101.
The terminal device 1 includes a provision information reception unit 2, an altitude calculation unit 3, an altitude difference calculation unit 4, a display unit 5, an atmospheric pressure measurement unit 6, a storage unit 7, a position determination unit 8, and a control unit 9.
The provided information transmitting apparatus 101 includes a storage device 11 that stores data of location information, altitude information, and service access information.
The provision information receiving unit 2 of the terminal device 1 receives provision of position information, altitude information, and service access information from the provision information transmission device 101. The atmospheric pressure measurement unit 6 measures the atmospheric pressure around the terminal device 1 and outputs the measured atmospheric pressure information to the altitude calculation unit 3. The altitude calculation unit 3 calculates the altitude of the device itself based on the information received from the provided information reception unit 2 and the atmospheric pressure measurement unit 6. The altitude difference calculation unit 4 calculates an altitude difference with respect to the reference altitude from the reference altitude calculated first by the altitude calculation unit 3 and the altitude calculated after the second time. The position determination unit 8 identifies one of the plurality of altitude information based on the altitude difference calculated by the altitude difference calculation unit 4.
The storage unit 7 stores the information received by the provided information receiving unit 2 from the provided information transmitting apparatus 101, the calculation result calculated by the altitude difference calculating unit 4, and the position information specified by the position determining unit 8. The display unit 5 displays service information based on the service access information associated with the position information specified by the position determination unit 8 on the display screen 50.
The control unit 9 controls the operation of other members.

The provided information transmitting apparatus 101 uses, for example, a short-range wireless communication function of NFC (Near Field Communication) to store the position stored in the storage unit with respect to the terminal apparatus 1 that has entered the communication area. Signals indicating information, altitude information and service access information are transmitted.
The terminal device 1 is, for example, an NFC-compatible smartphone having a reader / writer function. The provided information receiving unit 2 of the terminal device 1 receives signals indicating position information, altitude information, and service access information from the provided information transmitting device 101 by short-range wireless communication. Signals indicating location information, altitude information, and service access information are then sent to the storage unit 7 and stored in the data table T.

  FIG. 3 is a diagram illustrating an example of the data table T. As illustrated in FIG. The data table T has heights of 4 meters from -4.0 [m] to 28.0 [m] as altitude information, and from the first basement to the 8th floor associated with each height as position information. It includes address information such as the number of floors and URL (Uniform Resource Locator, website address) associated with each floor as service access information. However, in this example, the first floor is located at 0 [m] above sea level. The data table T is stored in the storage unit 7. The storage unit 7 also stores position flag information indicating the floor on which the user is currently located. In FIG. 3, this position flag is indicated by a mark “◯”. That is, the data table T includes a plurality of height information.

  FIG. 4 shows the external appearance of the terminal device 1. As shown in FIG. 4, the display screen 50 of the display unit 5 of the terminal device 1 displays a floor guide list 51 and a map list 52 indicating the floor where the user of the terminal device 1 is currently located. For example, when the user is on the second floor with the terminal device 1, the second floor of the floor guide view of the display unit 5 is highlighted (lightened). This highlight allows the user to confirm that he is currently on the second floor.

Further, when the user is on the second floor with the terminal device 1, the terminal device 1, for example, based on the URL of the service access information on the second floor received by the provision information receiving unit 2, the server 102 (see FIG. 1), the map information on the second floor and the service ticket information available on the second floor can be read from the server. And the display part 5 displays the information of the service ticket which can be used on the map of a 2nd floor and the 2nd floor on the display screen 50 based on the read information. In FIG. 4, the map on the second floor shows the position of shop A or shop B, or the position of the elevator. For the service ticket, service tickets 1 to 6 are usable.
The terminal device 1 can be connected to another server 103, and the display screen 50 can also display a link to the service menu of that server.

FIG. 5 shows a processing flow of the terminal device according to the first embodiment of the present invention.
In the description using the processing flow of FIG. 5, in the commercial facility having the floor from the first basement to the eighth floor shown in FIG. The case of moving will be described.

