KR20120024123A - Apparatus and method for controling comunication access using altitude - Google Patents

Abstract

PURPOSE: A communication connection control device is provided to connect WiFi with a communication server through a selective access point search. CONSTITUTION: An atmospheric pressure sensor(205) measures pressure about a first point which a mobile terminal locates. A processing unit(207) changes the measured pressure. A communication unit(209) is connected with a communication server through the search of AP(Access Point).

Description

Apparatus and method for controlling communication access using altitude {APPARATUS AND METHOD FOR CONTROLING COMUNICATION ACCESS USING ALTITUDE}

Embodiments of the present invention relate to an apparatus and method for controlling a communication connection which can reduce power consumption by performing a Wi-Fi connection with a communication server through a selective access point search using an altitude corresponding to a location of a mobile terminal. will be.

The mobile terminal can use, for example, a Wi-Fi service as short-range wireless communication. As a Wi-Fi scan method of a mobile terminal, there is a method of manually requesting a Wi-Fi access point search by manually clicking a Wi-Fi signal search button and a method of automatically performing Wi-Fi access point search according to a preset period of the mobile terminal.

In this case, a method of manually searching for a Wi-Fi access point may be relatively inconvenient but inconvenient, and a method of searching for a Wi-Fi access point according to a preset period may be convenient, but power consumption of a mobile terminal may be relatively high. have.

Accordingly, there is a need for a technology capable of providing convenience and reducing power consumption by automatically performing a selective Wi-Fi access point search using an altitude corresponding to the location of the mobile terminal.

According to the present invention, as the selected period arrives, the Wi-Fi connection with the communication server is performed through the selective access point search using the altitude corresponding to the location of the mobile terminal, thereby reducing the power consumption required for unnecessary access point searches. It is aimed at reducing.

In addition, an object of the present invention is to increase the success rate for the Wi-Fi connection by performing an access point search when the altitude distribution of the measured air pressure satisfies the preset registered altitude range.

The apparatus for controlling a communication connection using an altitude for achieving the above object includes an air pressure sensor for measuring an air pressure at a first point at which a mobile terminal is located, a processing unit for converting the measured air pressure to an altitude, and the converted altitude is a database. In the case of searching for, through the access point search, and includes a communication unit for connecting to the communication server and Wi-Fi.

The method for controlling a communication connection using an altitude for achieving the above object includes measuring air pressure at a first point at which a mobile terminal is located, converting the measured air pressure into altitude, and converting the altitude into a database. If found, the method may include a Wi-Fi connection with the communication server through the access point search.

According to an embodiment of the present invention, as the selected period arrives, the Wi-Fi connection with the communication server is performed through the selective access point search using the altitude corresponding to the location of the mobile terminal, thereby eliminating unnecessary access point searches. The power consumption required can be reduced.

In addition, according to an embodiment of the present invention, when the altitude distribution of the measured air pressure satisfies the preset registered altitude range, the access point search may be performed to increase the success rate for the Wi-Fi connection.

1 is a diagram illustrating an example of a network configuration including a communication access control apparatus using an altitude according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a communication access control apparatus using altitude according to an embodiment of the present invention.
3 is a diagram illustrating an access point search condition in an apparatus for controlling communication access using altitude according to an embodiment of the present invention.
4 is a diagram illustrating an application example of a method for controlling communication connection using altitude according to an embodiment of the present invention.
5 is a message flow diagram illustrating a communication access control method using altitude according to an embodiment of the present invention.

Hereinafter, an apparatus and method for controlling a communication connection using altitude according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following specification, a communication access control apparatus using the altitude of the present invention is included in a mobile terminal, and the Wi-Fi connection with the communication server is performed through a selective access point search using an altitude converted from the measured air pressure. do. However, the embodiments of the present invention are provided for convenience of description, and the present invention is not limited thereto. The communication connection control device using the altitude of the present invention may be implemented as an independent server device that is distinguished from a mobile terminal.

1 is a diagram illustrating an example of a network configuration including a communication access control apparatus using an altitude according to an embodiment of the present invention.

Referring to FIG. 1, a network including a communication access control apparatus using an altitude according to an embodiment of the present invention includes a mobile terminal 101, a weather server 103, and a communication server 105.

The mobile terminal 101 may be, for example, a smart phone and may support a Wi-Fi connection. Here, the mobile terminal 101 may be configured to include a communication connection control device using the altitude.

