KR100611173B1 - Method for transmitting of control data in image processing system with set top box - Google Patents

Abstract

A method and apparatus for transmitting control data wirelessly between a set top box unit and a monitor unit are disclosed. The data transmission method according to the present invention comprises the steps of: inputting a user command, transmitting control data corresponding to the user command through a predetermined path between the monitor unit and the set-top box unit, and if the control data transmission is successful, the set-top box unit And performing an operation according to the control data in the monitor unit. According to the present invention, it is possible to prevent the sink from shifting by matching the operation of the set-top box unit and the monitor unit.

Wireless transmission, sink, control data

Description

Method for transmitting of control data in image processing system with set top box}

1 is a view showing an example of an image system using a set-top box,

2 is a block diagram of an imaging system according to the present invention;

3 is a flowchart illustrating a data transmission method according to the present invention;

4A and 4B are flowcharts for explaining an example of the process when the user command for channel change is input from the monitor unit; and

5 is a flowchart for explaining an example of the processing process when a user command of sound conversion is input from the monitor unit; and

6 is a diagram illustrating an example of a configuration of control data.

The present invention relates to a method of transmitting control data in an image system using a set-top box, and more particularly, to control the image system by matching a sink between the set-top box unit and the monitor unit when controlling the image system using the set-top box. The present invention relates to a data transmission method.

Matching the sync means matching the operation performed between the set top box unit and the monitor unit. For example, when the channel is changed from channel 12 to channel 15 in the monitor unit, the set-top box unit is changed to a channel other than channel 15 in the set-top box unit due to an error in control data transmission, and the channel unit is changed to channel 15 in the monitor unit. .

1 is a diagram illustrating an example of an imaging system using a set-top box. Referring to FIG. 1, the imaging system includes a set top box unit 110 and a monitor unit 120. The set top box unit 110 receives an external signal including a broadcast signal, processes it, and transmits it to the monitor unit 120. The monitor unit 120 receives a signal transmitted from the set-top box unit 110 and outputs the signal by using a PDP or LCD. While receiving the output video signal, the user inputs a user command such as channel change or audio information from the monitor 120 using the remote controller 130 or the like. The monitor unit 120 and the set-top box unit 110 performs an operation according to a user command. Data transmitted and received between the monitor unit 120 and the set-top box unit 110 may be largely divided into a transport stream (TS) and control data. The control data is separate from the TS and controls the operations of the monitor unit 120 and the set-top box unit 110 using the control data. In the case of watching television by transmitting and receiving control data wirelessly, it is necessary to synchronize the sync when the monitor 120 and the set-top box 110 control an operation through a remote controller or a panel key. For example, when switching a channel using a numeric key, switching a channel using a channel up-down key, switching a channel using a favorite channel key, or switching to a previous channel, the monitor unit 120 and the set-top box unit 110 are the same. You must be aware of the channel. The monitor 120 and the set-top box 110 should be in the same state even when the caption is ON / OFF or when sound is converted or when the external input is switched.

According to the conventional control data transmission method, when switching the channel between the monitor 120 and the set-top box unit 110, the command of the 'channel up' or 'channel down' is sent to control the operation, sound conversion In the case of 'Switch to Sound Next Step', the command was controlled. However, when requesting control of the operation in this manner, transmission data may be damaged or disappeared in the wireless communication. In this case, the sink is collapsed between the monitor unit 120 and the set-top box unit 110 to perform different operations. For example, the monitor 120 transmits a command of 'channel up' to the set-top box unit 110 continuously 10 times. Can be. Then, the sink collapses between the monitor unit 120 and the set-top box unit 110, and restoration cannot be performed unless the channel is switched using the numeric keys. That is, there is a problem in that the operation of the monitor unit 120 and the set-top box unit 110 is inconsistent because the control data is not transmitted normally. In addition, the control data is duplicated and transmitted, there is a problem that the monitor 120 and the set-top box 110 is operated according to the duplicated control data.

Therefore, the technical problem to be achieved by the present invention is a method of transmitting control data that can match the operation of the set-top box unit and the monitor unit even if control data transmission fails in the image system using the set-top box, the control data is duplicated transmission And providing the apparatus.

