KR100796860B1 - Apparatus and method for transmitting/ receiving information - Google Patents

Abstract

When the source device changes the reception channel, the display device is informed of the change information of the reception channel so that the display device performs a predetermined operation according to the change of the reception channel of the source device.

In the present invention, a hardware, an IEEE 1394 transaction layer, an IEC 61883 FCP (Function Control Protocol) layer and an application layer are sequentially positioned in a control unit of a source device, and an event generation layer is located between an IEC 61883 FCP layer and an application layer. When a user's receiving channel change command is input, the receiving channel change information is generated and transmitted to the display device, and in the control unit of the display device, hardware, IEEE 1394 transaction layer, IEC 61883 FCP layer, and application layer are sequentially located. When the event processing layer is located between the IEC 61883 FCP layer and the application layer and the channel change information is input from the source device, the video PID (Packet IDentification) and the voice PID are reset and the set video PID and According to the voice PID, the stream processing unit Process the voice stream.

IEEE1394, network, interface, channel change, source device,

Description

Apparatus and method for transmitting / receiving information}

1 is a diagram showing a protocol stack of a general IEEE 1394 interface,

2 is a view illustrating a state in which a source device and a display device are connected by an IEEE 1394 interface cable.                 

3 is a diagram illustrating an example of a screen display state of a display device when the source device and the display device are connected by an IEEE 1394 interface cable.

4 is a view showing the configuration of a source device and a display device according to the transmitting and receiving device of the present invention,

FIG. 5A is a diagram illustrating a protocol stack of an IEEE 1394 interface configured in the controller of the source device of FIG. 4.

FIG. 5B is a diagram illustrating a protocol stack of an IEEE 1394 interface configured in the controller of the display device of FIG. 4.

6A is a signal flow diagram illustrating an operation of a source device according to a transmission method of the present invention.

6B is a signal flow diagram illustrating an operation of a display device according to a receiving method of the present invention.

* Description of the symbols for the main parts of the drawings *

200: source device 210: antenna

220: broadcast signal receiver 230: video / audio processing unit

240, 310: interface unit 250, 330: user command input unit

260, 340: control unit 261, 341: hardware

262, 342: IEEE 1394 transaction layer 263, 343: IEC 61883 FCP layer

264: event generator 265, 345: application layer                 

270, 350: memory 300: display device

320: stream processing unit 344: event processing layer

400: interface cable

When the operation of a source device such as a set top box is changed, the present invention transmits the change information of the operation to a display device such as a digital television receiver so that the display device performs a predetermined operation according to the operation of the source device. The present invention relates to an apparatus for transmitting and receiving information, and more particularly, when a source device changes a channel for receiving a broadcast signal, the display device transmits the change information of the received channel to the display device, so that the display device changes video and audio PIDs according to the channel change of the source device. The present invention relates to an information transmitting and receiving device and method for resetting a packet IDentification.

With the development of digital technology, a source device that receives a broadcast signal of a predetermined channel such as a set-top box and provides an image stream and an audio stream, and receives an image stream and an audio stream provided by the source device, displays an image on the screen. In addition, various methods for controlling a mutual operation by connecting a display device such as a digital television receiver that outputs a voice signal to a speaker through an interface technology have been proposed.                         

As an interface technology for connecting the source device and the display device, there is an IEEE 1394 interface approved by the IEEE 1394 committee. The IEEE 1394 interface was initially designed to replace a small computer system interface (SCSI) that connects a computer and a peripheral device, but not only a high speed serial bus but also hot plugging, a flexible topology, It has many advantages such as isochronous data communication module suitable for connection of many digital video / audio devices and real-time data transmission, and is attracting attention as a next-generation interface for connecting computers or information appliances.

1 illustrates a protocol stack of an IEEE 1394 interface. As shown in the drawing, hardware 10, which is the lowest layer, is provided with a physical layer 11 and a link layer 13. The physical layer 11 receives a predetermined bit string from the link layer 13, which is a higher layer at the time of transmission, and acquires a right to use a serial bus. The bit string is then encoded and converted into an electrical signal to transmit data on the bus. The reception of data follows the reverse process of the transmission. The link layer 13 handles data in units of packets and plays a role of constructing and decomposing packets, detecting errors, and managing bus cycles.

The IEEE 1394 transaction layer 20, which is an upper layer of the hardware 10, provides transactions such as reading and writing data, and asynchronous communication with other nodes on the IEEE 1394 bus using services provided by the lower layer. Do this.

