KR101002520B1 - Method of handover in broadcasting receiver using cyclic redundancy check and handover apparatus - Google Patents

Abstract

Disclosed are a handover method and a handover apparatus for a broadcast receiver using a CRC. A handover apparatus of a broadcast receiver using a CRC according to the present invention includes a decoder for outputting a TDC packet of a TPEG broadcast channel from an externally received broadcast signal, a CRC value included in a header of the TDC packet, and a TDC packet obtained through a calculation. A TDC packet analyzer that counts the number of faulty TDC packets having a different CRC value included in the header of the TDC packet and a CRC value of the body of the TDC packet based on the CRC value of the body; It characterized in that it comprises a handover control for controlling to rescan the frequency when the number of TDC packets with a predetermined reference number or more. This allows the frequency to be searched without measuring the strength or accuracy of the received radio waves provided by the RF stage.

Description

Handover method and handover device of broadcasting receiver using a circuit box TECHNICAL FIELD OF BANDADCASTING RECEIVER USING CYCLIC REDUNDANCY CHECK AND HANDOVER APPARATUS}

The present invention relates to a frequency handover, and more particularly, based on a CRC value included in a header of a TDC packet of a TPEG broadcast channel from an externally received broadcast signal and a CRC value of a body of a TDC packet obtained through an operation. By measuring the number of TDC packets with errors and controlling the frequency of rescanning if the number of TDC packets with errors counted for a certain time is more than a certain reference number, the strength or accuracy of received radio waves provided by the RF stage is measured. The present invention relates to a handover method and a handover apparatus of a broadcast receiver using a CRC capable of performing handover without a frequency.

Transportation and travel information services using mobility of DMB (Digital Multimedia Broadcasting) have recently emerged as killer services of DMB. The traffic and travel information service is called TTI (Traffic and Travel Information), and in Korea, the need for TTI is highlighted by the five-day workweek and the continuous increase in the number of cars. The international standard TPEG (Transport Protocol Expert Group) is a prominent protocol for transmitting TTI.

Here, TPEG means the International Standards Organization (ISO) and the European Standards Council (CEN), which defines how to transmit traffic and travel information through various digital broadcasting media and the Internet, supported by the European Broadcasting Union (EBU) since 1997. Refers to a common standard.

On the other hand, handover means that when a mobile station in a busy state moves out of its cell boundary and moves to an adjacent base station service area, the terminal automatically tunes to a new call channel of the neighboring base station and continuously maintains a call state. It is a function that is maintained, and the disconnection time while the call channel is automatically changed is about 15 ms or less. Therefore, subscribers who are busy by performing digital message communication between the base station and the terminal during such a short time are hardly able to detect the momentary disconnection state.

In the case of the conventional handover, the strength or accuracy of the received radio waves provided by the RF terminal of the mobile terminal is used. However, the conventional method is ambiguous to specify the threshold of the strength or accuracy of the radio wave provided by the RF stage, and there is a problem that the software of the RF stage and the upper TPEG analysis application must be connected.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a handover method of a broadcast receiver using a CRC capable of performing frequency handover without measuring the strength or accuracy of the received radio wave provided by the RF terminal; It is an object to provide a handover device.

In order to achieve the above object, a handover apparatus for a broadcast receiver using a CRC according to the present invention includes a decoder for outputting a TDC packet of a TPEG broadcast channel from an externally received broadcast signal, and a CRC value included in a header of the TDC packet. A TDC packet analyzer that counts the number of TDC packets with errors if the CRC value included in the header of the TDC packet and the CRC value of the body of the TDC packet are different based on the CRC value of the body of the TDC packet obtained through the operation; The apparatus may include a handover control unit configured to control rescanning of the frequency when the number of TDC packets having an error counted for a predetermined time is more than a predetermined reference number.

Preferably, the TDC packet analyzer counts the number of NULL packets when the TDC packet is a NULL packet, and the handover controller controls to rescan the frequency when the number of NULL packets accumulated in a predetermined time is more than a predetermined reference number. It is characterized by.

The handover apparatus may further include a data group analyzer configured to count the number of data groups in which an error occurs when a CRC value included in a header of a data group consisting of TDC packets is different from a CRC value of a body of a data group obtained through a calculation. Further, the handover controller is characterized in that the control to re-discover the frequency when the number of data groups counted for a certain time is more than a predetermined reference number.