The data transmission method according to the present invention comprises the steps of: inputting a user command, transmitting control data corresponding to the user command through a predetermined path between the monitor unit and the set-top box unit, and if the control data transmission is successful, the set-top box unit And performing an operation according to the control data in the monitor unit.

In the step of transmitting the control data, the control data includes an identifier for distinguishing the type of the user command and data for analyzing and displaying the contents of the user command, and wireless transmission of control data having the same identifier fails a predetermined number of times. In this case, it is preferable to change the predetermined path to another path and to transmit the control data wirelessly.

It is preferable that the control data is judged whether or not the control data is duplicated by using a checksum for checking a transmission error and an index added to the control data, so that an operation according to the duplicated control data is not performed. .

The data transmission system according to the present invention includes a user interface unit for inputting a user command, a first control data processor for generating control data corresponding to the user command, a first data transceiver for transmitting and receiving control data with the set-top box unit, and control A monitor unit including a first control unit for controlling the operation of the monitor unit according to a user command when the data is successfully transmitted, and a second data transceiver for transmitting and receiving control data with the monitor unit, and a user command when the control data is successfully received. In accordance with the present invention, it is preferable to include a set top box unit including a second control unit for controlling the operation of the set top box unit.

When the transmission of the control data fails more than a predetermined number of times, the first control unit transmits the control data by changing the transmission path between the monitor unit and the set-top box unit, and the second control unit includes a checksum for checking a transmission error of the control data. checksum) Using the index data added to identify the control data and the control data to determine whether the control data is duplicated transmission, if the control data is duplicated transmission does not control the operation of the set-top box according to the user command It is preferable.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of related known functions or configurations will be omitted when it is determined that the present invention may unnecessarily obscure the subject matter.

2 is a block diagram of an imaging system according to the present invention. Referring to FIG. 2, the imaging system includes a set top box unit 210 and a monitor 230. The set top box unit 210 includes an external signal input unit 211, a second video and audio signal processor 212, a second control data processor 213, a second data transceiver 214, and a second user interface unit 215. ) And a second control unit 216. The monitor 230 includes an image and audio output unit 231, a first image and audio signal processor 232, a first control data processor 233, a first data transceiver 234, and a first user interface unit ( 235 and a first control unit 236.

An external signal is input to the set top box unit 210 and output from the monitor unit 230 as follows. The broadcast signal is input through the external input unit 211. In addition, a signal from an external device such as a DVD or a VCR may be input. The input signal generates a TS through signal processing such as compression in the second video and audio signal processor 212. The TS is transmitted to the monitor 230 through the second and first data transceivers 214 and 234. The received TS is signaled by the first video and audio signal processor 232 and then output through the video and audio output unit 231. Typical examples of the video and audio output unit 231 include a PDP and an LCD.

The process of transmitting control data is as follows. A user command is input through the first user interface unit 235. A user command is input using a button installed on the remote controller or the monitor 230. Examples of user commands include channel up, channel down, audio selection (stereo, mono), caption information selection (caption on / off, type of caption), volume control, and the like. The first control data processor 233 generates control data corresponding to the input user command.

6 is a diagram illustrating an example of a configuration of control data. The size of control data transmitted at one time is determined in consideration of the limitation of data transmission amount. It is preferable to fix the maximum size to 16 bytes, considering that the size of the buffer is 16 bytes. For example, if the actual data of the 16 bytes is 8 bytes, 1 byte is used as an identifier to distinguish what kind of user command is, and the remaining 7 bytes are used as the actual data displayed by interpreting the user command. Examples of the identifier are channel change, virtual channel, audio information, caption information, and the like. For example, when the identifier indicates a channel change, the frequency of the corresponding channel, the number of the virtual channel of the channel when the identifier indicates the virtual channel, and the information about the caption information when the identifier indicates the caption information are actual data. . In the case of channel up, the current channel is identified in the channel map, and then the control data is transmitted by displaying the frequency of the channel to be switched in the actual data.

