KR101940116B1 - Method for receiving channel synchronization of mobile radio - Google Patents

Abstract

The present invention provides a channel synchronization receiving method for a mobile radio that receives a same channel as a previous channel even when the mobile radio is changed in area, ; A user-selected channel grasping process for the mobile radio to grasp the user-selected channel selected by the user; A pre-area change radio signal output process in which the mobile radio receives and outputs a radio signal of a user selected channel frequency extracted by extracting a channel frequency of an area to which GPS position information belongs as a user selected channel frequency; A local change event judging process for judging whether a local change event in which the area to which the GPS position information belongs is changed according to the movement of the mobile radio; And a local priority radio signal synchronization output process of receiving and outputting a radio signal of a user selected channel frequency of a changed area when the mobile station radio generates the area change event.

Description

Technical Field [0001] The present invention relates to a method for receiving channel synchronization in a mobile radio,

The present invention relates to a channel synchronization receiving method for a mobile radio, and a method for synchronizing a channel of a mobile radio according to a local movement.

Usually, the vehicle is equipped with a radio device that allows the driver to listen to the radio broadcast while the vehicle is running. Such a radio receiving apparatus captures a broadcast signal through an antenna installed outside the vehicle and outputs a corresponding radio broadcast signal through a speaker so that a driver of the vehicle can listen to the selected radio broadcast.

On the other hand, radio or TV broadcasts are broadcast using different frequency bands for each broadcast channel, and even if they are the same broadcast, they are broadcast using different frequency bands for each region.

Therefore, when the vehicle does not deviate from a predetermined area, the radio receiver of the vehicle stably provides the radio broadcast of the channel selected by the driver of the vehicle. However, when the vehicle travels over a long distance, In order to receive the same radio broadcasts, the operator had to set the frequency of the radio channel, which is differently set in each region, to be different.

For example, the frequency of local radio broadcasting channel is 89.1MHz in the case of KBS1 FM broadcasting, and 98.5MHz in Chungcheong area. Therefore, the driver of the vehicle moving from Seoul to Chungcheong area transmits the same KBS1 FM broadcasting The tuning frequency needs to be adjusted to 98.5 MHz again.

Therefore, if the radio channel changes according to the area change while listening to the radio while riding in the car, the driver must adjust the changed channel frequency, but he does not know the channel frequency of the moved area. There is a problem that can cause a car accident.

Korean Patent Publication No. 10-2005-0056569

SUMMARY OF THE INVENTION It is an object of the present invention to provide a means for synchronizing a channel of a mobile radio according to a local movement.

The present invention provides a channel synchronization receiving method for a mobile radio that receives a same channel as a previous channel even when the mobile radio is changed in area, ; A user-selected channel grasping process for the mobile radio to grasp the user-selected channel selected by the user; A pre-area change radio signal output process in which the mobile radio receives and outputs a radio signal of a user selected channel frequency extracted by extracting a channel frequency of an area to which GPS position information belongs as a user selected channel frequency; A local change event judging process for judging whether a local change event in which the area to which the GPS position information belongs is changed according to the movement of the mobile radio; And a local priority radio signal synchronization output process of receiving and outputting a radio signal of a user selected channel frequency of a changed area when the mobile station radio generates the area change event.

The present invention also provides a channel synchronization receiving method of a mobile radio for receiving a same channel as a previous channel even when the mobile radio is changed in area, Identification process; A user-selected channel grasping process for the mobile radio to grasp the user-selected channel selected by the user; A pre-area change radio signal output process in which the mobile radio receives and outputs a radio signal of a user selected channel frequency extracted by extracting a channel frequency of an area to which GPS position information belongs as a user selected channel frequency; A local change event judging process for judging whether a local change event in which the area to which the GPS position information belongs is changed according to the movement of the mobile radio; And, when the area change event occurs, when the mobile radio changes the radio signal of the user selected channel frequency of the pre-change area, which is a radio signal of the pre-change radio signal, And a local / intensity applied radio signal synchronization outputting process of comparing the strengths and outputting either the pre-change radio signal or the post-change radio signal.

