KR101360145B1 - Remote controlling system for automatic satellite - Google Patents

Abstract

An automatic satellite antenna remote control system comprising a wireless terminal and a satellite antenna, wherein the satellite antenna receives location information of the wireless terminal and / or location information of the base station from the wireless terminal, thereby receiving at least one of an elevation angle, an azimuth angle, and a skew of the satellite. An automatic satellite antenna remote control system using wireless communication is provided, characterized in that determining one.

Description

Automatic satellite antenna remote control system {Remote controlling system for automatic satellite}

The present invention relates to an automatic satellite antenna remote control system, an automatic satellite antenna, and a wireless terminal.

Satellite antennas receive or transmit signals from satellites. These conventional satellite antennas need to determine the elevation angle, azimuth angle, and skew for the satellite, and mainly use a GPS sensor or a geomagnetic sensor. For example, elevation angles and skews use GPS sensors, and azimuth angles use geomagnetic sensors.

On the other hand, automatic satellite antennas using GPS sensors determine the elevation angle and skew as the GPS location information, detect the satellite signal strength while rotating, and search for the satellite, but it may take several minutes or longer for GPS to receive the signal. .

In addition, conventional satellite antennas use SD memory card, serial communication, or USB memory to update satellite information such as satellite name, frequency, polarization type, symbol rate, and satellite identification number. It costs money and causes inconvenience to the user.

According to an aspect of the present invention, an automatic satellite antenna remote control system, an automatic satellite antenna, and a wireless terminal using wireless communication, which can be conveniently updated by the user without the need for a separate remote controller, can be provided.

According to another aspect of the present invention, since the position information is received from the wireless terminal to determine the values for elevation angle, orientation, and skew, the automatic satellite antenna remote control system using wireless communication that can search the satellite immediately without waiting time , An automatic satellite antenna, and a wireless terminal may be provided.

According to an embodiment of the invention, a wireless terminal; And a satellite antenna;

The wireless terminal transmits its location information and / or location information of the base station to the satellite antenna, and the satellite antenna uses at least one of an elevation angle, an azimuth angle, and skew of the satellite by using the information received from the wireless terminal. An automatic satellite antenna remote control system using wireless communication is provided, characterized in that determining one.

The wireless terminal may include a Global Positioning System (GPS) for obtaining its own location information, and may transmit the acquired own location information to the satellite antenna.

The wireless terminal may store location information of a base station currently communicating with itself, and transmit the stored location information of the base station to the satellite antenna.

The wireless terminal may provide the satellite antenna with its own location information and / or location information of the base station by Bluetooth or Wi-Fi communication.

And a management server for storing update information, wherein the wireless terminal receives update information from the management server, wherein the update information is one of satellite name, frequency, polarization type, symbol rate, and satellite identification number of the satellite. It may be information for updating at least one.

The wireless terminal transmits the update information received from the management server to the satellite antenna, the satellite antenna updates the information previously stored by using the update information received from the wireless terminal, and uses the updated information It may be to communicate with the satellite.

According to another aspect of the present invention, a wireless communication unit for receiving, from a wireless terminal, location information of the wireless terminal and / or location information of a base station with which the wireless terminal communicates; A central processing unit (CPU); And a memory coupled to the central processing unit to store a program executed by the central processing unit, wherein the program stored in the memory includes elevation angles to satellites using location information received by the wireless communication unit. An automatic satellite antenna may be provided that performs an operation of determining at least one of an azimuth angle and a skew.

The wireless communication unit may receive location information and / or location information of a base station from the wireless terminal by Bluetooth or Wi-Fi communication.

The wireless communication unit further receives, from the wireless terminal, update information for updating at least one of a satellite name, a frequency for the satellite, a polarization type, and a symbol rate and a satellite identification number, and the memory is configured to store the wireless terminal. The program may further include a program for updating previously stored information by using the received update information.

According to another aspect of the present invention, a wireless terminal comprising: a first wireless communication unit; A central processing unit (CPU); And a memory coupled to the central processing unit to store a program executed by the central processing unit, wherein the program stored in the memory includes location information of the wireless terminal and / or the first wireless communication unit. Or storing a program for transmitting the location information of the base station to the satellite antenna, wherein the information transmitted to the satellite antenna is information used to determine at least one of an elevation angle, an azimuth angle, and a skew for the satellite. Can be.

And a second wireless communication unit communicating with a base station, wherein the location information of the base station may be location information of a base station with which the second wireless communication unit communicates.

The wireless terminal may include a Global Positioning System (GPS) for obtaining its own location information.