When a user performs shopping at a commercial facility, for example, the terminal device 1 carried by the user is placed over (closer to) the provision information transmitting device 101 installed at the entrance on the first floor.
In addition, the provision information transmission apparatus 101 may be installed in another place on the floor where it is easily visible, for example, on the escalator or elevator side of each floor, and the terminal device 1 carried by the user may be held over the provision information transmission apparatus 101. . However, in this case, the floor on which the provision information transmitting device 101 holding the terminal device 1 carried by the user is the reference floor.

When the user holds the terminal device 1 over the provided information transmitting device 101, the provided information receiving unit 2 of the terminal device 1 receives the location information, altitude information, and service access of all the floors from the provided information transmitting device 101 installed on the first floor. Information is received and stored as a data table T in the storage unit 7 (step S1).
Further, the atmospheric pressure measurement unit 6 measures the atmospheric pressure around the terminal device 1 at an arbitrary interval.

Next, the provided information receiving unit 2 outputs a signal indicating a request for altitude calculation to the altitude calculating unit 3. When a signal indicating a request for altitude calculation is input to the altitude calculation unit 3, the altitude calculation unit 3 reads atmospheric pressure information from the atmospheric pressure measurement unit 6. The altitude calculation unit 3 calculates the altitude using the read first-floor pressure information.
Here, the altitude calculation unit 3 calculates the altitude using a relational expression between atmospheric pressure and altitude under the control of the control unit 9. Then, the altitude calculation unit 3 outputs the calculation result to the altitude difference calculation unit 4. Examples of this relational expression include the following.

In equation (1), “h” indicates altitude, “P” indicates atmospheric pressure, “P0” indicates atmospheric pressure at sea level 0 [m], and “T0” indicates temperature at sea level 0 [m]. The atmospheric pressure “P0” and the temperature “T0” are values that the terminal device 1 obtains and holds in advance from, for example, sea level atmospheric pressure information or temperature information on the Internet.
For example, it is assumed that the pressure “P0” obtained and held in advance is 1013 [hectopascal] and the temperature “T0” is 26.85 [degrees]. If the atmospheric pressure “P” measured by the atmospheric pressure measurement unit 6 at this time is 1013 [hectopascal], the altitude calculation unit 3 calculates the altitude “h” as 0 [m] from the equation (1). m] is output to the altitude difference calculation unit 4.

  Next, the altitude difference calculation unit 4 includes the first altitude calculation result calculated by the altitude calculation unit 3 together with a flag indicating that the current first floor is the reference floor, the first floor position information, the first floor altitude information, The information is stored in the storage unit 7 in association with the service access information of the floor (step S2). In the previous example, the altitude difference calculation unit 4 stores 0 [m] in the table T of the storage unit 7 in association with the position information, altitude information, and service access information on the first floor.

  The altitude calculation unit 3 reads the atmospheric pressure information from the atmospheric pressure measurement unit 6 at arbitrary intervals (for example, every 10 seconds), calculates the altitude each time, and outputs the calculation result to the altitude difference calculation unit 4. . The altitude calculation unit 3 repeats the altitude calculation and the output of the altitude calculation result to the altitude difference calculation unit 4 until a program end request is input.

  Then, the altitude difference calculation unit 4 calculates the altitude difference from the second altitude calculation result by the altitude calculation unit 3 and the altitude calculation result as a reference by the altitude calculation unit 3 from the formula (2), and the calculation result is calculated. Output to the position determination unit 8.

In the formula (2), N is an integer of 2 or larger.
Also, the altitude difference calculation unit 4 calculates the altitude difference from the altitude calculation result as a reference by the altitude calculation unit 3 for each of the third and subsequent altitude calculation results obtained by the altitude calculation unit 3 using equation (2). Then, each time the altitude difference is calculated, the calculation result is output to the position determination unit 8 (step S3).