The mobile terminal 101 measures air pressure for the current location, converts it to altitude, and when the converted altitude is the same as the preset altitude, performs a Wi-Fi connection with the communication server through an access point search. In this case, the mobile terminal 101 may reduce the power consumption required for unnecessary access point search by performing the access point search on a limited basis as the period for selecting the access point search comes.

Here, the mobile terminal 101 may use the measured air pressure and the reference air pressure when converting the altitude. Specifically, the mobile terminal 101 transmits a reference pressure request to the weather server 103, and then receives the sea level air pressure corresponding to the position of the mobile terminal 101 from the weather server 103 as the reference pressure. Based on the received barometric pressure, the measured barometric pressure may be converted to the altitude. In this case, the mobile terminal 101 may receive the sea level air pressure from the meteorological server 103 at a predetermined cycle (for example, the selected number or period of air pressure measurement) irrespective of the air pressure measurement.

In addition, the mobile terminal 101 can increase the success rate for the Wi-Fi connection by performing an access point search when the altitude distribution of the air pressure for each location satisfies the preset registered altitude range.

Meanwhile, the mobile terminal 101 displays the Wi-Fi connection state (for example, connection success or disconnection) on the display means, so that the user can easily recognize the Wi-Fi service use state.

The meteorological server 103 may manage the sea level air pressure for each location, and may provide the sea level air pressure corresponding to the position of the mobile terminal 101 to the mobile terminal 101 in response to the reference pressure request of the mobile terminal 101. .

The communication server 105 may provide a Wi-Fi service to the mobile terminal 101 in response to the Wi-Fi connection request according to the access point search of the mobile terminal 101 located at a short distance.

2 is a diagram illustrating a configuration of a communication access control apparatus using altitude according to an embodiment of the present invention.

Referring to FIG. 2, the apparatus 201 for controlling communication connection using altitude according to an embodiment of the present invention includes an interface 203, an air pressure sensor 205, a processor 207, a communication unit 209, and a database 211. It includes.

The interface 203 may receive a command event (eg, a data recording event) from the mobile terminal. In addition, the interface 203 may receive the sea level air pressure corresponding to the first point where the mobile terminal is located from the meteorological server and store it in the database 211. For example, the interface 203 may receive sea level air pressure corresponding to 'Seoul' from the weather server as a response to the reference air pressure request.

The barometric pressure sensor 205 measures the barometric pressure at the first point where the mobile terminal is located. In addition, the barometric pressure sensor 205 may measure the barometric pressure of the first point as a period for selecting the access point by the communication unit 209 arrives.

On the other hand, when the air pressure sensor 205 receives a command event from the mobile terminal at the interface 203, during the time interval set after the command event is received, the barometric pressure sensor 205 measures the air pressure of at least one second point at which the mobile terminal is located. By providing the measurement to the processing unit 207, the processing unit 207 can calculate the registered altitude range using the distribution of air pressure. At this time, the air pressure sensor 205 may measure the air pressure for the second different point as the mobile terminal moves during the time interval.

The processing unit 207 converts the measured air pressure to a high level corresponding to the first point where the mobile terminal is located by the air pressure sensor 205. At this time, the processing unit 207 extracts the sea level air pressure corresponding to the first point received from the meteorological server by the interface 203 from the database 211, and based on the sea level air pressure by the air pressure sensor 205. By doing so, the measured air pressure can be converted highly.

Further, the processing unit 207 does not convert the air pressure highly by the air pressure sensor 205 when the measured air pressure is kept the same within the allowable range as the air pressure measured at the arrival of the immediately preceding cycle. The access point search by 209 may be omitted. Thus, the communication unit 209 may not attempt to establish a Wi-Fi connection when the measured air pressure does not change by the air pressure sensor 205.

Meanwhile, the processor 207 may set a reference altitude for determining whether to perform an access point search before measuring the air pressure at the first point where the mobile terminal is located.

i) the altitude corresponding to the second point

The processing unit 207 may convert the air pressure of the second point of the mobile terminal that generated the command event, measured by the air pressure sensor 205, into a database 211 in a highly converted manner. In this case, the processor 207 may convert the air pressure of the second point into a high level using the sea level air pressure corresponding to the second point received from the weather server.

That is, the processor 207 may record the altitude corresponding to the second point at a time point in the database 211 to determine whether to perform the access point search by utilizing the recorded altitude as a reference altitude. To be.