When connecting a plurality of devices using the IEEE 1394 interface, the specification of the IEEE 1394 interface technology is somewhat insufficient so that the actual data transmission is performed between the devices. That is, a process for establishing a connection between devices for sending and receiving video streams and voice streams, or an isochronous channel for transmitting video streams and voice streams, etc., must be made between the devices. 61883. The IEC 61883 is equipped with a Function Control Protocol (FCP) layer 30 that provides a framework for transmitting certain commands.

In the uppermost layer, which is an upper layer of the IEC 61883 FCP layer 30, an application layer 40 for controlling the operation of a device employing the IEEE 1394 interface technology is located.

With the IEEE 1394 interface technology having such a protocol stack, when a source device such as a set top box and a display device such as a digital television receiver are connected, the source device and the display device can control operations while transmitting predetermined data to each other. .

For example, when the source device 100 and the display device 110 are connected with the IEEE 1394 interface cable 120 as shown in FIG. 2, the display device 110 is connected to the IEEE 1394 interface cable 120. It automatically detects all connected devices to form a network topology. At this time, the display device 110 recognizes that the source device 100 is connected with the IEEE 1394 interface cable 120, and displays the devices connected with the IEEE 1394 interface cable 120 on the screen. do.

For example, assuming that only the source device 100 and the display device 110 are connected with the IEEE 1394 interface cable 120, the display device 110 may display the IEEE 1394 interface cable on the screen as shown in FIG. 3. The devices connected to 120 are displayed.

As such, when the devices connected with the IEEE 1394 interface cable 120 are displayed on the screen of the display device 110, the user operates the remote control transmitter of the display device 110 to select '2' as the source device 100. In this case, the source device 100 and the display device 110 form a point-to-point connection, and the source device 100 transmits the broadcast signal of the channel currently being received to the display device 110. do.

Since the source device 100 is selected as the remote control transmitter of the display device 110 as described above, the display device 110 resets the image PID and the voice PID by a PSIP (Program and System Information Protocol) engine. The display device 110 may normally process the video stream and the audio stream transmitted by the 100. That is, the time point at which the user inputs a command to the display device 110 to select the source device 100 by operating the remote control transmitter of the display device 110 becomes the PSIP setting time point for the broadcast signal of the new channel.

When the user commands the change of the reception channel of the source device 100 by manipulating the remote control transmitter of the display device 110, the display device 110 transmits a change channel change command to the source device 100. Allow the source device 100 to change the channel it receives. In addition, the display device 110 resets the video PID and the audio PID according to the change of the reception channel of the source device 100 to display the video and audio streams which receive and transmit the broadcast signal of the channel changed by the source device 100. The device 110 may receive an input and process it normally.

However, the above-described conventional technology does not change the reception channel of the source device 100 with the remote control transmitter of the display device 110, and the user can change the remote control transmitter of the source device 100 or the front panel of the source device 100. When the reception channel of the source device 100 is directly changed by manipulating a channel change key or the like, the display device 110 may not recognize that the source device 100 has changed the reception channel.

Then, the PSIP engine of the display device 110 does not capture the parsing time point for receiving the broadcast signal of the new channel, and before changing the channel of the video and audio stream after the channel change input from the source device 100. Video and audio PID will continue to be processed.

Therefore, when the video PID and the audio PID of the channel previously received and the changed channel of the source device 100 are different from each other, the display device 110 may change the video and audio streams of the channel changed by the source device 100. There was a problem in that it could not be processed to normal, thereby unable to view the broadcast signal of the channel.

Accordingly, an object of the present invention is to notify the display device of a change in the reception channel when a user's reception channel change command is directly input to the source device, thereby changing the reception channel. The present invention provides an information transmitting and receiving device and method for resetting a video PID and a voice PID so that a display device can normally process a video and an audio stream of a channel changed by a source device.

In the information transmitting and receiving apparatus of the present invention having the above object, the broadcast signal receiving unit receives a broadcast signal of a predetermined channel according to the tune-in signal, and the audio / video processing unit processes the broadcast signal received by the broadcast signal receiving unit to process an audio and video stream. The interface unit interfaces control information transmitted between the audio and video stream and the display device to the display device, and is output through the interface unit while the controller operates through a predetermined interface protocol. The control device transmits predetermined control information to and from the device, controls the operation of the source device according to the control information received from the display device and the user operation command, and stores the operation program of the controller in memory in advance. For example, the IEEE 1394 transaction layer, the IEC 61883 FCP (Function Control Protocol) layer and the application layer are sequentially positioned, and between the IEC 61883 FCP layer and the application layer, a receiving channel when a user's receiving channel change command is input. Characterized in that the event generation layer for generating the change information and transmits to the display device.

