JP2014157103A - Electronic apparatus and floor number calculation method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic apparatus such as a cellular phone or smart phone capable of easily displaying a floor number.SOLUTION: An electronic apparatus includes: an atmospheric pressure sensor; altitude change calculation means that calculates the altitude change based on a piece of atmospheric pressure information acquired by the atmospheric pressure sensor; floor number information acquisition means that acquires a piece of information on the floor number of a building; altitude information acquisition means that acquires a piece of altitude information of each floor of the building; and floor number calculation means that calculates the floor number in the building based on the altitude change, the floor number information and the altitude information of the floor.

Description

  The present invention relates to an electronic device such as a mobile phone or a smartphone that displays floor information in a building.

  A conventional electronic device of this type will be described with reference to the drawings.

  FIG. 3 is a configuration diagram of a conventional electronic device.

  In the conventional electronic device 1, the altitude (reference altitude) of the ground where the building is located is designated in advance. When the altitude information of the current position is displayed on the display unit, the altitude information is converted into a relative altitude with respect to the altitude of the ground (reference altitude), and the floor information corresponding to the converted relative altitude is displayed on the display unit. Configured.

  As a prior art document related to the invention of this application, for example, Patent Document 1 is known.

JP 2002-286492 A

  In the conventional electronic device, unless the altitude (reference altitude) of the ground is designated in advance, the relative altitude cannot be calculated, and the floor information cannot be calculated and displayed.

  Accordingly, an object of the present invention is to more easily realize the calculation and display of floors in electronic devices such as mobile phones and smartphones.

  In order to achieve the above object, the present invention provides an atmospheric pressure sensor, an altitude change calculating means for calculating an altitude change based on the atmospheric pressure information acquired by the atmospheric pressure sensor, a floor information acquiring means for acquiring information related to the number of floors of a building, Altitude information acquisition means for acquiring altitude information for each floor of the building, and floor calculation means for calculating the number of floors in the building based on the altitude change, the floor information, and the altitude information for each floor. It is set as the structure provided.

  With the configuration described above, the electronic device of the present invention can calculate and display the change in the number of floors associated with the subsequent movement only by inputting the number of floors serving as a reference in an electronic device such as a mobile phone or a smartphone.

Block diagram of electronic device in Embodiment 1 7 is a flowchart showing the operation of the electronic device in Embodiment 1. Block diagram of conventional electronic equipment

(Embodiment 1)
Hereinafter, the electronic device 5 of the present embodiment will be described with reference to the drawings.

  FIG. 1 is a block diagram of an electronic device 5 in the present embodiment.

  The electronic device 5 includes an atmospheric pressure sensor 6, an altitude change calculating unit 7 that calculates an altitude change based on the atmospheric pressure information acquired by the atmospheric pressure sensor 6, a floor information acquiring unit 8 that acquires information related to the number of floors of the building, a floor of the building And altitude information acquiring means 9 for acquiring altitude information for each, and floor calculation means 10 for calculating the number of floors in the building based on the altitude change, the floor information, and the altitude information for each floor. . In addition, the electronic device 5 includes a display unit 11.

  The display unit 11 is composed of, for example, a liquid crystal display, and displays display information corresponding to a display command input from the floor calculation means 10 (details will be described later), in particular, floor information indicating how many floors the electronic device 5 is in the building. It is configured so that it can be displayed.

  The floor information acquisition means 8 is composed of, for example, a touch panel or a numeric keypad. The floor information acquisition means 8 can accept an input from a user who uses the electronic device 5 and acquires information regarding the floor number of the building. In particular, it is configured such that information (floor information) indicating the number of floors in the building can be received as an input.

  The atmospheric pressure sensor 6 measures the atmospheric pressure at the current position of the electronic device 5 and outputs atmospheric pressure information, which is the measurement result, to the altitude change calculating means 7 (details will be described later).

  The altitude change calculation means 7 is configured to receive an input of atmospheric pressure information from the atmospheric pressure sensor 6.