Wherein the region / intensity application radio signal synchronization output process includes: a pre-change radio signal strength determination process of grasping the strength of the pre-change radio signal, which is a radio signal of a user selected channel frequency of a region before the change; A change in the radio signal intensity after the change in the radio signal of the local user selected channel frequency after the change; And an alternative radio signal outputting step of comparing the strength of the radio signal after the change with the strength of the previous radio signal and outputting the radio signal of the region outputting a larger signal strength.

After the alternative radio signal output process, if the received signal change is first made to be output to the radio signal after the change in the previous radio signal, the intensity of the radio signal before the change and the intensity of the radio signal after the change are periodically compared A change signal application mode for outputting a radio signal having a larger signal strength or a change signal for allowing the output of the radio signal to remain intact after the change even if the intensity of the radio signal before the change is greater than the intensity of the radio signal after the change And operates in the maintenance mode.

The signal switching application mode periodically compares the intensity of the radio signal before the change with the intensity of the radio signal after the change in the case where the boundary between the pre-change region and the post-change region has a predetermined altitude or higher, And the change signal holding mode judges the proceeding direction of the GPS position information and when the proceeding direction of the GPS position information is directed to the center point of the region after the change, A first change mode in which the output of the radio signal is maintained after the change even if the intensity of the radio signal is greater than the intensity of the radio signal; Although the century is greater than the intensity of the radio signal since the change, Change of the output signal to maintain a second may include a second holding mode.

According to the embodiment of the present invention, it is possible to synchronize the channel of the body radio in consideration of the area or the signal strength at the time of moving the area, thereby enhancing the user convenience.

1 is a block diagram of a mobile radio according to an embodiment of the present invention;
2 is a flowchart illustrating a channel synchronization receiving procedure of a mobile radio according to a first embodiment of the present invention.
FIG. 3 is a view showing a vehicle on which a mobile radio is mounted according to an embodiment of the present invention.
4 is a flowchart illustrating a channel synchronization receiving process of a mobile radio according to a second embodiment of the present invention.
5 is a view showing a traveling path of a vehicle;

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a block diagram of a mobile radio according to an embodiment of the present invention.

The mobile radio of the present invention may be a portable device capable of receiving a radio signal and may include, for example, a small radio, a radio mounted on a vehicle, a radio mounted on a mobile phone, a radio mounted on a navigation device, Type mobile radio may be included.

1, the mobile radio of the present invention includes a tuner 110, a PLL 120, a GPS position locating unit 130, a channel frequency allocation memory 140 for each region, a channel selecting unit 150, (Not shown).

The mobile radio of the present invention includes a tuner 110 (TUNER) for receiving and tuning a radio wave transmitted from a broadcasting station and an integrated circuit (PLL) 120 for Rhythm Locked Loop (PLL) 120 for stereo demodulating a frequency selected by the tuner 110 A control unit 160 for detecting the presence / absence of a broadcast frequency for a channel selected because of performing a predetermined process, and for continuously searching for a channel until a broadcast frequency is detected, .

When there is no broadcast frequency, the frequency of the broadcast signal is increased or decreased by one step in the search process by detecting presence or absence of the broadcast frequency for the selected channel by using the Signal Detect (SD) terminal of the tuner 110. [ Respectively. Here, the " SD " terminal outputs a logic low signal when the signal level of the current tuning frequency is below a certain level, and outputs a logic high signal when the signal level is above a certain level. Respectively. In addition, search refers to a process of searching for a frequency in which a broadcast exists. In this case, the frequency is increased / decreased by one step (9 KHz for AM and 100 KHz for FM) to check whether the broadcast frequency is present or absent.

In addition, the tuner 110 measures the intensity of the received radio signal and transmits the measured intensity to the controller 160.

The GPS position determination unit 130 is a module that grasps the current GPS position information of the mobile radio in real time. GPS position information, which is position information of the mobile radio, is calculated using GPS signals received from at least three or more satellites. In addition, the GPS position determination unit 130 also stores information about an area to which the GPS position belongs for each GPS position information.

