KR20040044632A - Apparatus for switching hand free mode by responding to velocity and method thereof - Google Patents

Abstract

PURPOSE: A hands-free conversion device by a speed response is provided to mount a Bluetooth module and a GPS module on a portable terminal, and to sense the speed of a car by using the GPS module, then to convert into a speech mode between a Bluetooth hands-free kit and a cellular phone when the speed exceeds a predetermined speed, thereby automatically using a hands-free function. CONSTITUTION: A portable terminal comprises as follows. A GPS portion(110) processes a GPS data interface. An MSM(120) recognizes a mobile speed of the terminal through GPS data, outputs a mode conversion control signal if the mobile speed exceeds a predetermined speed, and outputs an activate signal. The first audio portion(130) transmits an audio signal if the mode conversion control signal is inputted. The first Bluetooth portion(140) converts the inputted audio signal into a wireless LAN signal if the activate signal is inputted, converts a wireless LAN signal into an audio signal, and transmits the audio signal. A car hands-free kit comprises as follows. The second Bluetooth portion(150) converts the audio signal into a wireless LAN signal, and inputs the wireless LAN signal to convert into the audio signal. The second audio portion(160) converts the audio signal into a voice signal, converts a user's voice into an audio signal, and outputs the audio signal.

Description

Hands free switching device and method by speed response {APPARATUS FOR SWITCHING HAND FREE MODE BY RESPONDING TO VELOCITY AND METHOD THEREOF}

The present invention relates to an apparatus and a method for hands-free switching by speed response. In particular, the present invention is applied to a vehicle hands-free kit for a portable terminal, and automatically detects the speed of the vehicle by using a GPS. An apparatus and method for hands-free switching by speed response which are activated to provide convenience to a user.

In general, a global positioning system (GPS) is a global wireless navigation satellite system developed and promoted by the US Department of Defense (DOD), and a navigation satellite system, Navigation System with Time And Ranging (NAVSTAR). Also known as NAVSTAR / GPS in the sense of a system using). The system consists of a total of 24 navigating satellites, each of which was launched on six circular orbits at an altitude of about 20,000 km, a period of about 12 hours, and an orbital inclination of 55 degrees, a ground control station that manages satellites, and a user's mobile station. Each satellite is equipped with an atomic clock. Since the system is arranged so that at least four satellites are always in view of the earth at all times, the user selects four suitable ones from these satellites and receives time signals from them to measure each distance. . Since the positions of the four satellites are known, these measurements reveal the three-dimensional position of the latitude and longitude altitude of the user and the visual deviation of the field of view. The transmission frequency from the satellite is two waves of L1 (1,575.42 MHz) and L2 (1,227.6 MHz), and these two waves compensate for ionospheric delay. The navigation signal includes a navigation information of 50bps and is a phase shift modulated (PSK) signal spread spectrum modulated with a pseudo noise code (PN code). There are two kinds of pseudo noise codes, P code (precision code) and C / A code (clear and acquisition code). The P code is 10.23 Mbps, and the period is 1 week for precise positioning. The C / A code is 1.023 Mbps and the period is about 1 millisecond (ms). These pseudo-noise codes can be used to decode navigation signals or measure distances between satellites and receiving stations. L1 includes a P code and a C / A code, and L2 includes only a P code. Currently, a code pattern is disclosed for private use, but the P code is secret. It is known that the position measurement accuracy by C / A code is within 100m of nominal, and the precision by P code is within 16m of nominal.

In recent years, the use of mobile phones while driving has been restricted by law. Accordingly, a vehicle hands-free kit is mounted to attempt a call using a speaker mode while driving.

However, in the case of using the above-described method, since the user should be mounted on the hands-free kit when the user directly boards the vehicle, there is a problem that the inconvenience is accompanied. On the other hand, since a separate operation is required, if the user does not attach to the hands-free kit due to a mistake, the key operation is performed during driving, and thus, there is a problem that a dangerous situation may occur during driving as well as having difficulty in the call.

In order to solve the above problems, the present invention is equipped with a Bluetooth module and a GPS module in a portable terminal, and detects the speed of the vehicle using the GPS module, the Bluetooth hands mounted on the vehicle if the speed of the vehicle exceeds a certain speed It is an object of the present invention to provide a hands-free switching device and a method for speed-sensitive change in a call mode between a pre-kit and a mobile phone so that a hands-free function can be automatically used.