Ii) an altitude range corresponding to the second point during the set time interval;

The processing unit 207 converts the distribution of air pressure, measured by the air pressure sensor 205, at one or more second points at which the mobile terminal is located, to a registered altitude range during the set time interval after the command event is received. Can be recorded in the database 211. That is, the processor 207 determines whether to perform the access point search by using the recorded altitudes as reference altitudes by recording the altitude ranges corresponding to the second points at the multiple time points in the database 211. To be able.

In addition, the processor 207 may control the power of the barometric pressure sensor 205 or the communication unit 209 according to the Wi-Fi connection state with the communication server. For example, when maintaining the Wi-Fi connection, the processor 207 may 'disable' the power of the barometric pressure sensor 205 and 'activate' the power of the communication unit 209. On the other hand, when the processor 207 does not maintain the Wi-Fi connection, the power of the barometric pressure sensor 205 may be 'activated' and the power of the communication unit 209 may be 'deactivated'.

Therefore, when the processing unit 207 does not maintain the Wi-Fi connection, power consumption of the communication unit 209, which is relatively higher in power consumption than the barometric pressure sensor 205, may be 'disabled', thereby reducing power consumption.

In addition, the processor 207 provides the Wi-Fi connection state to the display means of the mobile terminal, thereby allowing the user to easily recognize the Wi-Fi service use state. For example, if the Wi-Fi is connected, the processing unit 207, 'connection success' information (for example, message, notification display), if the Wi-Fi is not connected,' connection failure 'information, if the connection is disconnected after the Wi-Fi,' connection Information can be provided to the display means of the mobile terminal.

The communication unit 209 may include, for example, a Wi-Fi chipset. When the converted altitude is retrieved from the database 211 by the processing unit 207, the communication server 209 may communicate with the communication server. Perform a Wi-Fi connection. At this time, the communication unit 209 performs a Wi-Fi connection with the communication server through an access point search automatically or according to a preset service usage method, or provides connection access information according to the access point search result and then requests a connection from the user. If this is input, the Wi-Fi connection can be made with the communication server.

In addition, when the registration altitude range including the converted altitude is retrieved from the database 211 by the processing unit 207, the communication unit 209 may perform the Wi-Fi connection with the communication server by searching for the access point.

The database 211 may record the sea level air pressure corresponding to the first point at which the mobile terminal is located, received from the weather server. Also, the database 211 may register an altitude corresponding to a second point of the mobile terminal that generated the command event, or a registered altitude range corresponding to one or more second points where the mobile terminal is located for a predetermined time interval after receiving the command event. You can record more.

3 is a diagram illustrating an access point search condition in an apparatus for controlling communication access using altitude according to an embodiment of the present invention.

Referring to FIG. 3, the apparatus for controlling a communication connection using altitude measures an air pressure at a first point at which a mobile terminal is located, converts the measured air pressure into altitude, and then registers an altitude of the registered altitude including the converted altitude. Once retrieved from the database, the access point can be used to establish a Wi-Fi connection with the communication server.

For example, the communication access control apparatus using the altitude measures the air pressure of the first point at which the mobile terminal is located at 7:25, converts the measured air pressure into altitude, and registers the altitude including the converted altitude. When the altitude range 301 (that is, the altitude corresponding to 7:10, 15, 20, and 25 minutes) is searched in the database, the access point may be connected to the communication server via Wi-Fi.

In this case, the communication access control apparatus using the altitude may search the registration altitude range within the allowable range from the database. That is, in the communication access control apparatus using altitude, the altitude shift (eg, altitude gradient) difference from the database to the altitude registration range from the database is within 10 degrees, and is included in the allowed range with respect to the altitude registration range 301. The altitude range 303 may be searched for, but the altitude trend difference with the registered altitude range is '10 degrees' or more, and thus the altitude range 305 is not searched out of the allowed range.

Therefore, even when the altitude is the same, even if the altitude trend of the registered altitude range is not similar, the communication access control device using the altitude may determine the other place and omit the access point search, thereby not attempting to establish a Wi-Fi connection with the communication server.

4 is a diagram illustrating an application example of a method for controlling communication connection using altitude according to an embodiment of the present invention.

Referring to FIG. 4, the apparatus for controlling a communication connection using the altitude measures an air pressure on the 'third floor' of the 'first building' 401 in which the mobile terminal is located, in association with the generation of a command event of the mobile terminal. A highly converted '200m' can be recorded in a database.