For example, it is assumed that the second altitude calculation result by the altitude calculation unit 3 is 0 [m] and the altitude calculation result serving as a reference by the altitude calculation unit 3 is 0 [m]. In this case, the altitude difference calculation unit 4 calculates the altitude difference as 0 [m] from Equation (2).
Further, it is assumed that the user subsequently moves on the floor (floor) and the atmospheric pressure measurement result by the atmospheric pressure measurement unit 6 changes to 1012.54 [hectopascal]. In that case, the altitude calculation result by the altitude calculation unit 3 is 4 [m] from the equation (1). Therefore, the altitude difference calculation unit 4 calculates the altitude difference as 4 [m] from Equation (2).

  Next, the position determination unit 8 determines which height (altitude information) of the data table T stored in the storage unit 7 corresponds to the altitude difference calculation result input from the altitude difference calculation unit 4. Then, the position determination unit 8 reads the data table T stored in the storage unit 7 from the determined height, and specifies the floor (position information) (step S4).

Specifically, for example, the atmospheric pressure measurement result by the atmospheric pressure measurement unit 6 on the first floor is 1013 [hectopascal], and then the user moves on the floor, and the atmospheric pressure measurement result by the atmospheric pressure measurement unit 6 becomes 1012.54 [hPa]. Suppose that it has changed. In that case, the altitude calculation unit 3 calculates the altitude as 0 [m] and 4 [m] with respect to each atmospheric pressure according to the equation (1). Then, the altitude difference calculation unit 4 calculates the altitude difference as 4 [m] from Expression (2).
At this time, since the altitude calculation result serving as a reference by the altitude calculation unit 3 is stored in the storage unit 7 as the altitude of the first floor, the position determination unit 8 has the first floor (position information) and 4 [m] (altitude difference). The data table of the storage unit 7 is read from the above and the current position of the user is specified as the second floor.

Further, the position determination unit 8 reads URL address information (service access information) associated with the specified floor from the storage unit 7 and outputs the URL address information to the display unit 5. Then, the display unit 5 accesses the server 102 on the network W based on the URL address information, and acquires the map information of the specified floor and the service ticket information (service information) that can be used on the floor (step S5). And output to the display screen 50. Thereby, the display screen 50 displays the map of the floor specified as service information and the service ticket information usable on the floor (step S6).
Here, the display screen 50 includes, for example, an LCD (Liquid Crystal Display), an organic EL display, or the like.

  Specifically, when the user's current position is specified as the second floor in the example shown in FIG. 3, the position determination unit 8 reads out the URL address information of the second floor from the storage unit 7 and sends the second floor to the display unit 5. URL address information is output. The server 102 on the Internet W is accessed, the map information on the second floor and the service ticket information available on the second floor are read from the server 102 and the information is output to the display unit 5. The display unit 5 accesses a server on the network based on the URL address information, acquires map information on the second floor and service ticket information (service information) that can be used on the second floor, and then outputs the information to the display screen 50. . As a result, the display screen 50 displays a map of the second floor specified as service information and service ticket information usable on the second floor.

  As described above, according to the terminal device 1, when a user performs shopping at a commercial facility, for example, the user can obtain the current floor or a service ticket that can be used on the floor, making it easier to shop. There is an effect.

<Second Embodiment>
FIG. 6 is a block diagram showing the configuration of the terminal device 1a according to the second embodiment. The terminal device 1a includes a provision information receiving unit 2, an altitude calculation unit 3, an altitude difference calculation unit 4a, a display unit 5, an atmospheric pressure measurement unit 6, a storage unit 7, a position determination unit 8, and a control unit 9.
About the structure of the terminal device 1a of 2nd embodiment, the height difference calculating part 4a differs from the height difference calculating part 4 of 1st embodiment. However, the provision information receiving unit 2, the altitude calculation unit 3, the display unit 5, the atmospheric pressure measurement unit 6, the storage unit 7, the position determination unit 8, and the control unit 9 of the second embodiment correspond to those of the first embodiment. Since it is the same as the thing, the description is abbreviate | omitted.
Next, the operation of the altitude difference calculation unit 4a of the second embodiment will be described.