The regional channel frequency allocation memory 140 is a memory in which channel frequencies of channels broadcasted in each region are allocated and stored. For example, in KBS1 FM broadcasting, 89.1MHz is stored as a channel frequency in a game area, and 98.5MHz is stored as a channel frequency in a charging / charging area.

The channel selection unit 150 is a module for selecting a radio channel from a user. The touch screen panel may include a graphic user interface (GUI) for communicating with a user by providing a touch screen screen capable of simultaneously performing input and display, .

The controller 160 receives the channel synchronization of the mobile radio to receive the same channel as the previous channel even when the mobile radio is changed in area.

To this end, the mobile radio periodically grasps the GPS position information, a process in which the mobile radio grasps the user-selected channel selected by the user, and the process of determining the channel frequency of the area to which the GPS position information belongs as the user- Receiving and outputting a radio signal of a user selected channel frequency extracted and extracted; determining whether a region change event in which an area to which the GPS position information belongs is changed according to the movement; and, when a region change event occurs, And receiving and outputting a radio signal of a user-selected channel frequency of the local area. This output process will be described in detail with reference to FIG.

In another embodiment, the mobile radio periodically grasps the GPS position information, grasps the user-selected channel selected by the user, extracts the channel frequency of the area to which the GPS position information belongs as the user-selected channel frequency, Receiving a radio signal of a user selected channel frequency extracted by the mobile station and outputting the radio signal of the user selected channel frequency and outputting the radio signal; A change in the radio signal of the user's selected channel frequency before the change, and a change in the radio signal of the user's selected channel frequency after the change in the intensity of the previous radio signal and the change in the radio signal after the change, Outputting any one of the radio signals It of the information, will be described in detail with respect to such a printing process Fig.

FIG. 2 is a flowchart illustrating a channel synchronization receiving procedure of a mobile radio according to a first embodiment of the present invention. FIG. 3 is a diagram illustrating a state in which a vehicle on which a mobile radio is mounted according to an embodiment of the present invention, to be.

The channel synchronization receiving method of the first embodiment of the present invention for receiving the same channel as the previous channel even when the mobile radio is region-changed includes a GPS position information obtaining step (S210), a user selected channel grasping process (S220) (S230), a local change event determination process (S240), and a local priority radio signal synchronization output process (S250).

The GPS position information determination process (S210) is a process of periodically grasping the GPS position information. And periodically grasps the current position of the mobile radio using GPS information received from the GPS satellites.

The user selected channel grasping process (S220) is a process for grasping the user selected channel selected by the user. If the user selects the KBS1 FM channel, the user selected channel becomes the KBS1 FM channel, and if the user selects the SBS FM channel, the user selected channel corresponds to the SBS FM channel.

The pre-region change radio signal output process (S230) is a process of extracting a channel frequency of an area to which GPS position information belongs as a user selected channel frequency, and receiving and outputting a radio signal of a user selected channel frequency. For example, when the user selected channel is the KBS1 FM channel and the mobile radio is located in the Seoul area, the mobile terminal receives and outputs a radio signal of 89.1 MHz, which is the KBS1 FM channel frequency assigned to the Seoul area.

The local change event determination process (S240) is a process for determining whether a region change event in which the area to which the GPS position information belongs is changed according to the movement of the mobile radio.

The local priority radio signal synchronization output process (S250) is a process in which, when a region change event occurs, the mobile radio receives and outputs a radio signal of a user selected channel frequency of a changed region. For example, when a vehicle equipped with a mobile radio moves from a competition area to a Chungcheong area as shown in FIG. 3, a region change event is generated from the competition area to the Chungcheong area, Receives and outputs a radio signal of a frequency of 98.5 MHz KBS1 FM channel allocated to the charging / charging area at the KBS1 FM channel frequency of. Therefore, even if the user moves from the Gyeonggi area to the Chungcheong area, the radio of the KBS1 FM channel can be outputted without changing even if the operator does not operate the channel.

FIG. 4 is a flowchart illustrating a channel synchronization receiving process of a mobile radio according to a second embodiment of the present invention. FIG. 5 is a view illustrating a traveling path of a vehicle.