  The altitude information acquisition means 9 acquires the floor information and the altitude information for each floor. Specifically, the altitude information for each floor is information that represents the altitude for each floor, such as the average altitude (above sea level) for each floor or the altitude from the ground for each floor (ground height). Conceivable. These may be stored in advance in a memory unit (not shown), or may be acquired by communication from a network. For example, altitude information for each floor is stored in advance in the memory unit as information corresponding to the name of the building. Then, the user inputs the name of the building into the electronic device 5 when entering the first floor entrance of the building. Thereby, the building where the user is located can be specified, and the altitude information of each floor of the building can be acquired. Alternatively, altitude information of each floor is stored in advance in the memory unit as information corresponding to building position information (longitude / latitude). And the positional information on the electronic device 5 is specified using a GPS (global positioning system, global positioning system) receiver (not shown). Then, it is possible to specify which building the electronic device 5 is in based on the position information, and to obtain altitude information of each floor of the building.

  The floor calculation means 10 calculates the number of floors in the building of the electronic device 5 based on the height change calculated by the height change calculation means 7, the floor information, and the height information for each floor.

  The floor calculation means 10 outputs a display command to the display unit 11 in accordance with the presence or absence of the floor change. And it is comprised so that the information displayed on the display part 11 may change according to this display command.

  Next, the operation of the electronic device 5 will be described with reference to the flowchart of FIG.

  In step 101, the user operates the floor information acquisition means 8 to input the floor number of the building at present. For example, when entering the first floor of a building, “1F” is input to the touch panel or the like which is the floor information acquisition means 8. As a result, the floor information acquisition means 8 has acquired the floor information. The altitude change calculating means 7 stores the atmospheric pressure information measured by the atmospheric pressure sensor 6 at the time when the floor information is acquired in a recording means such as a memory. Then, the process proceeds to Step 102.

  In step 102, a change in atmospheric pressure is measured as the user moves to the upper (lower) floor in the building. This atmospheric pressure change is measured by the atmospheric pressure sensor 6. The measurement result is output to the altitude change calculation means 7. Then, the process proceeds to Step 103.

  In step 103, the altitude change of the electronic device 5 is calculated based on the atmospheric pressure change measured in step 102. As a method, it is known that the atmospheric pressure at a certain point can be calculated from the atmospheric pressure / temperature of the reference point and the altitude difference from the reference point, and by using this, the altitude difference from the atmospheric pressure at the reference point and the atmospheric pressure at the certain point is used. Can be calculated. For example, Japanese Patent Application Laid-Open No. 2008-241467 is known as such a document.

  In addition, in order to calculate the altitude change with higher accuracy, the information on the sea level pressure and the information on the sea level temperature can be used. Specifically, first, the altitude change calculating means 7 is provided with a sea surface pressure calculating means and a sea surface temperature calculating means. The sea level pressure calculating means acquires information on the sea level pressure via the network. The sea surface temperature calculating means acquires information on the sea surface temperature via the network. Then, the altitude H1 (altitude) is calculated from the atmospheric pressure measured by the atmospheric pressure sensor 6 at the time of obtaining the floor information, the sea level air pressure and the sea surface temperature at the same point, and the altitude H2 from the current air pressure, the sea level air pressure and the sea surface temperature. If (sea level) is calculated and H2-H1 is obtained, the altitude change of the electronic device 5 from the time when the floor information is acquired to the present can be obtained with high accuracy.

  It is possible to use past meteorological statistics for sea level pressure and / or sea level temperature. Past weather statistics are, for example, sea level pressure and / or sea surface temperature for the past several years. As a specific calculation method, for example, if the date and time when pressure measurement is performed is 13:00 on January 1, the sea level pressure and / or sea surface temperature at 13:00 on January 1 for the past several years. And can be used as the sea level pressure and / or the sea level temperature at the current measurement date and time. In this way, the altitude change can be calculated with high accuracy even in a situation where there is no network environment.

  Then, it progresses to step 104 and the height information for every floor acquired from the height information acquisition means 9 is acquired. For example, by acquiring the Wi-Fi (registered trademark) ID, the building in which the electronic device 5 is located is specified. Then, the altitude information of the specified building is read from a memory (not shown). Here, altitude information refers to the floor surface of each floor such that the average altitude (above sea level) of the floor on the first floor of the building is 10 m, and the average altitude (above sea level) of the floor on the second floor of the building is 15 m. Average altitude at sea level.