The communication access control device using the altitude measures the air pressure on the 'eighth floor' of the 'second building' 403 in which the mobile terminal is moved, and searches the database for '200m' which converts the measured air pressure to a high level. As a result, the access point can be searched to establish a Wi-Fi connection with the communication server.

Accordingly, the communication access control apparatus using the altitude has a location corresponding to the altitude stored in the database and a location for attempting a Wi-Fi connection, respectively, the 'third floor' and the 'second building' 403 of the 'first building' 401. Even though it is distinguished as '8 floors', the altitude corresponding to each location is the same as, for example, '200m', it is possible to support the Wi-Fi connection of the mobile terminal located on the '8 floors' of the 'second building' 403. .

On the other hand, in the communication access control device using the altitude, the mobile terminal is moved to measure the air pressure on the 'first floor' of the 'second building' 403 in which the mobile terminal is located. As not detected at, the access point search may not be performed.

That is, the communication access control apparatus using the altitude may change the Wi-Fi connection attempt of the mobile terminal according to the altitude of each floor where the mobile terminal is located even in the same 'second building' 403.

5 is a message flow diagram illustrating a communication access control method using altitude according to an embodiment of the present invention.

Here, for convenience of description, the communication connection control apparatus using the altitude, in connection with the generation of a command event (for example, a data recording event) from the mobile terminal before measuring the air pressure at the first point where the mobile terminal is located, access point It is assumed that a reference altitude for determining whether to perform a search is preset in the database.

That is, the communication access control apparatus using the altitude records the air pressure of the second point of the mobile terminal that generated the command event in a database by converting it to a high level, or during the set time interval after the command event is generated, As a result, it is assumed that the distribution of the air pressure, which measures the air pressure at one or more second points at which the mobile terminal is located, is converted into a registered altitude range and recorded in the database.

Referring to FIG. 5, in operation 501, the communication connection control device 201 using altitude measures air pressure at a first point where a mobile terminal is located. Here, the communication access control apparatus 201 using the altitude may measure the air pressure at the first point as a period of time for selecting an access point arrives.

In step 503, the communication connection control device 201 using the altitude converts the measured air pressure into altitude. In this case, the communication connection control apparatus 201 using the altitude may receive sea level air pressure from the meteorological server 103 as a response to the reference air pressure request, and convert the measured air pressure to high altitude based on the sea level air pressure. . Here, when the sea level air pressure corresponding to the first point where the mobile terminal is located is previously stored in the database, the communication connection control device 201 using the altitude may omit the reference pressure request to the weather server 103.

On the other hand, the communication access control device 201 using the altitude does not convert the air pressure highly when the measured air pressure remains the same as the air pressure measured at the arrival of the previous cycle, and within the allowable range, thereby performing an access point search. Can be omitted. Thus, the communication connection control device 201 using the altitude may not attempt to connect to the Wi-Fi when the measured air pressure does not change.

In step 505, the meteorological server 103 extracts a first point at which the mobile terminal is located from the reference pressure request sent from the communication connection control device 201 using the altitude, and calculates the sea level air pressure corresponding to the extracted first point. It can be confirmed from the sea level air pressure for each location stored in the database, and can be provided to the communication access control device 201 using the altitude.

In operation 507, when the converted altitude is retrieved from the database, the communication access control apparatus 201 may attempt to establish a Wi-Fi connection with the communication server through the access point search.

Also, as another embodiment, the communication access control apparatus 201 using the altitude may search the access point when the registered altitude range including the converted altitude is searched in the database.

In step 509, the communication server 105 checks whether the Wi-Fi service is supported for the first point where the mobile terminal is located in association with the Wi-Fi connection request of the communication access control device 201 using the altitude, and confirms the result of the confirmation. In response to the access request, the communication access control apparatus 201 using the altitude may be transmitted.

In operation 511, the communication access control apparatus 201 using the altitude may provide a Wi-Fi service transmitted from the communication server 105 to the mobile terminal when the Wi-Fi service support is possible.

Meanwhile, when the Wi-Fi connection is successful and maintains the connection, the communication access control apparatus 201 using the altitude may 'deactivate' the power of the air pressure sensor and 'activate' the power of the communication unit (eg, the Wi-Fi chipset). . On the other hand, when the Wi-Fi connection fails or is disconnected and the connection is not maintained, the communication access control apparatus 201 using the altitude may 'activate' the power of the air pressure sensor and 'deactivate' the power of the communication unit.