1 is a block diagram showing a hands-free switching device by speed response according to an embodiment of the present invention;

Figure 2 is a flow chart showing a hands-free switching method by the speed response according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: GPS unit 120: MSM

130: first audio unit 140: first Bluetooth unit

150: second Bluetooth unit 160: second audio unit

In order to achieve the above object, the speed-sensitive hands-free switching device of the present invention is a hands-free system including a portable terminal and a hands-free vehicle, wherein the portable terminal performs GPS data interfacing processing from a GPS satellite and a base station. part; An MSM recognizing a moving speed of the current terminal through the GPS data received from the GPS unit, and outputting a mode switching control signal and outputting an activation signal when the moving speed exceeds a predetermined speed; A first audio unit which transmits the audio signal without converting the audio signal into voice when the mode switching control signal is input; And when receiving the activation signal, receives an audio signal from the first audio unit, converts a wireless short range communication signal, transmits the signal, and receives a wireless short range communication signal to convert the wireless short range communication signal into an audio signal. And a first Bluetooth unit for transmitting to an audio unit, wherein the vehicle hands-free receives an audio signal, converts a wireless short range communication signal, transmits the signal to the first Bluetooth unit, and inputs a wireless short range communication signal from the first Bluetooth unit. A second Bluetooth unit configured to receive and convert the audio signal; And receiving an audio signal from the second Bluetooth unit, converting the audio signal into a voice that the user is listening to, and then outputting it through a speaker, converting the voice of the user input through a microphone into an audio signal, and then converting the second Bluetooth unit into the audio signal. And a second audio unit for outputting negatively.

In addition, the hands-free switching method according to the speed response of the present invention to achieve the above object, the step of calculating the speed of the portable terminal through the GPS satellite position information; Determining whether the moving speed of the mobile phone exceeds a certain speed; And if the moving speed of the mobile phone exceeds a certain speed, activating the Bluetooth module to perform a speaker mode function, and then returning to calculating the speed of the portable terminal based on the location information.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

1 is a block diagram showing a hands-free switching device by speed response according to an embodiment of the present invention. The hands-free switching device by speed response according to the present invention includes a GPS unit 110 and a mobile station modem (MSM) ( 120, a first audio unit 130, a first Bluetooth unit 140, a second Bluetooth unit 150, and a second audio unit 160.

The GPS unit 110 is mounted in a portable terminal, and performs a GPS data interfacing process between a GPS satellite (not shown), a base station (not shown), and the MSM 120 described later.

In addition, the MSM 120 is mounted in the portable terminal, recognizes the movement speed of the current terminal through the GPS data received from the GPS unit 110, and the first audio to be described later if the movement speed exceeds a predetermined speed. While outputting a mode switch control signal to the unit 130, and serves to output the activation signal to the first Bluetooth unit 140 to be described later. Here, the moving speed of the terminal may be calculated at the base station (not shown) by the GPS data.

On the other hand, the first audio unit 130 is mounted in the portable terminal, receives an audio signal and converts it into a voice after the user listens, or converts the user's voice into an audio signal, and the MSM 120 from the When the mode switch control signal is input, the audio signal is transmitted to the first Bluetooth unit 140 which will be described later without converting the audio signal into voice.

In addition, when the first Bluetooth unit 140 is mounted in the portable terminal and receives the activation signal from the MSM 120, the first Bluetooth unit 140 receives an audio signal from the first audio unit 130 and performs a wireless short range communication signal. After converting the transmission to the second Bluetooth unit 150 to be described later, receives a wireless short-range communication signal from the second Bluetooth unit 150 to be described later converted to an audio signal, the first audio unit 130 It serves to deliver.

On the other hand, the second Bluetooth unit 150 is mounted in the vehicle hands-free, receives the audio signal from the second audio unit 160 to be described later, converts the wireless short-range communication signal, and then to the first Bluetooth unit 140. It transmits and receives a wireless short-range communication signal from the first Bluetooth unit 140, converts it into an audio signal, and transmits the audio signal to the second audio unit 160 to be described later.

In addition, the second audio unit 160 is mounted in a vehicle hands-free, receives an audio signal from the second Bluetooth unit 150, converts the audio signal into a voice that the user is listening to, and then outputs it through a speaker. After converting the voice of the user input through the audio signal, and serves to output to the second Bluetooth unit 150.

Referring to the operation of the hands-free switching device by the speed response of the present invention described above is as follows.

First, the GPS satellites calculate location information through mutual communication with the portable terminal, and provide the location information to the base station and the portable terminal. In the base station or the portable terminal, the movement direction, speed, and three-dimensional position of the portable terminal are recognized through the location information provided by the GPS satellites. Here, when the moving speed of the mobile phone exceeds a certain speed, the mode switching control signal is output from the MSM 120 to the first audio unit 130 and the activation signal is output to the first Bluetooth unit 140. When the first audio unit 130 receives the mode switching control signal from the MSM 120, the first audio unit 130 transmits the audio signal to the first Bluetooth unit 140 without converting the audio signal into voice, and the first Bluetooth unit 140. Is activated by the MSM 120, receives an audio signal from the first audio unit 130, converts a wireless short-range communication signal, and transmits it to the second Bluetooth unit 150, and then transmits the second Bluetooth unit 150. After receiving the wireless short-range communication signal from the audio signal converted into an audio signal, it is transmitted to the first audio unit 130. Subsequently, the second Bluetooth unit 150 receives a wireless short range communication signal from the first Bluetooth unit 140, converts it into an audio signal, and transmits the converted audio signal to the second audio unit 160 or the second audio unit ( After receiving the audio signal from the 160 converts the wireless short-range communication signal is transmitted to the first Bluetooth unit 140. In addition, the second audio unit 160 receives an audio signal from the second Bluetooth unit 150, converts the audio signal into a voice that is listened to by the user, outputs it through a speaker, and inputs the user's voice through a microphone. After converting the audio signal to the second Bluetooth unit 150, the speaker mode function is performed.