Preferably, the handover control unit controls to rescan the frequency when the sum of the number of TDC packets having an error counted for a predetermined time, the number of NULL packets, and the number of data groups in which the error occurs is equal to or greater than a predetermined reference number. Characterized in that.

In addition, the constant time is characterized in that the unit of seconds.

According to a second embodiment of the present invention, a handover method of a broadcast receiver using a CRC is disclosed. The method includes: (a) outputting a TDC packet of a TPEG broadcast channel from a broadcast signal received from the outside; TDC with an error when the CRC value included in the header of the TDC packet and the CRC value of the body of the TDC packet are different based on the CRC value included in the header of the TDC packet and the body of the TDC packet obtained through the operation. And counting the number of packets, and (c) controlling to rescan the frequency when the number of TDC packets having an error counted for a predetermined time is more than a predetermined reference number.

Preferably, the handover method includes the steps of counting the number of NULL packets when the TDC packet is a NULL packet, and controlling to rescan the frequency when the number of NULL packets accumulated during a predetermined time is more than a predetermined reference number. It further comprises.

The method may further include counting the number of data groups in which an error occurs when the CRC value included in the header of the data group consisting of TDC packets is different from the CRC value of the body of the data group obtained through the operation. The method may further include controlling to rescan the frequency when the number of data groups counted during the time is more than a predetermined reference number.

Preferably, the handover method includes summing the number of TDC packets having an error counted for a predetermined time, the number of NULL packets, and the number of data groups in which an error occurs, and if the sum is more than a predetermined reference frequency, It characterized in that it further comprises the step of controlling to rescan.

In addition, the constant time is characterized in that the unit of seconds.

According to a third embodiment of the present invention, a computer-readable recording medium having a program recorded thereon for executing the method is disclosed.

As described above, according to the present invention, a TDC having an error is based on a CRC value included in a header of a TDC packet of a TPEG broadcast channel from an externally received broadcast signal and a CRC value of a body of a TDC packet obtained through an operation. By counting the number of packets and controlling the frequency to be rescanned when the number of TDC packets with errors counted for a certain time is more than a certain reference number, it is possible to automatically detect the strength or accuracy of received radio waves provided by the RF stage. You can search for frequencies.

Hereinafter, with reference to the accompanying drawings, the most preferred embodiment of the handover method and handover apparatus for a broadcast receiver using a CRC according to the present invention will be described in detail. However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various different forms, and only the embodiments are intended to complete the disclosure of the present invention and to those skilled in the art. It is provided for complete information.

1 is a block diagram of a broadcast receiver 100 including a handover device 110 using a CRC according to an embodiment of the present invention, a tuner 101 including an antenna 101a, a TPEG decoder 102, a handover Device 110, navigation unit 103, and video and audio output unit 104, the handover device 110 is a TPEG data processing unit 111, TDC packet analysis unit 112, data group analysis unit 113, and the handover control unit 114. 2 is a block diagram of TPEG data processed by the TPEG data processing unit 111 of the present invention.

Referring to FIG. 1, the tuner 101 performs tuning to a predetermined channel frequency band, and converts a broadcast signal received through the antenna 101a into an intermediate frequency signal in a tuned channel frequency band to a TPEG decoder. Forward to 102.

The TPEG decoder 102 converts the intermediate frequency signal received from the tuner 101 into a baseband signal, performs signal processing to separate the TDC packets of the TPEG broadcast channel, and the separated TDC packets to be handed over. To pass.

The TPEG data processing unit 111 of the handover device 110 sequentially generates a data group and a TPEG frame based on the TDC packet received from the TPEG decoder 102. In addition, the TPEG data processing unit 111 parses the TPEG frame to detect traffic information. The traffic information may be, for example, information such as a congestion time table (CTT), safety driving information (SDI), and a point of interest (POI).

The TDC packet analyzer 112 of the handover apparatus 110 may determine the CRC value included in the header of the TDC packet based on the CRC value included in the header of the TDC packet and the body of the TDC packet obtained through the operation. If the CRC value of the body of the TDC packet is different, it is treated as an error, and the number of TDC packets with an error is counted. The number of TDC packets with counted errors is passed to the handover control unit 114. According to another embodiment of the present invention, the TDC packet analyzer 112 counts the number of NULL packets even when the TDC packet is a NULL packet, and transmits the counted number of NULL packets to the handover controller 114. Here, the NULL packet refers to a packet in which both the header and the body of the TDC packet are NULL.