In addition, the information transmitting and receiving apparatus of the present invention, the interface unit receives the audio and video streams transmitted from the source device and interfaces predetermined control information transmitted to and from the source device, and streams the audio and video streams received through the interface unit A processor which processes a processor, the controller operates by a predetermined interface protocol, transmits predetermined control information to and from the source device through the interface, controls the operation of the display device, and stores the operation program of the controller in advance The control unit may include hardware, an IEEE 1394 transaction layer, an IEC 61883 FCP layer, and an application layer sequentially positioned, and between the IEC 61883 FCP layer and the application layer, channel change information may be input from the source device. Re-set the video PID and the audio PID to when and is characterized in that the event processing layer that processes the stream processing unit is a video and audio stream in accordance with the position set video PID and an audio PID.

In the information transmitting / receiving method of the present invention, when a receiving channel change command is generated to a source device, the broadcast signal receiving unit changes the receiving channel according to the receiving channel changing command, and the event generation layer of the controller generates the changing information of the receiving channel. And transmitting the change information of the received channel to the display device, waiting for a response signal to be received from the display device, and terminating the transmission operation of the reception channel change information when the response signal is received from the display device.

And when the response signal is not received within a preset time, resend the change information of the reception channel to the display device.

In addition, the information transmitting and receiving method of the present invention, when the change information of the receiving channel is input from the source device to operate the PSIP engine to reset the video and audio PID, the stream processing unit from the source device in accordance with the reset video and audio PID And process the inputted video and audio streams, and generate a response signal for the change information of the received reception channel, and transmit the generated response signal to the display device.

Hereinafter, the information transmitting and receiving apparatus and method of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 4 to 6B.

4 is a diagram illustrating a configuration of a source device and a display device according to the information transmitting and receiving apparatus of the present invention. Here, reference numeral 200 denotes a source device such as a set top box, and reference numeral 300 denotes a display device such as a digital television receiver.

The source device 200 and the display device 300 are connected with a predetermined interface cable 400 to enable data communication between each other.

The source device 200 may include a broadcast signal receiver 220 for receiving a broadcast signal of a predetermined channel according to a tune signal among broadcast signals received through the antenna 210, and the broadcast signal receiver 220. A video / audio processor 230 for processing a broadcast signal and outputting a video and audio stream, and a video and audio stream and a display device output by the video / audio processor 230 and transmitted to the display device 300. The interface unit 240 for interfacing predetermined control information and the like transmitted to each other 300, the user command input unit 250 for inputting a user's operation command, and the interface unit 240 while operating with a predetermined interface protocol. The control information is transmitted to and from the display device 300 through the control device 300 and the control information received from the display device 300 is used. The control unit 260 for controlling the operation of the source device 200 according to the user command of the command input unit 250 and the memory 270 for storing the operation program of the control unit 260 in advance and outputting it to the control unit 260. It is composed.

In FIG. 5A, as shown in FIG. 5A, hardware 261, IEEE 1394 transaction layer 262, IEC 61883 FCP layer 263, and application layer 265 are sequentially located in the controller 260. An event generation layer 264 is located between the IEC 61883 FCP layer 263 and the application layer 265. The event generation layer 264 generates change information of a reception channel when changing a reception channel of the broadcast signal receiver 220 according to a channel change command of a user input through the user command input unit 250, The change information of the received reception channel is transmitted to the display device 300 through the interface unit 240.

In addition, the display device 300 receives the audio and video streams transmitted by the source device 200 through the interface cable 400 and interfaces predetermined control information transmitted between the source device 200 and the source device 200. An interface unit 310, a stream processing unit 320 for processing audio and video streams input through the interface unit 310, and outputting audio and video signals; and a user command input unit 330 for inputting a user command. And, the display device 300 while operating in a predetermined interface protocol and a user command of the user command input unit 330 is input and transmits predetermined control information to and from the source device 200 through the interface unit 310 Control unit 340 for controlling the operation of the operation, and the operation program of the control unit 340 is stored in advance and output to the control unit 340 Memory 350.