2 is an operation flowchart showing a hands-free switching method by speed response according to an embodiment of the present invention. Referring to this, the hands-free switching method by speed response according to the present invention will be described below.

First, when GPS satellites calculate location information through mutual communication with the GPS unit 110 mounted in the portable terminal, and provide the location information to the base station and the portable terminal, the GPS satellite in the MSM 120 of the base station or the portable terminal. The direction of movement, speed, and three-dimensional position of the portable terminal are calculated based on the position information provided at S201.

Thereafter, it is determined whether the moving speed of the mobile phone exceeds a predetermined speed (S202).

If the moving speed of the mobile phone exceeds a certain speed, the MSM 120 outputs a mode switch control signal to the first audio unit 130 and outputs an activation signal to the first Bluetooth unit 140. . When the first audio unit 130 receives the mode switching control signal from the MSM 120, the first audio unit 130 transmits the audio signal to the first Bluetooth unit 140 without converting the audio signal into voice, and the first Bluetooth unit 140. Is activated by the MSM 120, receives the audio signal from the first audio unit 130, converts the wireless short-range communication signal, and transmits to the second Bluetooth unit 150, the second Bluetooth unit 150 After receiving the wireless short-range communication signal from the audio signal converted into an audio signal, it is transmitted to the first audio unit 130. Subsequently, the second Bluetooth unit 150 receives a wireless short range communication signal from the first Bluetooth unit 140, converts it into an audio signal, and transmits the converted audio signal to the second audio unit 160 or the second audio unit ( After receiving the audio signal from the 160 converts the wireless short-range communication signal is transmitted to the first Bluetooth unit 140. In addition, the second audio unit 160 receives an audio signal from the second Bluetooth unit 150, converts the audio signal into a voice that is listened to by the user, outputs it through a speaker, and inputs the user's voice through a microphone. After converting to an audio signal, and outputs to the second Bluetooth unit 150, after performing the speaker mode function, the method returns to the step of calculating the movement direction, speed and three-dimensional position of the portable terminal based on the position information. (S203).

On the other hand, when the moving speed of the mobile phone does not exceed a certain speed, the first audio unit 130 receives the audio signal and converts it into a voice after the user listens, or converts the user's voice into an audio signal and converts it into an MSM. By outputting to 120, after performing the normal mode function, the process returns to the step of calculating the movement direction, the speed, and the three-dimensional position of the portable terminal through the position information (S204).

As described above, the present invention can be substituted, modified, and changed in various ways within the scope of the technical spirit of the present invention by those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

The present invention is equipped with a Bluetooth module and a GPS module in a portable terminal, and detects the speed of the vehicle using the GPS module, if the speed of the vehicle exceeds a certain speed call mode between the Bluetooth hands-free kit mounted on the vehicle and the mobile phone There is an advantage that it can switch to and use the hands-free function automatically.

Claims (3)

In the hands-free system comprising a portable terminal and a vehicle hands-free, The portable terminal, A GPS unit for performing GPS data interfacing processing from a GPS satellite and a base station; An MSM recognizing a moving speed of the current terminal through the GPS data received from the GPS unit, and outputting a mode switching control signal and outputting an activation signal when the moving speed exceeds a predetermined speed; A first audio unit which transmits the audio signal without converting the audio signal into voice when the mode switching control signal is input; And When the activation signal is received, the audio signal is received from the first audio unit, the wireless short-range communication signal is converted, and then transmitted, the wireless short-range communication signal is received and converted into an audio signal, and then the first audio is input. First Bluetooth unit to transfer to the wealth Including, The vehicle hands free, A second Bluetooth unit which receives an audio signal, converts a wireless short range communication signal, transmits the converted wireless short range communication signal to the first Bluetooth unit, and receives a wireless short range communication signal from the first Bluetooth unit to convert the wireless short range communication signal into an audio signal; And Receives an audio signal from the second Bluetooth unit, converts it into a voice after the user listens, outputs it through a speaker, converts a user's voice input through a microphone into an audio signal, and then sends the audio signal to the second Bluetooth unit. 2nd audio part which outputs Hands-free switching device by the speed response, characterized in that it comprises a. Calculating a speed of the portable terminal based on the location information of the GPS satellites; Determining whether the moving speed of the mobile phone exceeds a certain speed; And If the moving speed of the mobile phone exceeds a certain speed, by activating the Bluetooth module, performing the speaker mode function, and then returning to the step of calculating the speed of the portable terminal based on the location information. Hands-free switching device by the speed response, characterized in that it comprises a. The method of claim 2, If the moving speed of the mobile phone does not exceed a certain speed, by deactivating the Bluetooth module, performing the normal mode function, and then returning to calculating the speed of the portable terminal based on the location information. Hands-free switching device by the speed response, characterized in that it comprises a.