The data group analyzer 113 of the handover apparatus 110 may determine that the data group of the data group where the error occurs when the CRC value included in the header of the data group composed of TDC packets is different from the CRC value of the body of the data group obtained through the operation. The number is counted, and the number of data groups having the counted error is transmitted to the handover controller 114.

2 shows a configuration diagram of the TPEG data processed by the TPEG data processing unit 111 of the present invention.

Referring to FIG. 2, each of a series of TDC packets 200 received from the TPEG decoder 102 includes a header and a body, and a header includes a cyclic redundancy check (CRC) value. In the present invention, the CRC value in the header of the TDC packet 200 and the body of the TDC packet 200 obtained through the operation is compared with the CRC value and if the value is different, it is determined that the packet with an error, having such an error Handover is controlled by counting the number of packets. Here, the CRC refers to a method of determining a check value for checking whether there is an error in the transmitted data when transmitting data. That is, before transmitting data, the CRC value is calculated and pasted to the data according to the given data value, and the CRC value is calculated again with the received data value after the data transmission is completed. Then, the two values are compared, and if the two values are different, it can be seen that an error is transmitted due to noise or the like during the data transmission process. That is, in the present invention, as described above, by controlling to rescan the frequency based on the redundancy check of the input TDC packet, the frequency can be automatically searched without measuring the strength or accuracy of the received radio wave provided by the RF stage. Has an advantage.

The plurality of TDC packets 200 also form a data group 210 consisting of a header and a body. In the present invention, the data group including the plurality of TDC packets 200 is duplicated in addition to the TDC packet 200. Perform a cyclical redundancy check (CRC). Thereafter, as shown in FIG. 2, the TPEG data processor 111 forms the TDC frame 220 based on the data group 210.

On the other hand, the handover control unit 114 of the handover device 110 checks the number of TDC packets with errors received from the TDC packet analyzer 112 for a predetermined time and at the same time the number of TDC packets with errors is constant. If the reference frequency is greater than or equal to, the tuner 101 is controlled to rescan the frequency.

According to another embodiment of the present invention, the handover control unit 114 of the handover device 110 checks the number of NULL packets received from the TDC packet analyzer 112 for a predetermined time and the number of NULL packets at the same time. The tuner 101 is controlled to rescan the frequency when a predetermined reference number or more is exceeded.

In addition, according to another embodiment of the present invention, the handover control unit 114 of the handover device 110 checks the number of data groups with errors received from the data group analysis unit 113 for a predetermined time and at the same time If the number of data groups with errors is greater than a certain reference number of times, the tuner 101 is controlled to rescan the frequency.

According to an exemplary embodiment, the handover control unit 114 of the handover apparatus 110 may select any two of the number of TDC packets with an error received, the number of NULL packets, or the number of data groups with errors. The tuner 101 may be controlled to rescan the frequency when the sum of the sum is equal to or greater than a predetermined reference number or the sum of all three is equal to or greater than the predetermined reference count.

Meanwhile, the navigation unit 103 generates video and audio signals for providing a traffic information service to the user together with the map information by using the traffic information received from the TPEG data processing unit 111. The generated video and audio signals are transmitted to the video and audio output unit 104.

Thereafter, the video and audio output unit 104 processes the video and audio signals received from the navigation unit 103 in a form that can be output and outputs them in an acoustic visual method.

3 is a flowchart illustrating a handover method of the broadcast receiver 100 using the CRC according to an embodiment of the present invention.

Referring to FIG. 3, in step 300, a broadcast signal is received through the antenna 101a of the broadcast receiver 100. Thereafter, the tuner 101 performs tuning to a predetermined channel frequency band, and converts the broadcast signal received through the antenna 101a into an intermediate frequency signal in the tuned channel frequency band to the TPEG decoder 102. To pass.

In step 301, the TPEG decoder 102 converts the intermediate frequency signal received from the tuner 101 into a baseband signal, performs signal processing to separate the TDC packets of the TPEG broadcasting channel, and handovers the separated TDC packets. Output to device 110.

Next, in step 302, the TDC packet analyzer 112 of the handover device 110, based on the CRC value included in the header of the TDC packet and the CRC value of the body of the TDC packet obtained through the operation, the header of the TDC packet If the CRC value included in the and the CRC value of the body of the TDC packet is different, it is treated as an error, and the number of TDC packets with an error is counted. The number of TDC packets with counted errors is passed to the handover control unit 114.

