KR100986981B1 - Appratus and method for setting frequency of radio data system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a frequency setting device and a method of a radio data system, comprising: sound sensing means for detecting an acoustic state through frequency signal strength and multipath noise of RDS data currently being received, The speed detection means for detecting the speed and the sound quality and the speed of the vehicle currently being driven determine the reception quality state of the RDS data currently being received, and whether to switch to the alternative frequency transmitted in the RDS data. By providing a device and method comprising a frequency setting means for determining the frequency, even if the frequency signal strength and multi-path noise changes according to the driving speed of the vehicle can determine the quality of the broadcast currently received and the quality of the alternative frequency Therefore, it is possible to maintain the quality of broadcasting at all times.

RDS, radio data, frequency, setting, speed, speed pulse, alternative frequency, switching

Description

Apparatus and method for setting frequency of radio data system

The present invention relates to a radio data system, and more particularly, to an apparatus and method for maintaining a broadcast frequency being received at a high quality broadcast frequency at all times using a speed pulse according to a driving speed of a vehicle.

In general, a Radio Data System (RDS) uses a subcarrier to provide services such as traffic information, stock information, radio call, station name, and automatic tuning in an FM radio broadcast that transmits stereo-multiple signals. That's the way.

A radio terminal having a general GPS module, that is, an audio video navigator (AVN), a navigator, and telematics receives the RDS data and displays the service information in a liquid crystal display. Display through output means such as.

In this case, the RDS data is an identification of an alternative frequency list (AF), decoder information (DI: decoder infomation), a broadcasting station name, a nationality of a broadcasting station, a transmission location, etc., which are frequency information of a broadcasting station broadcasting the same program. It includes a program identifier (PI), a program type (PTY), a traffic announcement (TA), and a traffic program (TP).

In the conventional radio terminal capable of receiving the RDS data, the automatic tuning function performs a tuning process by selecting an alternative frequency having the largest reception sensitivity using the alternative frequency list. In other words, the receiver automatically checks the reception sensitivity and searches for and sets the best frequency without having to find and change the frequency every time in order to listen to the optimal radio broadcast. At this time, the radio station loads a plurality of alternative frequencies in correspondence with the currently transmitted frequency.

That is, when the reception sensitivity is weakened, the radio receiver checks the reception sensitivity of all alternative frequencies in the alternative frequency list included in the RDS data and selects and tunes the alternative frequency having the largest reception sensitivity. At this time, the radio terminal tests the reception sensitivity of all the alternative frequencies in the alternative frequency list in the mute state so that the listener does not hear the noise generated during tuning. Thus, the listener can continuously listen to the broadcast having a good reception sensitivity.

However, the conventional RDS system replaces the state of the current frequency (MF), which is the broadcast program frequency currently being received, and the same program, depending on the signal quality such as signal strength and mutipath noise. It checks the state of the alternating frequency (AF) and converts it to the frequency that shows the best quality, so the strength of the frequency signal changes according to the driving speed of the car, and the multipath noise changes so that the quality of the broadcast being received There was a difficulty in judging the quality of the frequency.

Disclosure of Invention An object of the present invention is to solve the conventional problems as described above, and to provide an apparatus and method for always maintaining a broadcast frequency being received at a high quality broadcast frequency using a speed pulse according to the driving speed of a vehicle. .

In order to achieve the above object, the frequency setting device of the radio data system according to the present invention, the acoustic sensing means for grasping the acoustic state through the frequency signal strength and multipath noise magnitude of the RDS data currently being received Speed detection means for detecting the speed of the vehicle currently driving and the reception quality state of the RDS data currently being received through the sound state and the speed of the currently running vehicle are included in the RDS data and transmitted. It may be configured to include a frequency setting means for determining whether to switch to the alternate frequency.