The memory may further store a program for performing an update operation of transmitting a satellite name, frequency for the satellite, polarization type, and update information for updating at least one of a symbol rate and a satellite identification number to the satellite antenna. .

The program for performing the update operation may receive the update information from the management server through the second wireless communication unit or receive the update information from the user and store the update information in the memory, and transmit the update information stored in the memory to the satellite antenna.

The memory may further store an application for providing a user with a user interface for receiving a command for driving a program for performing an operation of transmitting the location information of the wireless terminal and / or the location information of the base station to the satellite antenna. .

The application may also provide a user interface for receiving a command for driving a program for performing the update operation.

According to one or more embodiments of the present invention, a user can conveniently update satellite information without the need for a separate remote controller.

In addition, the satellite antenna according to the present invention receives the position information from the wireless terminal to determine the value for the elevation, azimuth, and skew, it is possible to search the satellite immediately without waiting time.

1 is a view provided to explain an automatic satellite antenna remote control system according to an embodiment of the present invention,
2 is a functional block diagram of an automatic satellite antenna remote control system according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, and advantages of the present invention will become more readily apparent from the following description of preferred embodiments with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. The terms "comprises" and / or "comprising" used in the specification do not exclude the presence or addition of one or more other elements.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the specific embodiments below, various specific details have been set forth in order to explain the invention in greater detail and to assist in understanding it. However, those skilled in the art can understand that the present invention can be used without these various specific details. In some cases, it is mentioned in advance that parts of the invention which are commonly known in the description of the invention and which are not highly related to the invention are not described in order to prevent confusion in explaining the invention without cause.

1 is a view provided to explain an automatic satellite antenna remote control system (hereinafter, 'automatic satellite antenna remote control system') according to an embodiment of the present invention.

Referring to FIG. 1, an automatic satellite antenna remote control system includes a satellite antenna 100 and at least one wireless terminal 1, 3, 5. Here, the wireless terminals are devices capable of wireless voice communication and / or data communication, such as the notebook computer 1, the smart phone 3, or the smart pad 5. Those skilled in the art should understand that the present invention is not limited to such wireless terminals.

For the purpose of explanation, the automatic satellite antenna remote control system will be described taking the smartphone 3 as an example.

The satellite antenna 100 can receive, from the wireless terminal 3, the location information of the wireless terminal 3 and / or the location information of the base station with which the wireless terminal 3 communicates by wireless communication. Here, the wireless communication may be short-range wireless communication such as Bluetooth or Wi-Fi, but other short-range wireless communication methods may be applied.

The satellite antenna 100 may perform an operation of determining at least one of an elevation angle, an azimuth angle, and a skew with respect to the satellite using the location information received from the wireless terminal 3. The location information received from the wireless terminal 3 is the current location information of the wireless terminal 3 itself, or the base station with which the wireless terminal 3 communicates, where the base station is included in the base station or the Wi-Fi network included in the mobile communication network. It may be a base station, but the location information of the present invention is not limited to this type of base station.

The satellite antenna 100 may also receive wireless information from the wireless terminal 3 via wireless communication for updating the satellite name, the frequency of the satellite, the polarization type, and update information for updating at least one of the symbol rate and the satellite identification number. In addition, you can update previously saved information.

The wireless terminal 3 according to an embodiment of the present invention may have a built-in satellite navigation system (GPS), and may acquire position information of itself 3 from the built-in GPS and transmit it to the satellite antenna 100.

 In addition, the wireless terminal 3 according to an embodiment of the present invention may obtain location information of a base station included in a communication network such as a mobile communication network or a Wi-Fi network and transmit it to the satellite antenna 100. Here, the location information of the base station transmitted to the satellite antenna 100 may be location information of the base station currently communicating with the wireless terminal 3.

In addition, the wireless terminal 3 according to an embodiment of the present invention is an update for updating at least one of a satellite name, a frequency for a satellite, a polarization type, a symbol rate, and a satellite identification number from a server (not shown). The receiver may receive the information and transmit the received update information to the satellite antenna 100.

Meanwhile, the wireless terminal 3 according to an embodiment of the present invention inputs a command for transmitting the position information of the wireless terminal 3 and / or the position information of the base station to the satellite antenna 100 from the user. It includes an application that can provide a user interface that can be received. The application can also provide a user interface that can receive a command to drive a program that performs an update operation.

2 is a functional block diagram of an automatic satellite antenna remote control system according to an embodiment of the present invention.

The automatic satellite antenna remote control system may include a satellite antenna 100, a wireless terminal 200, and a management server 300.

The satellite antenna 100 may include a transceiver 101 capable of transmitting and receiving satellite signals, a driver 103, a central processing unit (CPU) 105, and a memory 107.