Control data is transmitted and received between the set-top box unit 210 and the monitor unit 230. When transmitting and receiving, the first and second data transceivers 234 and 214 are preferably used. If transmission of control data fails, retransmission is a rule. If the transmission of control data fails more than a predetermined number of times, the transmission path is changed and retransmitted. This is because there are several paths used for wireless transmission. If it is determined that the path is in a bad state, it is preferable to change the transmission path to a stable path. It should be noted that when changing the path, there are many types of control data, so each control data that fails to be transmitted must be distinguished (using an identifier). The reason for distinguishing each of the control data is that the number of times of transmission failure is initialized when the transmission is successful.

For example, when A, B, and C data are transmitted, consider the case where A and C data are well transmitted, only B is not well transmitted, and the transmission path is changed after five or more failed transmissions. An example of transferring data in the order of A, B, C, B, B, A, B, C, C, C, B, and C will be described. If the control data is not distinguished, the A transmission success counter is 0, the B transmission failure counter is 1, the C transmission success counter is 0, the B transmission failure counter is 1, the B transmission failure counter is 2, A Counter for successful transmission is 0, Counter for successful transmission of B is 1, Counter for successful transmission of C is 0, Counter for successful transmission of C is 0, Counter for successful transmission of C is 0, Counter for successful transmission of B is 1, counter for C is transmitted. On success, the counter goes to zero and does not change the transmission path. That is, the data transmission fails five times, but the transmission path is not changed. When distinguishing the control data, a counter is calculated for each data. In other words, A is successful, counter A is 0, B is unsuccessful, B is 1, C is successful, counter C is 0, B is unsuccessful, B is 2, and B is unsuccessful. (B) is 3, A is successful, counter A is 0, B is failed, counter B is 4, C is successful, counter C is 0, C is successful, counter C is 0, The counter C is 0 due to successful C transmission, the counter B is 5 due to B transmission failure, and the counter C is 0 due to C successful transmission, and the transmission path is changed five times.

If data is transmitted in the order of A, B, C, B, B, A, B, C, C, C, B, and C, the case where the failed data is immediately retransmitted is explained as follows. If A transmission succeeds, B transmission fails, or B transmission fails, B is retransmitted. If transmission fails five times, the transmission path is changed and transmitted.

When transmitting and receiving wirelessly, the same control data may be repeatedly received. In this case, an index is added when data is transmitted. This index is added for every single data, and increases every time one data is sent. The receiving side determines whether the same control data is repeated by considering not only an index but also a checksum value. Here, the value of checksum is for checking transmission error. When one control data is received, the values of index and checksum are checked and stored. Then, when control data is received, it is determined whether the data has already been received by comparing the previously stored index and checksum value. In the case of duplicated control data, the corresponding operation is not performed.

When control data is received, the second control data processor 213 interprets the control data. The second controller controls other components to perform an operation according to the analyzed control data. For example, if the user command input from the monitor 230 is to change from mono sound to stereo sound, the second controller 216 controls the second video and audio signal processor 212 to change the sound from mono to stereo. Change to

The user command may be input to the set top box unit 210 through the second user interface unit 215. The processing of the control data for the input user command is repeated and thus will be omitted.

3 is a flowchart illustrating a data transmission method according to the present invention. A data transmission method will be described with reference to FIGS. 2 and 3. The monitor unit 230 inputs a user command through the first user interface unit 235 (S310). The set top box unit 210 may also be input through the second user interface unit 215. Examples of the user command may include channel change, virtual channel selection, and the like, and a remote controller may be used. The control data corresponding to the user command is generated and transmitted through the predetermined path between the monitor unit 230 and the set-top box unit 210 (S320). It is common to use wireless. It is determined whether the transmission of the control data is successful (S330). The control data transmission side receives an ACK signal (success) when the transmission is successful and receives a NACK signal (failure) when the transmission is unsuccessful. If the transmission fails, it is determined whether the number of failures is a predetermined number or more (S335). If transmission fails more than a predetermined number of times, control data is transmitted by changing the path used for transmission to another path (S337). The number of failures is calculated by distinguishing each control data. If the transmission is successful, it is determined whether duplicated control data has been received (S340). Whether duplicate control data is determined using a checksum and an index is determined. If the control data is not duplicated, the set-top box unit 210 and the monitor unit 230 perform operations according to the control data (S350). The side receiving the control data interprets the control data and performs an operation according to a user command. By doing so, it is possible to operate the system without shifting the sync during wireless transmission. If it is determined that the duplicated control data, the operation accordingly is not performed.

