KR20060095834A - Ieee 1394 frame structure and method for detecting null stream section - Google Patents

Abstract

The present invention relates to a method for detecting a section for transmitting a null stream when transmitting an audio / video stream through IEEE 1394. Particularly, the present invention generates a command frame inquiring whether the stream receiving device is a null stream section and transmits the command frame to the stream transmitting device, and determines whether the stream to be transmitted is a null stream section according to the transmitted command frame and displays the result. Generating a response frame and transmitting the command frame to the stream receiving device. Accordingly, a stream receiving apparatus such as a DTV can quickly, accurately and easily determine whether a stream transmitted through IEEE 1394 is a null stream.

1394, AV / C, null stream

Description

IEEE 1394 frame structure and method for detecting NULL stream section}

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a general diagram illustrating the relationship between IEEE 1394 standard, AV / C digital interface command set general standard, HAVi standard, and IEC61883 standard.

2 is a view illustrating a structure of a command frame of the AV / C

FIG. 3 is a diagram illustrating examples of using the opcode of FIG. 2.

4 illustrates an example of a screen display of a display apparatus when a normal A / V stream is transmitted through IEEE 1394.

5 illustrates an example of a screen display of a display apparatus when a NULL stream is transmitted through IEEE 1394.

6 illustrates an example of an opcode to which 'INQUIRY NULL STREAM' is allocated according to the present invention.

FIG. 7A illustrates an example of inquiring whether a stream reception device inquires whether the stream transmission device is a null stream section through IEEE 1394; FIG.

7B illustrates an example of an AV / C command frame for inquiring whether or not it is a null stream section according to the present invention.

FIG. 8A illustrates an example of transmitting an answer regarding whether a stream is a null stream period to a stream receiving device through IEEE 1394 in the stream transmitting device; FIG.

FIG. 8B is a diagram illustrating an example of a response frame according to the present invention for checking and responding to a null stream with respect to the command frame of FIG. 7B. FIG.

The present invention relates to an IEEE 1394 frame structure and a method for detecting a section for transmitting a null stream when transmitting an audio / video stream through the IEEE 1394.

The Institute of Electrical and Electronic Engineers (IEEE) 1394 is a digital interface standard established in 1994 by the IEEE and is one of transmission standards capable of exchanging a large amount of audio, video, or control data.

In other words, as the A / V devices are converted from analog to digital methods, the home appliance industry that manufactures A / V devices handles a plurality of signals such as video signals, audio signals, and control signals simultaneously as a single interface. IEEE 1394 was enacted at a time when the need for a digital interface that could be implemented in the company's products increased.

Each product adopts AV / C (Audio & Video Control) module to control the external device through IEEE1394 interface, and executes various control commands through this AV / C.

In addition to signal transmission, the IEEE 1394 also serves as a basis for home networking technology. The most basic form is an AV / C system, and more sophisticated systems use a home audio / video interoperability (HAVi) system.

FIG. 1 is a diagram schematically illustrating the relationship between the IEEE 1394 specification, the AV / C Digital Interface Command Set General Specification, the HAVi specification, and the IEC61883 standard.

In FIG. 1, the IEEE 1394 standard is largely composed of a physical layer, a link layer, a transaction layer, and serial bus management (SBM).

The physical layer has functions of transmitting and receiving data bits, bus arbitration, and providing an electrical and mechanical interface. The link layer provides an acknowledgment datagram service to the transaction layer, performs a frame processing function for addressing, data inspection, packet transmission and reception, and applies an isochronous data transmission service. Application directly. Meanwhile, the transaction layer defines a complete request-response protocol for performing a bus transaction of the IEEE 1212 structure.

The IEC61883 standard describes a Function Control Protocol (FCP), a Connection Management Protocol (CMP), and a Common Isochronous Packet (CIP) header, and is required for isochronous transmission when using AV / C, DVD, MPEG, and AMP. .