Thereafter, in step 303, the handover control unit 114 of the handover device 110 checks the number of TDC packets with errors received from the TDC packet analysis unit 112 for a predetermined time and simultaneously checks the number of TDC packets with errors. Determine whether the number is more than a certain standard number. As a result of the determination, if the number of faulty TDC packets is less than the predetermined reference number, the procedure is terminated.

Then, in step 304, the handover control unit 114 of the handover device 110, if the number of TDC packets with errors received from the TDC packet analysis unit 112 for a predetermined time is more than a predetermined reference number of tuners 101 ) To rescan the frequency.

According to an embodiment of the present invention, as described in detail above with reference to FIGS. 1 and 2, the handover controller 114 of the handover apparatus 110 receives an error received from the TDC packet analyzer 112. Search for frequencies based on the number of TDC packets with, the number of NULL packets, or the number of data groups with errors, or the sum of any two, or the sum of all three Can be controlled.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

The best embodiments have been disclosed in the drawings and specification above. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a block diagram of a broadcast receiver including a handover apparatus using a CRC according to an embodiment of the present invention.

2 is a block diagram of TPEG data processed by the TPEG data processing unit of the present invention.

3 is a flowchart illustrating a handover method of a broadcast receiver using a CRC according to an embodiment of the present invention.

Claims (11)

A decoder for outputting a TDC packet of a TPEG broadcast channel from an externally received broadcast signal; Error when the CRC value included in the header of the TDC packet and the CRC value of the body of the TDC packet are different based on the CRC value included in the header of the TDC packet and the CRC value of the body of the TDC packet obtained through the operation. A TDC packet analyzer for counting the number of TDC packets having a TDC packet; And And a handover control unit for controlling to rescan the frequency when the number of the TDC packets having the error counted for a predetermined time is more than a predetermined reference number. The method of claim 1, The TDC packet analysis unit counts the number of NULL packets when the TDC packet is a NULL packet, The handover control unit of the broadcast receiver using a CRC, characterized in that the control to re-scan the frequency when the number of the accumulated number of NULL packets over a certain reference time. The method of claim 2, The handover apparatus counts the number of data groups in which the error occurs when the CRC value included in the header of the data group consisting of the TDC packets is different from the CRC value of the body of the data group obtained through the operation. Further includes wealth, And the handover control unit controls to rescan the frequency when the number of data groups counted for a predetermined time is more than a predetermined reference number. The method of claim 3, The handover control unit controls to rescan the frequency when the sum of the number of the TDC packets having the error counted for a predetermined time, the number of the NULL packets, and the number of the data group in which the error occurs is more than a predetermined reference number. Handover device for a broadcast receiver using a CRC, characterized in that. The method according to claim 1, wherein The predetermined time is a handover device using a CRC, characterized in that the unit of seconds. (a) outputting a TDC packet of a TPEG broadcast channel from an externally received broadcast signal; (b) based on the CRC value included in the header of the TDC packet and the CRC value of the body of the TDC packet obtained through the operation, the CRC value included in the header of the TDC packet and the CRC value of the body of the TDC packet Otherwise counting the number of faulty TDC packets; And and (c) controlling to rescan the frequency when the number of the TDC packets having the error counted for a predetermined time is more than a predetermined reference number. The method of claim 6, The handover method is Counting the number of NULL packets when the TDC packet is a NULL packet; And And rescanning the frequency when the number of the NULL packets accumulated during a predetermined time is equal to or greater than a predetermined reference number. The method of claim 7, wherein The handover method is Counting the number of data groups in which the error occurs when the CRC value included in the header of the data group consisting of the TDC packets is different from the CRC value of the body of the data group obtained through the operation; And And rescanning the frequency if the number of data groups counted for a predetermined time is more than a predetermined reference number. The method of claim 8, The handover method is Summing up the number of TDC packets with errors, the number of NULL packets, and the number of data groups in which the error occurred, counted over a period of time; And And rescanning the frequency when the sum is more than a predetermined reference number. The method according to claim 6 to 9, The predetermined time is a handover method of a broadcast receiver using a CRC, characterized in that the unit of seconds. A computer-readable recording medium having recorded thereon a program for executing the method of any one of claims 6 to 9.

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