  Subsequently, proceeding to step 105, the floor calculation means 10 calculates the change in the floor in the building of the electronic device 5 (that is, how many floors the user has moved in the building to the upper layer or lower layer). The change in the number of floors can be calculated based on the height change calculated in step 103, the floor information acquired in step 101, and the height information acquired in step 104. Specifically, the altitude change calculated in step 103 and the floor information acquired in step 101 are added to calculate the altitude of the electronic device 5, and the calculated current altitude and the altitude information for each floor acquired in step 104 are calculated. And the current rank can be calculated. For example, the floor information acquired in step 101 is “1F”, the height change H2-H1 calculated in step 103 is 6 m (altitude above sea level), and the height information for each floor acquired in step 104 is 1F: 5 m, 2F: 10 m, 3F: 15 m (all above sea level). In this case, the floor calculation means 10 calculates that the altitude of the electronic device 5 has increased by 6 m from 1F (5 m) and is currently at an altitude of 11 m. Then, the floor number calculation means 10 compares the current altitude 11 m with the altitude information of each floor, and selects the closest “2F” (that is, it is determined that the electronic device 5 has now moved to 2F).

  If the floor number changes, the process proceeds to step 107. On the other hand, if the current rank does not change, the process proceeds to step 106.

  In step 106, a display command corresponding to the floor information calculated by the floor calculation means 10 is output to the display unit 11.

  As described above, by inputting the floor information, the change in the floor accompanying the subsequent movement can be displayed on the display unit 11. In other words, in the past, when the user could not obtain the reference altitude, both the altitude and the number of floors could not be calculated. However, in the electronic device 5, the user can easily obtain the floor number when calculating and displaying it. It is possible to calculate and display the change of the floor by inputting the floor information that can be generated.

  In the above description, the case where the altitude information for each floor and the current altitude calculated by the atmospheric pressure sensor 6 are above sea level is described, but the present invention is not limited to this. For example, when the altitude information for each floor is the ground height, a method of converting the current altitude to the ground height and comparing it with the altitude information for each floor is applicable. Alternatively, when altitude information for each floor is acquired as an altitude difference between floors, a method of calculating an altitude change by the atmospheric pressure sensor 6 and comparing it with the altitude difference between floors is applicable.

  The memory can be composed of ROM, RAM, or the like. The memory is connected to the altitude change calculation means 7 and is configured to record the atmospheric pressure information measured by the atmospheric pressure sensor 6. Furthermore, the memory can store a control program for the electronic device 5, for example, program data for executing a navigation function.

  In the above description, the case where the present invention is applied to the portable electronic device 5 has been described as an example, but the present invention is not limited thereto. For example, the present invention can be applied to a vehicle.

  The floor information acquisition unit 8 has been described as being configured with, for example, a touch panel or a numeric keypad, but is not limited thereto. For example, it can be configured to acquire from a wireless network such as Wi-Fi (registered trademark) or Bluetooth (registered trademark) by communication.

  In the above description, altitude information is acquired after calculating the altitude change, but the present invention is not limited to this. As long as the altitude information is acquired from the start to step 105, it can be executed at an arbitrary timing.

  In the above description, the sea level air pressure calculating means acquires information on the sea level air pressure via the network. Furthermore, although the sea surface temperature calculation means has been described as acquiring information on the sea surface temperature via the network, the present invention is not limited to this. For example, the user can directly input manually.

  In the above description, the altitude difference H1 is calculated from the atmospheric pressure measured by the atmospheric pressure sensor 6 at the time when the floor information is acquired, the sea level air pressure and the sea surface temperature at the same point, and the current atmospheric pressure, sea level air pressure, and sea surface temperature. However, the present invention is not limited to this, although the altitude difference H2 is calculated from the above and the change in altitude of the electronic device 5 from the time when the floor information is acquired to the present is obtained with high accuracy. For example, it is also possible to obtain the altitude change directly from the pressure change from the time when the floor information is acquired to the present.