The Control & Application Layer is composed of AV / C and HAVi. HAVi defines API (Application Programming Interface) and protocol as a distributed object system for digital home appliances and computer equipment. It is very compatible with current AV / C devices.

As such, the IEEE 1394 maintains compatibility with existing communication standards by using various protocols. In other words, all operations that occur by supporting the IEEE1212-1991 CSR (Control and Status Register) structure are standardized, and NCITS.325-1998 SBP2 (Serial Bus Protocol-2) supports I / O DMA (Direct Memory Access). Integrated into the O process, it adopts IEC61883-1997 to control audio / video devices and to transmit these data, including MPEG data. Most devices control devices and send data with AV / C commands.

In addition, the IEEE 1394 supports an asynchronous data transmission mode for command transmission and an isochronous data transmission mode for real-time transmission of A / V and multimedia data. That is, in the data transmission of IEEE 1394, isochronous data that needs to be periodically transmitted and asynchronous data that is allowed to transmit and receive data at an arbitrary time are simultaneously present, and isochronous data is guaranteed in real time.

In the asynchronous data transmission, a bus license is required prior to transmission to obtain a permission. This is called bus arbitration. In asynchronous data transmission, the transmitting node ID is sent in a packet together with the transmission data.

In the isochronous data transmission, the isochronous channel is requested from the transmitting node together with the transmission rate, and when the channel ID is received from the bus manager, the isochronous data is transmitted in a packet together with the transmission data.

FIG. 2 illustrates a command frame structure of the AV / C of FIG. 1, and is generated and transmitted by a device instructing a predetermined operation among devices connected through IEEE 1394. The device receiving the command frame performs a command indicated by the command frame, generates a response frame displaying the result according to the response frame structure of the AV / C, and transmits the command frame to the transmitting device.

The AV / C command frame of FIG. 2 consists of a plurality of lines, each of which consists of 32 bits. In addition, the command frame is a 4-bit "0000" indicating a type of command, i.e., an AV / C command, a command type (ctype) field indicating a command for a predetermined operation, and a subunit_type (from the first line). It consists of a subunit_type field, a subunit ID field, an opcode field, and a plurality of operand fields 0 to n.

The subunit type field indicates a device that receives the command frame among a plurality of devices connected through IEEE 1394 and performs the command. For example, if the value of the subunit type field is 00111, this means that the device to perform the command is a video camera.

The subunit ID distinguishes each functional module in the device that will perform the command. In other words, to identify a plurality of subunits of the same type, the subunit ID is used to address as an identification number.

The opcode is allocated 8 bits and represents a command to be performed.

The plurality of operands define the characteristics of the opcode, filling all the bits remaining after operand [n] with '0' to form the last line in 32 bits.

Meanwhile, the AV / C response frame paired with the AV / C command frame has the same structure as that of the AV / C command frame of FIG. 2, but indicates a response frame instead of the 4-bit 'ctype' indicating the command frame. The 'response' of the bit is inserted after the 4-bit instruction type '0000'.

FIG. 3 shows examples of currently determined and used values of opcodes that distinguish types of control operations among the structures of the AV / C command frame shown in FIG. 2.

For example, an opcode of 08 ₁₆ means an open descriptor command, and B2 ₁₆ means a power command.

FIG. 4 shows that when a digital VTR (DVHS) and a digital TV (DTV) are connected through IEEE 1394 and the DVHS device transmits a normal A / V data stream from the DVHS device to the DTV through IEEE 1394, FIG. An example of displaying A / V data normally on a screen is shown. The DVHS is a VTR dedicated to high definition (HD) broadcasting.

However, in the case where a normal A / V data stream does not exist due to various reasons, the DVHS device transmits only a meaningless short data stream (hereinafter, null stream or null stream), and in this case, the DTV The screen cannot be displayed.

In this case, most DTVs recognize no signal and do not display a screen.

5 shows an example of a screen display failure due to the null stream transmission, and a black screen is displayed.