In addition, the frequency setting method of the radio data system according to the present invention, the step of identifying the acoustic state through the frequency signal strength and multi-path noise magnitude of the RDS data being received, by detecting the speed of the vehicle currently driving Determining whether the speed is increased or decreased by comparing with the reference speed, and correcting the reference frequency signal strength and the multipath noise by receiving the increase or decrease of the frequency signal strength and the increase or decrease of the multipath noise according to the increase or decrease of the driving speed of the vehicle. Determining a quality state and determining whether to switch to an alternative frequency included in the RDS data and transmitted according to the received reception quality state.

As described above, according to the frequency setting apparatus and method of the radio data system according to the present invention, even if the strength and multi-path noise of the frequency signal changes according to the driving speed of the vehicle, the quality of the broadcast currently being received and the quality of the alternative frequency It can be determined that the effect can be maintained at all times at a high quality broadcast frequency.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. In addition, in describing this invention, the same code | symbol is attached | subjected and the repeated description is abbreviate | omitted.

1 is a block diagram schematically showing the configuration of a frequency setting apparatus of a radio data system according to an embodiment of the present invention.

As shown in FIG. 1, the frequency setting apparatus of the radio data system according to the present invention includes an RDS tuner 110, a storage unit 120, an acoustic sensing unit 130, a speed sensing unit 140, and a frequency setting unit 150. ).

An RDS tuner 110 is mounted in the vehicle to receive a frequency signal of RDS data.

The storage unit 120 stores the frequency signal strength and multipath noise magnitude of the RDS data according to the reference speed and the reference speed, and the frequency signal strength of the RDS data according to the increase and decrease of the traveling speed of the vehicle. Stores the amount of increase or decrease and multipath noise.

The sound detector 130 detects the sound state through the frequency signal strength and the multipath noise level of the RDS data currently being received from the sound amplified by the amplifier 160 and output to the speaker 170. .

The speed detector 140 detects the speed of the vehicle currently being driven and outputs the detected speed of the vehicle as a speed pulse.

The frequency setting unit 150 receives the acoustic state and the speed of the vehicle currently driving from the sound detection unit 130 and the speed detection unit 140 to determine the reception quality state of the RDS data currently being received. The RDS tuner 110 is controlled by determining whether to switch to an alternative frequency included in the DS data.

Referring to the accompanying drawings, the operation process according to the embodiment of the present invention configured as described above is as follows.

2 is a flowchart illustrating a frequency setting process of a radio data system according to an embodiment of the present invention.

Referring to FIG. 2, first, in the storage unit 120, RDS according to a frequency signal strength and multipath noise of RDS data according to a reference speed and a reference speed, and an increase and decrease of a traveling speed of the vehicle. ) Stores the increase and decrease of the frequency signal strength of the data and the increase and decrease of the multipath noise (S210).

Thereafter, the sound sensor 130 amplifies the sound state through the amplification of the amplification unit 160 and the frequency signal strength and multipath noise of the RDS data being received in the sound output to the speaker 170. (S220).

Meanwhile, the frequency setting unit 150 determines whether the speed is increased or decreased by comparing the speed and the reference speed of the currently running vehicle detected by the speed detecting unit 140 (S230 and S240). In this case, the speed detecting unit 140 outputs the speed detection result of the vehicle as a speed pulse, and the frequency setting unit 150 determines the current driving speed through the speed pulse.

If there is an increase or decrease as a result of the determination in step S240, the increase or decrease of the frequency signal strength of the RDS data according to the increase and decrease of the traveling speed of the vehicle stored in the storage unit 120, and the increase or decrease of the multipath noise In step S250, the frequency signal strength and the multipath noise of the RDS data according to the reference speed are corrected.

For example, if the reference speed is 50 km / sec and the current driving speed is 60 km / sec, the driving speed is large. Therefore, the reduction of the frequency signal strength and the increase of the multipath noise for the increased 10 km / sec are referred to. Correct by subtracting and summing the frequency signal strength and the magnitude of multipath noise, respectively.

On the contrary, if the current driving speed is smaller than the reference speed (for example, 40 km / sec), the increase in the frequency signal strength and the decrease in the multipath noise may be determined by the frequency signal strength of the RDS data according to the reference speed and Compensate by adding and subtracting each of the multipath noise levels.