  In the above description, the method of averaging the sea level pressure and / or the sea level temperature at 13:00 on January 1 for the past several years has been described, but the present invention is not limited to this. For example, an average value at the same time in a specific period can be used. More specifically, if the date and time when the pressure measurement is performed is 13:00 on January 1, the sea level pressure at 13:00 (early) from January 1 to January 10 for the past several years It is possible to average the sea surface temperature and substitute it as the sea surface pressure and / or the sea surface temperature at the current measurement date and time.

  Note that the way of displaying the floor is not limited to displaying an integer such as “2F” and “3F”. That is, for example, when the distance between the second floor and the third floor is 5 m and the electronic device 5 is at an altitude of 2.5 m from the second floor, it is configured to display using a decimal point such as “2.5F”. Also good. By doing so, the uncomfortable feeling in operation caused by the display fluctuating between 1F and 2F in the middle of the stairs is reduced. Moreover, in the display of a basement, it can represent with a negative number, for example. More specifically, expressions such as “−1F” and “−1.1F” are possible.

  In the present embodiment, it has been described that the altitude change calculated in step 103 and the floor information acquired in step 101 are added to calculate the altitude of electronic device 5, but the present invention is not limited to this. In addition, for example, the altitude information for each floor is acquired as the altitude difference between the floors, and the floor information of the electronic device 5 is obtained based on the comparison between the altitude difference measured by the pressure fluctuation and the altitude difference between the floors. It is possible to calculate.

  Since the electronic device of the present invention can easily realize the floor display, it is useful as an electronic device such as a mobile phone or a smartphone.

DESCRIPTION OF SYMBOLS 5 Electronic device 6 Barometric pressure sensor 7 Altitude change calculation means 8 Floor information acquisition means 9 Altitude information acquisition means 10 Floor calculation means 11 Display part

Claims (9)

An atmospheric pressure sensor;
Altitude change calculating means for calculating an altitude change based on the atmospheric pressure information acquired by the atmospheric pressure sensor;
Floor information acquisition means for acquiring information related to the number of floors of the building;
Altitude information acquisition means for acquiring altitude information for each floor of the building;
An electronic device comprising: a floor calculation means for calculating a floor in the building based on the altitude change, the floor information, and the height information for each floor. The altitude change calculating means includes
Recording means for recording first atmospheric pressure information at the time of obtaining the floor information;
Recording means for recording second atmospheric pressure information at a time point later than the time point at which the floor is acquired;
The electronic apparatus according to claim 1, wherein the altitude change is calculated based on a difference between the first atmospheric pressure information and the second atmospheric pressure information. The electronic device according to claim 1, wherein the altitude information for each floor is a ground altitude corresponding to each floor of the building. The altitude change calculating means includes
Sea level pressure acquisition means;
Sea surface temperature acquisition means,
The altitude change is calculated based on a sea level pressure acquired by the sea level pressure acquisition unit, a sea level temperature acquired by the sea level temperature acquisition unit, and barometric pressure information acquired by the barometric sensor. Electronic equipment. 5. The electronic device according to claim 4, wherein the sea level pressure acquisition unit and / or the sea level temperature acquisition unit acquires the sea level pressure and / or the sea level temperature from the outside of the electronic device via a network. It further comprises sea level pressure recording means for recording the past sea level pressure,
The electronic apparatus according to claim 4, wherein the sea level pressure acquisition unit acquires the past sea level temperature recorded in the sea level pressure recording unit. A sea surface temperature recording means for recording the past sea surface temperature;
The electronic device according to claim 4, wherein the sea surface temperature acquisition unit acquires the past sea surface temperature recorded in the sea surface temperature recording unit. The electronic device according to claim 1, wherein the altitude information acquisition unit includes a global positioning system receiver that acquires position information. Atmospheric pressure acquisition means;
Altitude change calculating means for calculating an altitude change based on the atmospheric pressure information acquired by the atmospheric pressure acquiring means;
Floor information acquisition means for acquiring information related to the number of floors of the building;
Altitude information acquisition means for acquiring altitude information for each floor of the building,
A floor calculation method for calculating a change in the number of floors in the building based on the height change, the floor information, and the height information for each floor.