However, the criterion for determining whether the null stream exists depends on the unique characteristics of each stream receiving apparatus such as a DTV, and thus varies widely. Currently, the stream receiving apparatus must manually monitor whether the stream is appropriate.

Accordingly, the result of response to the null stream varies for each stream receiving device such as a DTV, so that the response may be delayed in the stream receiving device even when the null stream section ends and the normal A / V stream section is switched.

In addition, when null streams are mixed and transmitted between normal A / V streams, all of them are judged to be null streams and thus even normal A / V streams cannot be reproduced.

Despite such problems, there is no method for actively checking whether a stream receiving device such as a DTV is a null stream section to a device for transmitting a stream such as DVHS.

The present invention has been made to solve the above problems, and an object of the present invention is to ask a device for transmitting a stream in a device receiving a stream through IEEE 1394 whether a null stream is a period, and in response thereto a null stream. The present invention provides a method for detecting a null stream section through IEEE 1394 for actively checking whether a section is recognized.

Another object of the present invention is to generate a command frame that asks whether a null stream and a response frame indicating a null stream discrimination result, so that the device receiving the stream through IEEE 1394 can actively check whether or not it is a null stream section. An IEEE 1394 frame structure and a null stream duration detection method are provided.

In order to achieve the above object, the present invention provides an IEEE 1394 frame structure, the command frame is configured to assign an opcode value for the null stream interval, and including the opcode value; And a response frame configured to assign an opcode value for answering the null stream check result and to include an operand displaying the opcode value and the check result.

The opcode value for asking whether the null stream section in the command frame and the opcode value for answering the null stream check result in the response frame are allocated to the same value.

According to an embodiment of the present invention, a method for detecting a null stream section through IEEE 1394 includes: generating a command frame inquiring whether the stream receiver device is a null stream section and transmitting the generated command frame to the stream transmission device; And determining whether the stream to be transmitted is a null stream section according to the transmitted command frame, generating a response frame indicating the result, and transmitting the command frame to the transmitted stream receiving device. do.

The command frame transmission step is characterized by generating a command frame using an opcode that asks whether or not a null stream interval.

In the response frame transmitting step, when the opcode in the transmitted command frame indicates a value for asking whether or not the null stream section, the step of confirming whether the transmitted stream is a null stream, and the opcode having the same value as the opcode of the command frame And generating a response frame by displaying the confirmation result on the operand, and transmitting the generated response frame.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described. At this time, the configuration and operation of the present invention shown in the drawings and described by it will be described as at least one embodiment, by which the technical spirit of the present invention and its core configuration and operation is not limited.

The present invention is characterized by newly defining a command frame inquiring whether a null stream is between a plurality of digital devices connected through IEEE 1394 and a response frame displaying a null stream discrimination result.

To this end, as shown in FIG. 6, a reserved opcode among the opcodes of the command frame and the response frame, for example, BB ₁₆ is newly allocated and defined as 'INQUIRY NULL STREAM'.

That is, the device receiving the command frame through the IEEE 1394 bus recognizes as a control command to determine whether the command frame is a null stream interval if the opcode value of the command frame is set to 'BB ₁₆ '.

Therefore, it is determined whether the current null stream interval. A response frame is generated to inform the device that has transmitted the command frame. The opcode is also 'BB ₁₆ ', and the determination result is displayed on one of the operands.

FIG. 7 illustrates an example of a command frame that asks whether a null stream is in accordance with an embodiment of the present invention, and FIG. 8 illustrates an example of a response frame indicating a result of performing a command indicated by the command frame.

FIG. 7A illustrates an example in which a stream transmission device (eg, DVHS) and a stream reception device (eg, DTV) are connected through IEEE 1394, and a command frame is transmitted from the stream reception device to the stream transmission device via IEEE 1394. .

Here, the stream receiving apparatus is DTV and the stream transmitting apparatus is DVHS. For example, the stream receiving apparatus may be a stream transmitting apparatus or the stream transmitting apparatus may be a stream receiving apparatus, depending on the type of the apparatus.