In the controller 340, as shown in FIG. 5B, the hardware 341, the IEEE 1394 transaction layer 342, the IEC 61883 FCP layer 343, and the application layer 345 are sequentially located, and the IEC 61883 FCP is sequentially located. An event processing layer 344 is positioned between the layer 343 and the application layer 345. The event processing layer 344, when the channel change information is input from the source device 200, the PSIP engine resets the video PID and the voice PID, and the stream processor according to the set video PID and the voice PID. Enable 320 to process video and audio streams.

In the information transmission and reception apparatus of the present invention configured as described above, the broadcast signal receiver 220 of the broadcast signals input through the antenna 210 of the source device 200 receives a broadcast signal of a predetermined channel according to the channel selection signal of the controller 260. The received and received broadcast signal of the predetermined channel is processed by the video / audio processor 230 to output a video and audio stream.

The video and audio streams output from the video / audio processor 230 are transmitted to the display device 300 through the interface unit 240 and the interface cable 400.

The display device 300 receives the video and audio streams transmitted from the source device 200 through the interface cable 400 through the interface unit 310, and receives the received video and audio streams from the stream processing unit ( After processing 320, the video signal and the audio signal are output so that the user can watch the broadcast signal.

In this state, when the user inputs a change channel change command of the reception channel of the source device 200 through the user command input unit 250 of the source device 200, the control unit 340 receives the change command of the reception channel. The unit 310 and the interface cable 400 are transmitted to the source device 200.

The source device 200 receives a change command of a reception channel transmitted by the display device 300 through the interface cable 400 through the interface unit 240, and inputs it to the controller 260. Then, the control unit 260 outputs a channel selection signal according to the change command of the received channel, and the broadcast signal receiving unit 220 changes the reception channel according to the channel selection signal to receive the broadcast signal. The broadcast signal received by the broadcast signal receiver 220 by changing a channel is processed by the video / audio processor 230 and then outputs a video and audio stream to the display device through the interface unit 240 and the interface cable 400. Is sent to 300.

In addition, the control unit 340 of the display device 300 transmits a command to change the reception channel to the source device 200, and then operates a PSIP engine to suit the video and audio streams transmitted by the source device 100. The PID and the video PID are reset, and the stream processor 320 processes the video and audio streams according to the reset audio and video PIDs to output video and audio signals.

On the other hand, when a user commands a change of a reception channel through the user command input unit 250 of the source device 200, the control unit 260 receives a change command of the reception channel and outputs a channel selection signal of the corresponding channel. The broadcast signal receiving unit 220 changes the channel according to the output tuned signal to receive the broadcast signal. The broadcast signal received by the broadcast signal receiver 220 changes a channel and is processed by the video / audio processor 230 to output a video and audio stream, and the output video and audio stream is interfaced with the interface unit 240. The cable 400 is transmitted to the display device 300.

When the control unit 260 receives a change channel change command from the user command input unit 250, the control unit 260 sends the change channel change command to the hardware 261, the IEEE 1394 transaction layer 262, and the IEC 61883 FCP layer 263. It is delivered to the event generation layer 264 through).

Then, the event generation layer 264 generates the change information of the receive channel according to the change channel command, and the change information of the received receive channel is IEC 61883 FCP layer 263, IEEE 1394 transaction layer 262 and hardware ( 261 are sequentially outputted and transmitted to the display device 300 through the interface unit 240 and the interface cable 400.

The display device 300 receives the change information of the reception channel transmitted by the source device 200 through the interface cable 400 through the interface unit 310, and controls the received change information of the received channel. 340).

The controller 340 transmits the input change channel information to the event generation layer 344 through the hardware 341, the IEEE 1394 transaction layer 342, and the IEC 61883 FCP layer 343.

Then, the event generation layer 344 determines that the source device 200 has changed the reception channel based on the received change channel information, and operates the PSIP engine to transmit the video and audio streams transmitted by the source device 100. Reset the voice PID and video PID as appropriate. When the audio PID and the video PID are reset, the stream processor 320 processes the video and audio streams of the channel changed by the source device 100 according to the reset audio PID and the video PID to output video and audio signals. The user can watch the broadcast signal of the channel changed by the user.

Figure 6a is a signal flow diagram showing the operation of the source device according to the transmission method of the present invention. As shown in FIG. 2, when a change channel change command is input through the user command input unit 250 of the source device 200, the controller 260 determines a change command input of the receive channel in step 500. In step 502, the broadcast signal receiving unit 220 outputs a channel selection signal according to the change channel receiving command to the broadcast signal receiving unit 220 to change the receiving channel.

In operation 504, the event generation layer 264 of the controller 260 generates change information of the reception channel, and the interface information of the interface 240 and the interface cable 400 in operation 506. ) To the display device 300 through.                     