The channel synchronization receiving method of the second embodiment for receiving the same channel as the previous channel even when the mobile radio is region-changed includes the GPS position information obtaining process (S310), the user selected channel grasping process (S320) A region change before radio signal output process (S330), a region change event determination process (S340), and a region / intensity application radio signal synchronization output process (S3500).

The GPS position information determination process (S310) is a process of periodically grasping the GPS position information. And periodically grasps the current position of the mobile radio using GPS information received from the GPS satellites.

The user selected channel grasping process (S320) is a process for grasping a user selected channel selected by the user.

The pre-area change radio signal output process (S330) is a process of extracting a channel frequency of an area to which GPS position information belongs as a user selected channel frequency, and receiving and outputting a radio signal of a user selected channel frequency.

The local change event determination process (S340) is a process for determining whether a region change event in which an area to which the GPS position information belongs is changed according to the movement of the mobile radio.

The area / intensity application radio signal synchronization output process (S350) is a process in which when the area change event occurs, the mobile radio changes the intensity of the radio signal before the change, which is the radio signal of the user- Compares the intensity of the radio signal after the change of the radio signal of the selected channel frequency, and outputs either the pre-change radio signal or the post-change radio signal.

The region / intensity application radio signal synchronization output process (S350) includes a pre-change radio signal strength determination process (S351) for determining the strength of the pre-change radio signal, which is a radio signal of a user- (S352) after a change in the strength of the radio signal after the change of the radio signal of the local user selected channel frequency and comparing the strength of the radio signal after the change of the intensity of the radio signal before the change, And an alternative radio signal outputting process (S353) for outputting a radio signal of an area for outputting the signal strength.

For example, as shown in FIG. 3, when moving from the competition area to the Chungcheong area, the signal intensity of the KBS1 FM channel frequency assigned to the competition area is 89, And the signal strength of the KBS1 FM channel frequency of 98.5 MHz allocated to the Chungcheong area is '6', the signal of the KBS1 FM channel frequency of 98.5 MHz allocated to the Chungcheong area of the higher intensity is outputted.

On the other hand, near the boundary between Gyeonggi and Chungcheong areas, the signal strength of the KBS1 FM channel frequency assigned to the competition area is '6' and the signal strength of the KBS1 FM channel frequency assigned to Chungcheong area is 98.5MHz '5', it outputs a signal of the KBS1 FM channel frequency of 89.1 MHz allocated to the competition area of a larger intensity.

On the other hand, if the received signal is first changed so as to be output to the radio signal after the change in the radio signal before the change after the alternative radio signal output process, the apparatus operates in the signal switching application mode or in the change signal maintenance mode. Such a signal switching application mode or a change signal maintenance mode can be applied to a mode by a selection of a user (driver).

The signal switching application mode is a mode for periodically comparing the intensity of the radio signal before the change with the intensity of the radio signal before the change, thereby outputting a radio signal having a larger signal intensity.

Furthermore, in the case of the signal conversion application mode, when the boundary between the pre-change region and the post-change region is a mountainous terrain having a predetermined altitude or higher, the strength of the radio signal before the change is periodically compared with the intensity of the radio signal before the change, And outputs the radio signal of the signal strength. In the case of mountainous terrain, depending on the mountainous terrain, the specific channel frequency may be received larger, so the received channel frequency may then be different depending on the signal strength.

On the other hand, if a signal of a higher intensity is selected and output according to the signal strength after the reception signal is changed so as to be output to the radio signal after the change in the radio signal before the change, frequent change of the signal selection causes unstable output . For example, when a vehicle is moved from a competition area to a Chungcheong area, some boundary lines near the boundary line are assigned to the Chungcheong area with a signal strength of 89.1 MHz KBS1 FM channel frequency assigned to the competition area May be greater than the signal strength of the KBS1 FM channel frequency of 98.5 MHz and another boundary position may be greater than the signal strength of the KBS1 FM channel frequency of 89.1 MHz allocated to the competition area, May have a larger signal intensity. In such a case, the channel frequency selected is changed in accordance with the progress of the vehicle, and the radio output becomes unstable.

In order to solve this signal output instability, the present invention can be operated in the change signal holding mode.