In addition, the communication connection control device 201 using the altitude may provide a Wi-Fi connection state to the mobile terminal. For example, when the Wi-Fi is connected, the communication access control device 201 using the altitude provides 'connection success' information, 'Wireless access' information when Wi-Fi is not connected, or 'disconnected' when Wi-Fi is disconnected. Information can be provided to the mobile terminal.

According to an embodiment of the present invention, as the selected period arrives, the Wi-Fi connection with the communication server is performed through the selective access point search using the altitude corresponding to the location of the mobile terminal, thereby eliminating unnecessary access point searches. The power consumption required can be reduced.

In addition, according to an embodiment of the present invention, when the altitude distribution of the measured air pressure satisfies the preset registered altitude range, the access point search may be performed to increase the success rate for the Wi-Fi connection.

Embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

101: mobile terminal 103: communication server
105: weather server
201: Communication access control device using altitude
203: interface 205: barometric pressure sensor
207: processing unit 209: communication unit
211: database

Claims (16)

An air pressure sensor for measuring an air pressure at a first point at which the mobile terminal is located;
A processing unit which converts the measured air pressure to a high level; And
When the converted altitude is retrieved from the database, the communication unit for connecting to the communication server and the Wi-Fi through the access point search
Communication access control device using a high altitude. The method of claim 1,
An interface for receiving a command event from the mobile terminal
Further comprising:
Wherein,
And converting the air pressure at the second point of the mobile terminal that generated the command event into the database by converting the air pressure measured by the air pressure sensor into the database. The method of claim 1,
An interface for receiving a command event from the mobile terminal
Further comprising:
The barometric pressure sensor,
Measuring a barometric pressure of at least one second point at which the mobile terminal is located during a set time interval after the command event is received;
Wherein,
And converting the measured air pressure distribution into a registered altitude range and recording the same in the database. The method of claim 3,
The communication unit,
And searching the access point if a registered altitude range including the converted altitude is searched in the database. The method of claim 1,
The barometric pressure sensor,
And an air pressure for said first point is measured as a period of time selected for said access point search by said communication unit arrives. The method of claim 5,
When the measured air pressure is kept the same within the allowed range with the air pressure measured at the arrival of the last cycle,
Wherein,
The communication connection control apparatus using the altitude which omits the search of the access point by the said communication part by not converting the said atmospheric pressure highly. The method of claim 1,
If you do not maintain the Wi-Fi connection,
Wherein,
And 'activate' the power of the barometric pressure sensor, and 'deactivate' the power of the communication unit. The method of claim 1,
Interface for receiving the sea level air pressure corresponding to the first point from the weather server
Further comprising:
Wherein,
And a communication connection control device using an altitude that converts the measured air pressure to the altitude based on the sea level air pressure. The method of claim 1,
Wherein,
And providing the Wi-Fi connection state to the display means of the mobile terminal. Measuring air pressure at a first point at which the mobile terminal is located;
Converting the measured air pressure into a high altitude; And
If the converted altitude is retrieved from a database, accessing the communication server via Wi-Fi through an access point search
Communication access control method using the altitude comprising a. The method of claim 10,
Receiving a command event from the mobile terminal;
Measuring an air pressure at one or more second points at which the mobile terminal is located during a set time interval after the command event is received; And
Converting the measured air pressure distribution into a registered altitude range and recording it in the database
Communication access control method using the altitude further comprises. The method of claim 11,
Wi-Fi connection with the communication server,
If a registered altitude range including the converted altitude is searched in the database, connecting to the communication server via Wi-Fi through the access point search
Communication access control method using the altitude comprising a. The method of claim 10,
Measuring the air pressure for the first point,
Measuring the air pressure for the first point as a predetermined period of time arrives with respect to the access point search
Communication access control method using the altitude comprising a. The method of claim 10,
When the measured air pressure is kept the same within the allowed range with the air pressure measured at the arrival of the last cycle,
Omitting the access point search by not converting the barometric pressure highly
Communication access control method using the altitude further comprises. The method of claim 10,
If you do not maintain the Wi-Fi connection,
'Activating' the power of the barometric pressure sensor and 'deactivating' the power of the communication unit
Communication access control method using the altitude further comprises. The method of claim 10,
Providing the Wi-Fi connection state to the display means of the mobile terminal
Communication access control method using the altitude further comprises.

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