The transceiver 101 capable of transmitting and receiving satellite signals may be configured, for example, in the form of a waveguide, but it should be understood that the transceiver of the present invention is not limited to the waveguide. In addition, the transceiver 101 may further include a device such as an LNB.

The driver 103 performs a function of rotating the transceiver 101 under the control of the central processing unit (CPU) 105. For example, the driver 103 rotates the transmitter / receiver to fit the determined elevation, azimuth, and skew ( Left and right and up and down directions). Here, the elevation angle is the angle at which the transceiver views the satellite, the azimuth angle is the direction of the satellite (east, north, south, north, and south), and skew means the angle at which the polarizations (vertical polarization or horizontal polarization) received by the transmission and reception unit form the ground.

The elevation angle, azimuth angle, and skew are determined based on the position of the satellite and the position of the antenna 100, and the information on the position of the satellite may be included in the satellite antenna 100. For example, information about the location of each satellite may be stored in the memory 107.

In the present invention, the antenna 100 determines the elevation angle, the azimuth angle, and the skew using the location information provided from the wireless terminal 200 as the location information of the 100, and searches for the satellite using the location information.

The memory 107 may store various programs executed by the CPU and data for executing the programs.

For example, the memory 107 may store location information and update information received from the wireless terminal 200.

The memory 107 also uses a location information received from the wireless terminal 200 to execute a program (hereinafter, 'determining program') for performing an operation of determining at least one of an elevation angle, an azimuth angle, and a skew with respect to the satellite. Can be stored.

The memory 107 is also stored in advance by using update information (for example, information such as satellite name, frequency, polarization type, and symbol rate and satellite identification number) received from the wireless terminal 200. A program for performing an operation of updating the information (which may be stored in the memory 107) may be further stored.

In the above-described embodiments and embodiments to be described later, one memory is used as an example, but this is merely an example, and it may be configured with a plurality of memories for the purpose of improving performance or convenience of design.

The central processing unit (CPU) 105 controls the operation of the antenna 100 as a whole, and loads and executes a system program for this in the memory 107.

In addition, the central processing unit 105 may execute programs stored in the memory. For example, the central processing unit 105 executes the determination program to determine at least one of the elevation angle, the azimuth angle, and the skew, and stores it in the memory 107. Thereafter, the driving unit 103 rotates the transmitting / receiving unit 101 according to the elevation angle, azimuth angle, and skew stored in the memory 107 under the control of the central processing unit 105.

For another example, the central processing unit 105 may execute an update program to update the satellite name, frequency for the satellite, polarization type, symbol rate, or satellite identification number previously stored in the memory 107. Thereafter, the driver 103 and the transceiver 101 operate according to the updated information.

The wireless communication unit 109 may support near field communication with the wireless terminal 200. For example, location information and update information may be received from the wireless terminal 200 using Wi-Fi or Bluetooth communication. The received information is stored in the memory 107 and used for the above-described determination program and update program.

 The wireless terminal 200 may include a first wireless communication unit 209, a second wireless communication unit 211, a memory 213, and a central processing unit 205.

The first wireless communication unit 209 performs short-range wireless communication with the wireless communication unit 109 of the satellite antenna 100.

The second wireless communication unit 209 may perform voice communication and / or data communication through a mobile communication network or a Wi-Fi network.

The memory 213 may store programs and data necessary for operating the wireless terminal 200.

The memory 213 may also store the management application 207, the location information 206, and / or the base station location information 208. Here, the location information 208 of the base station may be location information on the base station with which the wireless terminal 200 currently communicates.

The memory 213 may further store update information (not shown). Here, the update information may be provided from the management server 300 as information capable of updating the satellite name, frequency of the satellite, polarization type, symbol rate, or satellite identification number.

The memory 213 may also store a program (hereinafter, referred to as a “transmission program”) that performs an operation of transmitting the location information of the wireless terminal 200 and / or the location information of the base station to the satellite antenna.

The memory 213 also performs an update operation of transmitting the satellite name, update information for updating at least one of a satellite name, a frequency for the satellite, a polarization type, and a symbol rate and a satellite identification number to the satellite antenna 100. A program (hereinafter referred to as an "update program") can be stored.

The update information stored in the memory 213 may be transmitted from the management server 300 or directly input from a user. When directly input from the user, the management application 207 stored in the memory 213 may provide a user interface through which the user may directly input update information.

The management application 207 provides a user interface that allows a user to input a command to drive a transmission program and an update program stored in the memory 213.

According to an embodiment of the present invention, the management application 207 and the transmission program and the update program stored in the memory 213 are each composed of separate modules, or the transmission program and the update program are plugged into the management application 207. It may be configured in the form.