The change signal holding mode is a mode for maintaining the output of the radio signal after change even if the intensity of the radio signal before the change is greater than the intensity of the radio signal after the change.

The change signal holding mode may be a change signal first hold mode and a change signal second hold mode.

The change signal first hold mode determines the progress direction of the GPS position information and if the progress direction of the GPS position information is directed to the center point of the region after the change, it is changed even if the intensity of the previous radio signal is larger than the intensity of the radio signal after change And then the output of the radio signal is maintained. For example, as shown in FIG. 5, when the vehicle entering the Chungcheong area in the Kyunggi area has a traveling route going inward to the Chungcheong area, the intensity of the radio signal before the change is greater than the intensity of the radio signal after the change Even after the change, the output of the radio signal remains unchanged. This is because, if the intensity of the radio signal before the change is larger than the intensity of the radio signal after the change, it is considered to be only a transient phenomenon according to the running of the vehicle.

In the case where the boundary between the pre-change area and the post-change area is a plain terrain having a pre-set altitude less than the preset altitude, . In the case of a plain terrain, since the influence of the frequency intensity according to the terrain is small, when the intensity of the radio signal before the change is larger than the intensity of the radio signal after the change, it is considered to be only a transient phenomenon according to the running of the vehicle.

The embodiments of the present invention described above are selected and presented in order to assist those of ordinary skill in the art from among various possible examples. The technical idea of the present invention is not necessarily limited to or limited to these embodiments Various changes, modifications, and other equivalent embodiments are possible without departing from the spirit of the present invention.

S210: Knowing GPS location information
S220: Identification of user channel selection
S230: Radio signal output before area change
S240: Region change event
S250: Local Priority Radio Signal Synchronization

Claims (5)

delete A channel synchronization receiving method of a mobile radio that receives a same channel as a previous channel even when the mobile radio is changed in area,
A GPS position information acquisition process in which the mobile radio periodically grasps GPS position information;
A user-selected channel grasping process for the mobile radio to grasp the user-selected channel selected by the user;
A pre-area change radio signal output process in which the mobile radio receives and outputs a radio signal of a user selected channel frequency extracted by extracting a channel frequency of an area to which GPS position information belongs as a user selected channel frequency;
A local change event judging process for judging whether a local change event in which the area to which the GPS position information belongs is changed according to the movement of the mobile radio; And
When the mobile station radio changes the radio signal intensity after the change of the radio signal of the user selected channel frequency of the pre-change region, which is the radio signal of the pre-change region, and the radio signal of the user- And outputting a local / intensity applied radio signal synchronization output process for outputting either the pre-change radio signal or the post-change radio signal,
The region / intensity applied radio signal synchronization output process includes:
A change in the radio signal of the channel frequency of the user selected in the previous change area;
A change in the radio signal intensity after the change in the radio signal of the local user selected channel frequency after the change; And
And an alternative radio signal outputting step of comparing the intensity of the radio signal before the change with the intensity of the previous radio signal and outputting a radio signal of a region outputting a larger signal intensity,
After the alternative radio signal output process,
If the received signal change is first made to be output to the radio signal after the change in the pre-change radio signal,
The radio communication apparatus operates in a signal switching application mode for periodically comparing the intensity of the radio signal before the change with the intensity of the radio signal before the change and outputting a radio signal having a larger signal intensity,
Or the change signal holding mode in which the output of the radio signal is maintained after the change even if the intensity of the radio signal before the change is greater than the intensity of the radio signal after the change,
The signal switching application mode periodically compares the intensity of the radio signal before the change with the intensity of the radio signal after the change in the case where the boundary between the pre-change region and the post-change region has a predetermined altitude or higher, And outputs the converted radio signal,
The change signal maintenance mode determines the progress direction of the GPS position information, and when the progress direction of the GPS position information is directed to the center point of the region after the change, even though the intensity of the previous radio signal is larger than the intensity of the radio signal after the change The change signal first maintaining mode for maintaining the output of the radio signal and the change of the previous radio signal intensity after the change is greater than the intensity of the radio signal after the change, And a change signal second hold mode for maintaining the output of the radio signal after the change. delete delete delete

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