FIG. 7 shows a processing flow of the terminal device according to the second embodiment of the present invention.
In the description using the processing flow of FIG. 7, an example in which the user moves from the first floor to another floor in the commercial facility having the first to eighth floors shown in FIG. 2 will be described. To do.
Further, the processing flow of FIG. 7 differs from the processing flow of FIG. 5 in steps S31 and S41 of the processing flow of FIG. 7, and the other steps are the processing flow of FIG. 7 and the processing flow of FIG. Is common. Therefore, steps 31 and 41 in FIG. 7 will be described below.

  The altitude calculation unit 3 reads the atmospheric pressure information from the atmospheric pressure measurement unit 6 at an arbitrary interval (for example, every 10 seconds), calculates the altitude each time, and outputs the calculation result to the altitude difference calculation unit 4a. The altitude calculation unit 3 repeats the altitude calculation and output of the altitude calculation result to the altitude difference calculation unit 4a until a program end request is input.

  The altitude difference calculation unit 4a calculates the altitude difference from the second altitude calculation result obtained by the altitude calculation unit 3 and the first altitude calculation result obtained by the altitude calculation unit 3, and the position of the calculation result is determined. Output to unit 8.

In the formula (3), N is an integer of 2 or larger.
Also, the altitude difference calculation unit 4a is configured so that each of the second and subsequent calculation results by the altitude calculation unit 3 and the altitude calculation unit 3 are one time before the third and subsequent altitude calculation results by the altitude calculation unit 3. The altitude difference is calculated from the calculated calculation result using equation (3), and the calculation result is output to the position determination unit 8 each time the altitude difference calculation is performed (step S3).

  Next, the position determination unit 8 determines which height (altitude information) of the data table stored in the storage unit 7 corresponds to the altitude difference calculation result input from the altitude difference calculation unit 4a. Then, the position determination unit 8 reads the data table stored in the storage unit 7 from the determined height, specifies the floor (position information), and stores the specified floor (position information) in the storage unit 7. (Step S4).

In the above description, the case where the first floor of the commercial facility is at 0 [m] above sea level has been described as an example. However, the first floor does not have to be 0 [m] above sea level. For example, the altitude calculation unit 3 may calculate the altitude using an equation obtained by correcting the altitude “h” in the equation (1) with the first altitude calculation result performed by the altitude calculation unit 3. That is, the altitude calculation unit 3 may calculate the altitude using a new formula in which “h” is replaced with “h− (first altitude calculation result by the altitude calculation unit 3)” in the formula (1).
Specifically, for example, when the first floor is at 4 [m] above sea level, the altitude may be calculated using an expression in which “h” is replaced with “h−4 [m]” in Expression (1).
When the altitude is calculated using this new formula, even if the first floor of the commercial facility is not 0 [m] above sea level, the altitude calculation result on the first floor by the altitude calculation unit 3 is 0 [m].

  In the above description, the altitude is calculated using the atmospheric pressure information. However, the altitude calculating unit 3 calculates the altitude using information that can be converted into altitudes other than atmospheric pressure, for example, information provided by GPS (Global Positioning System). Also good. In addition, the altitude calculation unit 3 calculates the altitude at arbitrary intervals, and outputs the calculation result to the altitude difference calculation unit 4 in the first embodiment and to the altitude difference calculation unit 4a in the second embodiment. Then explained. However, the altitude calculation unit 3 calculates the altitude only when the user moves on the floor, and the calculation result is the altitude difference calculation unit 4 in the first embodiment, and the altitude difference calculation unit in the second embodiment. You may output to 4a. For example, the display unit 5 displays an icon or the like on the display screen of the terminal device 1a. When the user moves on the floor, the user presses the icon or the like, and the display unit 5 detects the pressing, and as a result, the altitude calculation unit 3 The altitude may be calculated.

  In the above description, the display unit 5 has described an example in which the service information is automatically output to the display screen 50 after the process of step S5 and the service information is displayed. However, the display unit 5 may display the service information in response to a user operation, for example, displaying service information after detecting pressing of an icon or the like by the user.