The wireless terminal 200 may further include a satellite navigation device (GPS) (not shown). The location information of the wireless terminal 200 is obtained by the satellite navigation device, and the obtained location information is stored in the memory 213. Are stored in.

The central processing unit 205 operates the programs stored in the memory 213 and controls the operation of other components.

The server 300 may store update information for updating at least one of the satellite name, the frequency of the satellite, the polarization type, the symbol rate, and the satellite identification number, and provide the same to the wireless terminal 200.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various modifications and variations are possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by equivalents to the scope of the appended claims, as well as the appended claims.

100: satellite antenna
200: wireless terminal
300: management server

Claims (16)

Wireless terminal;
Satellite antennas; And
And a management server for storing update information.
The wireless terminal transmits its location information and / or location information of the base station to the satellite antenna,
The satellite antenna determines at least one of an elevation angle, an azimuth angle, and a skew of the satellite by using the information received from the wireless terminal.
The wireless terminal receives the update information from the management server or input from the user,
The update information is information for updating at least one of a satellite name, a frequency for the satellite, a polarization type, a symbol rate, and a satellite identification number.
The wireless terminal transmits the update information received from the management server or input from the user to the satellite antenna,
The satellite antenna is an automatic satellite antenna remote control system using wireless communication, characterized in that for updating the information previously stored by using the update information received from the wireless terminal, and communicates with the satellite using the updated information. . The method of claim 1,
The wireless terminal includes a Global Positioning System (GPS) for obtaining its own location information, and transmits its own location information to the satellite antenna. The method of claim 1,
The wireless terminal stores the location information of the base station currently communicating with itself, and transmits the location information of the stored base station to the satellite antenna remote control system using wireless communication. The method of claim 1,
The wireless terminal remote control system using a wireless communication using a wireless communication, characterized in that for providing the satellite antenna with its location information and / or the location information of the base station by Bluetooth or Wi-Fi communication. The method of claim 1,
The wireless terminal remote control system using a wireless communication, characterized in that for transmitting by the short-range wireless communication when transmitting the update information received from the management server or input from the user to the satellite antenna. delete A wireless communication unit which receives, from a wireless terminal, location information of the wireless terminal and / or location information of a base station with which the wireless terminal communicates;
A central processing unit (CPU); And
And a memory coupled to the central processing unit to store a first program and a second program executed by the central processing unit.
The wireless communication unit may further receive update information for updating at least one of a satellite name, a frequency for the satellite, a polarization type, a symbol rate, and a satellite identification number from the wireless terminal,
The first program stored in the memory performs an operation of determining at least one of an elevation angle, an azimuth angle, and a skew with respect to the satellite by using the location information received by the wireless communication unit.
The second program stored in the memory is an automatic satellite antenna, characterized in that for updating the previously stored information by using the update information received by the wireless terminal. The method of claim 7, wherein
The wireless communication unit includes:
Automatic satellite antenna characterized in that for receiving the location information and / or location information of the base station from the wireless terminal by Bluetooth or Wi-Fi communication. delete In a wireless terminal,
A first wireless communication unit;
A second wireless communication unit;
A central processing unit (CPU); And
And a memory coupled to the central processing unit to store a first program and a second program executed by the central processing unit.
The first program stored in the memory transmits the location information of the wireless terminal and / or the location information of the base station to the satellite antenna through the first wireless communication unit.
The information transmitted to the satellite antenna is information used to determine at least one of an elevation angle, an azimuth angle, and a skew with respect to the satellite.
The second program stored in the memory performs an update operation of transmitting to the satellite antenna update information for updating at least one of a satellite name, a frequency for the satellite, a polarization type, a symbol rate, and a satellite identification number, Also
The second program stored in the memory may be configured to receive the update information from a management server through the second wireless communication unit or to receive the update information from a user, and to store the update information stored in the memory to the satellite antenna. A wireless terminal characterized by the above. 11. The method of claim 10,
And the location information of the base station is location information of a base station with which the second wireless communication unit communicates. 11. The method of claim 10,
The wireless terminal includes a Global Positioning System (GPS) for obtaining its own location information. 12. The method of claim 11,
The first wireless communication unit is a wireless terminal, characterized in that for supporting near field communication. delete 14. The method of claim 13,
The memory further includes an application for providing a user with a user interface for receiving a command for driving the first program for performing the operation of transmitting the location information of the wireless terminal and / or the location information of the base station to the satellite antenna. Wireless terminal, characterized in that for storing. 16. The method of claim 15,
The application, the wireless terminal, characterized in that to provide a user interface for receiving a command to drive the second program for performing the update operation to the user.

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