7B shows an example of a command frame that asks whether a null stream section is present in the structure shown in FIG. 7A. In other words, DTV transmits a command frame using DVIN with 0xBB, which is an 'INQUIRY NULL STREAM' as an opcode.

In the DVHS receiving the command frame, if the opcode of the command frame is 0xBB, it is determined whether the stream transmitted to the DTV is a NULL stream, and a response frame indicating the result is generated as shown in FIG. 8B and transmitted to the DTV (FIG. 8A). ).

If the opcode of the response frame is 0xBB, the DTV recognizes that the response is a response to the command frame requesting whether the stream is null or not, and determines whether the null is the next operand value. In FIG. 8B, an example of a null response is shown.

The operand indicating whether or not the null may use an operand following an opcode as shown in FIG. 8B, or may use any one of a plurality of operands in a response frame, which is optional by an IEEE 1394 protocol designer. Will not be limited to the examples described above.

In addition, although the opcode of the command frame asking whether the null stream is present and the opcode of the response frame indicating the answer have the same value, the embodiment may have a different value.

As described above, the present invention solves the problem that it is difficult to determine whether the stream received through the IEEE 1394 is a null stream by sending and receiving an AV / C command.

This will allow a device using IEEE 1394 in the future to quickly respond to whether or not a null stream in the situation of stream exchange through various IEEE 1394, thereby providing a considerable convenience to the user.

On the other hand, the terms used in the present invention (terminology) are terms defined in consideration of the functions in the present invention may vary according to the intention or practice of those skilled in the art, the definitions are the overall contents of the present invention It should be based on.

The present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art as can be seen from the appended claims, and such modifications are within the scope of the present invention.

According to the IEEE 1394 frame structure and the null stream section detection method through the IEEE 1394 according to the present invention described above, by using the AV / C command frame and the response frame to determine whether or not the null stream section, the stream such as DTV The receiving device can quickly, accurately and easily determine whether the stream via IEEE 1394 is a null stream.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (7)

An instruction frame configured to allocate an opcode value inquiring whether a null stream section is present and to include the opcode value; And And a response frame including an opcode value for answering a null stream check result and an operand indicating the opcode value and the check result. The method of claim 1, And an opcode value for asking whether or not a null stream section in the command frame and an opcode value for answering a null stream check result in a response frame are assigned the same value. The method of claim 1, And an opcode value for asking whether or not a null stream section in the command frame and an opcode value for answering a null stream check result in a response frame are assigned different values. A method for detecting a null stream interval in a system in which at least one stream transmitting device and at least one stream receiving device are connected through IEEE 1394, Generating a command frame inquiring whether the stream reception device is the null stream section and transmitting the generated command frame to the stream transmission device; And And determining whether a stream to be transmitted is a null stream section according to the transmitted command frame, and generating a response frame indicating the result, and transmitting the command frame to the transmitted stream receiving device. Stream section detection method. The method of claim 4, wherein the command frame transmission step is A method for detecting a null stream section, comprising generating an instruction frame using an opcode inquiring whether the channel is a null stream section. 5. The method of claim 4, wherein transmitting a response frame When the opcode in the transmitted command frame indicates a value for asking whether or not the stream is a null stream, checking whether the stream to be transmitted is a null stream; And using an opcode having the same value as the opcode of the command frame, displaying a confirmation result on the operand, generating a response frame, and transmitting the generated response frame. A method for detecting a null stream interval in a system in which at least one stream transmitting device and at least one stream receiving device are connected through IEEE 1394, Generating a command frame using an opcode inquiring whether the channel is a null stream section and transmitting the generated command frame to a stream transmission device; And If the opcode value of the transmitted command frame is a null stream section, it is determined whether the transmitted stream is a null stream section, and then an opcode having the same value as the opcode of the command frame is used. And generating a response frame displaying the result of the determination on the transmission frame and transmitting the command frame to the stream receiving device which has transmitted the command frame.

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