In the above description, the provided information transmitting apparatus 101 provides one service access information for each floor, but a plurality of service access information may be provided. In this case, the display unit 5 reads a plurality of pieces of service access information associated with the specified floor in the pre-processing in step S5 described above, accesses URLs indicated by the respective service access information, and acquires each service information. And output to the display screen 50. At this time, among the service information for a plurality of service access information, only the service information that has been selected by the user may be output. For example, the user presses an icon or the like, detects the press, and the display unit 5 selects a map view. Then, the display unit 5 displays only the map list 52 on the display screen 50.
In the above description, an example is shown in which the display unit 5 acquires a plurality of service information (map, service ticket information) from a server using one service access information. However, one service access information is used. One service information (for example, only a map) may be acquired from the server.

  According to the terminal device as described above, for example, when a user performs shopping at a commercial facility, the user can obtain the current floor, a service ticket that can be used on the floor, and the like, making shopping easier.

  The terminal device described above has a computer system inside. The process described above is stored in a computer-readable recording medium in the form of a program, and the above process is performed by the computer reading and executing this program. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.

  The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, what is called a difference file (difference program) may be sufficient.

DESCRIPTION OF SYMBOLS 1 ... Terminal device 1a ... Terminal device 2 ... Provided information receiving part 3 ... Altitude calculating part 4 ... Altitude difference calculating part 4a ... Altitude difference calculating part 5 ... Display part 6 ... Atmospheric pressure measurement unit 7 ... Storage unit 8 ... Position judgment unit 9 ... Control unit 11 ... Storage device 50 ... Display screen 51 ... Floor guide view 52 ... Map view 101 ... Provided information transmitting device 102 ... Server 103 ... Server T ... Data table W ... Network

Claims (7)

A provision information receiving unit that receives a plurality of altitude information, location information associated with the altitude information, and service access information associated with the location information;
An altitude calculation unit for calculating the altitude of the device itself;
An altitude difference calculator that calculates an altitude difference based on the altitude calculated by the altitude calculator;
A position determining unit that identifies one of the plurality of altitude information based on the altitude difference calculated by the altitude calculating unit;
A display unit that identifies the location information associated with the altitude information identified by the location determination unit and displays service information based on the service access information associated with the location information;
A terminal device comprising: Equipped with a barometric pressure measurement unit that measures atmospheric pressure,
The terminal device according to claim 1, wherein the altitude calculation unit calculates the altitude based on a relational expression between the altitude and the atmospheric pressure measured by the atmospheric pressure measurement unit. The provision information receiving unit receives a plurality of altitude information, position information associated with the altitude information, and a plurality of service access information associated with the position information by communicating with the provision information transmitting device. ,
The terminal device according to claim 1, wherein the terminal device is a terminal device. The terminal device according to claim 3, wherein the display unit displays only the service information selected from the plurality of service information on the display screen. The terminal device according to any one of claims 1 to 4, wherein the altitude calculation unit acquires the altitude by GPS. An information processing method for a terminal device,
The provided information receiving unit receives a plurality of altitude information, location information associated with the altitude information, and service access information associated with the location information,
The altitude calculation unit calculates the altitude of its own device,
The altitude difference calculator calculates the altitude difference based on the altitude calculated by the altitude calculator.
The position determination unit identifies one of the plurality of altitude information based on the altitude difference calculated by the altitude calculation unit,
An information processing method, wherein the display unit specifies the location information associated with the altitude information identified by the location determination unit, and displays the service information based on the service access information associated with the location information. . The terminal computer,
Provided information receiving means for receiving a plurality of altitude information, location information associated with the altitude information, and service access information associated with the location information,
Advanced calculation means for calculating the altitude of its own device,
An altitude difference calculating means for calculating an altitude difference based on the altitude calculated by the altitude calculating means;
Position determining means for identifying one of the plurality of height information based on the height difference calculated by the height difference calculating means;
Display means for identifying position information associated with the altitude information identified by the position determination means and displaying service information based on service access information associated with the position information;
A program characterized by functioning as

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