Subsequently, the reception quality state is determined by comparing the corrected reference frequency signal strength and multipath noise magnitude with the detected frequency signal strength and multipath noise magnitude of the received RDS data (S260).

In operation S260, it is determined whether to switch to an alternative frequency included in the RDS data and transmitted according to the received quality state.

That is, the reception sensitivity of all alternative frequencies in the alternative frequency list included in the RDS data is transmitted (S270), and the alternative frequency having a reception sensitivity larger than the corrected reference frequency signal strength and the magnitude of the multipath noise is selected. By controlling the RDS tuner 110 (S280).

As mentioned above, although the invention made by this inventor was demonstrated concretely according to the said Example, this invention is not limited to the said Example and can be variously changed in the range which does not deviate from the summary.

1 is a block diagram schematically showing the configuration of a frequency setting apparatus of a radio data system according to an embodiment of the present invention.

2 is a flowchart illustrating a frequency setting process of a radio data system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: RDS tuner 120: storage unit

130: sound detection unit 140: speed detection unit

150: frequency setting unit 160: amplification unit

170: speaker

Claims (10)

Acoustic sensing means for identifying the acoustic state through the frequency signal strength and the multipath noise of the RDS data currently being received, Speed detecting means for detecting the speed of the vehicle currently driving and A frequency setting means for determining whether to switch to an alternative frequency transmitted within the RDS data by identifying a reception quality state of the RDS data currently received through the sound state and the speed of the vehicle currently driving; Frequency setting device of the radio data system. The method of claim 1, Reference signal, frequency signal strength and multipath noise magnitude of RDS data according to reference speed, frequency signal strength increase and decrease of multipath noise of RDS data according to increase and decrease of traveling speed of the vehicle Storage means for storing the increase or decrease of And frequency receiving means mounted on the vehicle to receive a frequency signal of RDS data. The method of claim 1, wherein the frequency setting means The reference frequency signal strength and the multipath noise are corrected according to the increase and decrease of the frequency signal strength and the increase and decrease of the multipath noise according to the detected current driving speed and the reference speed. (RDS) A frequency setting device of a radio data system for grasping a reception quality state of data. The method of claim 1, wherein the frequency setting means The radio data system selects an alternative frequency having the largest reception sensitivity at the current vehicle speed by checking the reception sensitivity of all alternative frequencies in the alternative frequency list included in the RDS data and transmitting when determining the switching to the alternative frequency. Frequency setting device. The method of claim 1, And the speed detecting means outputs the detected speed of the vehicle as a speed pulse. Identifying the acoustic state through the frequency signal strength and multipath noise magnitude of the received RDS data; Determining whether the speed is increased or decreased by detecting the speed of the vehicle currently running, and comparing with the reference speed, Determining the reception quality state by correcting the reference frequency signal strength and the multipath noise magnitude previously stored as the increase / decrease amount of the frequency signal strength and the increase / decrease amount of the multipath noise according to the increase / decrease of the vehicle speed; and And determining whether to switch to an alternate frequency included in the RDS data according to the received reception quality state. The method of claim 6, wherein determining whether the speed is increased or decreased And determining a current driving speed through a speed pulse when the speed of the vehicle is detected. The method of claim 6, Reference signal, frequency signal strength and multipath noise magnitude of RDS data according to reference speed, frequency signal strength increase and decrease of multipath noise of RDS data according to increase and decrease of traveling speed of the vehicle And storing the increase or decrease of the radio data system. The method of claim 6, wherein the step of determining the reception quality state A method of setting a frequency of a radio data system in which a reception quality state is determined by comparing a corrected reference frequency signal strength and a multipath noise magnitude with a frequency signal strength and a multipath noise magnitude of the received RDS data. . The method of claim 6, wherein the determining of the switching to the alternative frequency is Confirming reception sensitivity of all alternative frequencies in the alternative frequency list included in the RDS data and transmitted; And selecting an alternative frequency having the largest reception sensitivity at the current vehicle speed according to the reception sensitivity checking result.

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