4A and 4B are flowcharts for explaining an example of a process when a user command for changing a channel is input by the monitor unit.

Referring to FIG. 4A, when a user command of channel up is inputted, a process performed by the monitor 230 is illustrated. The monitor 230 receives a user command of channel up through the remote control key (S410). The first controller 236 compares the position of the current channel with the channel position of the channel map and finds a frequency of the channel to be switched next (S420). After generating the control data in the first control data processing unit 233, and transmits through the first data transmission and reception unit 234 (S430). It is determined whether the control data transmission is successful (S440). If the transmission is successful, the monitor 230 tunes the channel to the transmitted frequency (S450). Referring to FIG. 4B, when a user command of channel up is input from the set-top box unit 210, the processing thereof is shown. Control data is input through the second data transceiver 214 (S470). The second controller 216 tunes the channel to the frequency of the received control data (S480).

5 is a flowchart illustrating an example of a process when a user command for sound conversion is input by the monitor unit. Referring to FIG. 5, when a user command of sound conversion is input, a process of the monitor 230 is shown. The monitor 230 receives a user command of sound conversion through the remote control key (S510). The first control unit 236 finds the current sound format and finds a sound (mono, stereo) to be changed next (S520). After generating the control data in the first control data processing unit 233, and transmits through the first data transmission and reception unit 234 (S530). It is determined whether the control data transmission is successful (S540). If the transmission is successful, the monitor 230 changes the sound to the transmitted sound information (S550).

According to the control data transmission method and the apparatus according to the present invention, when the control data transmission in the video system using the set-top box fails, even if the control data is duplicated transmission, the synchronization of the set-top box unit and the monitor unit to match the operation Can be prevented.

Although the present invention has been described in detail with reference to exemplary embodiments above, those skilled in the art may make various modifications within the scope of the present invention without departing from the scope of the present invention. Will understand. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

Claims (5)

In the data transmission method between the set-top box unit for receiving an external signal and processing and transmitting it and the monitor unit for receiving and outputting the external signal, Inputting a user command; Transmitting control data corresponding to the user command through a predetermined path between the monitor unit and the set-top box unit; And If the transmission of the control data is successful, performing the operation according to the control data in the set-top box and the monitor; The control data includes an identifier for distinguishing the type of the user command, data for interpreting and displaying the contents of the user command, The transmitting of the control data may include: when the wireless transmission of the control data having the same identifier fails a predetermined number of times, changing the predetermined path to another path and transmitting the control data wirelessly. Way. delete The method of claim 1, The control data is determined whether or not the control data is redundantly transmitted using a checksum for checking a transmission error and an index added to the control data, and the operation according to the duplicated control data is not performed. Data transmission method, characterized in that not. In the data transmission system between the set-top box unit for receiving an external signal and processing it and transmitting it and the monitor unit for receiving and processing the external signal, A user interface for inputting a user command, A first control data processor for generating control data corresponding to the user command; A first data transmission / reception unit for transmitting and receiving the control data with the set-top box unit, and A monitor unit including a first control unit for controlling the operation of the monitor unit according to the user command when the control data is successfully transmitted; And A second data transmission / reception unit for transmitting and receiving the control data with the monitor unit; And a set top box unit including a second control unit for controlling an operation of the set top box unit according to the user command when the control data is successfully received. The control data includes an identifier for distinguishing the type of the user command, and data for analyzing and displaying the contents of the user command. The first control unit, when the transmission of the control data fails more than a predetermined number of times, And transmitting the control data by changing a transmission path between the monitor unit and the set-top box unit. The method of claim 4, wherein The second control unit It is determined whether or not the control data is duplicated by using checksum data for checking a transmission error of the control data and index data added to identify the control data. If it is, the data transmission system, characterized in that it does not control the operation of the set-top box unit according to the user command.

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