In the next step 508, the display device 300 waits for a predetermined time until the display device 300 performs a predetermined operation according to the change information of the reception channel and transmits a response signal, and in step 510, the display device 300 It is determined whether or not a response signal is received. When the response signal is not received from the display device 300 as a result of the determination in step 510, the event generation layer 264 of the controller 260 returns to step 506 to change information on the received reception channel. After transmitting to the display device 300 and waiting a predetermined time, an operation of determining whether a response signal is received from the display device 300 is repeatedly performed.

In operation 510, when the response signal is received from the display device 300, the operation for transmitting the change information of the reception channel is terminated.

6B is a signal flow diagram illustrating an operation of a display device according to a receiving method of the present invention. As illustrated, the event processing layer 344 of the control unit 340 of the display device 300 receives the PSIP in step 602 when the change information of the reception channel is received from the source device 200 in step 600. Run the engine to reset the video PID and audio PID.

In operation 604, the event processing layer 344 operates the stream processor 320 according to the reset video and audio PIDs to normalize the video and audio streams of the channel changed by the source device 200. In step 606, a response signal indicating that the change information of the reception channel is received is generated.                     

When generation of the response signal is completed, the event processing layer 344 transmits the generated response signal to the source device 200 and ends the operation according to the change information of the reception channel.

On the other hand, while the present invention has been shown and described with respect to specific preferred embodiments, various modifications and changes of the present invention without departing from the spirit or field of the invention provided by the claims below It can be easily understood by those skilled in the art.

As described in detail above, in the present invention, when a user's receiving channel change command is directly input to the source device to change the receiving channel, the present invention informs the display device of the change information of the receiving channel, and the predetermined operation according to the source device changing the receiving channel. Even if the display device directly changes the channel of the source device, the display device can process the video and audio streams of the broadcast signal received by the source device by changing the channel to view the broadcast signal.

Claims (5)

A broadcast signal receiver for receiving a broadcast signal of a predetermined channel according to a preset signal; An audio / video processor configured to process a broadcast signal received by the broadcast signal receiver to generate an audio and video stream; An interface unit which transmits an image and an audio stream generated by the audio / video processor to a display device and receives a transmission signal from the display device; A control unit which transmits predetermined control information to and from the display device through the interface unit and controls an operation of a source device according to control information and a user operation command received from a display device while operating in a predetermined interface protocol; And And a memory for storing the operation program of the controller in advance, The control unit; Hardware, IEEE 1394 transaction layer, IEC 61883 FCP (Function Control Protocol) layer and the application layer are sequentially positioned, between the IEC 61883 FCP layer and the application layer, the receiving channel when a user's receiving channel change command is input And an event generation layer for generating change information of the changed information and transmitting the changed information to the display device. An interface unit for receiving audio and video streams transmitted by the source device and interfacing predetermined control information transmitted between the source device and the source device; A stream processing unit processing the audio and video streams received through the interface unit; A control unit which operates in a predetermined interface protocol and controls an operation of a display device while transmitting predetermined control information between the source device and the source device through the interface unit; And And a memory for storing the operation program of the controller in advance, The control unit; When the hardware, the IEEE 1394 transaction layer, the IEC 61883 FCP (Function Control Protocol) layer and the application layer are sequentially positioned, and the channel change information is input from the source device between the IEC 61883 FCP layer and the application layer. And an event processing layer for resetting a video PID and a voice PID and causing the stream processor to process the video and audio streams according to the set video PID and the voice PID. A first step in which, when a receiving channel change command is generated in the source device, the broadcast signal receiving unit changes the receiving channel according to the receiving channel changing command, and the event generation layer of the controller generates the changing information of the receiving channel; A second step of transmitting change information of a reception channel generated in the first step to a display device and waiting for a response signal to be received from the display device; And And a third process of terminating the transmission operation of the reception channel change information when the response signal is received from the display device in the second process. The method of claim 3, wherein the second process; And resending the change information of the reception channel to a display device when the response signal is not received within a preset time. An eleventh step of resetting a video and audio packet identification (PID) by operating a program and system information protocol (PSIP) engine when change information of a reception channel is input from a source device; A twelfth step of causing the stream processor to process the video and audio streams received from the source device according to the video and audio PIDs reset in the eleventh step; A thirteenth step of generating a response signal in response to the change information of the reception channel received in the eleventh step; And And a fourteenth step of transmitting the response signal generated in the thirteenth step to the display device.

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