KR20080095723A - The method of managing logical address and device thereof - Google Patents

Abstract

A method for managing a logical address and a device thereof are provided to use 12th and 13th areas as logical address which are not currently used as reserved area even though an AV device does not have a logical address corresponding to its own device type, thereby supporting a larger number of devices without regard to a device type. A controller of an AV device checks whether logical addresses corresponding to its device type are already used on a network(S410). The AV device recognizes there is an unused address among the logical addresses(S420). And then, 4 which is an unused address in the previous check is set in the AV device(S430). The AV device recognizes all the logical addresses corresponding to its device type are used(S420). And then, a controller of the AV device checks whether a global network is already used in a network(S440). 12th which is an unused global address is set in the AV device as its logical address(S460). If global address 12th and 13th are all used(S450), 15th which is an unregistered address is set in the AV device without any other solutions(S470).

Description

Logical address management method and device applying the same

The present invention relates to an address management method and a device using the same, and more particularly, to an address management method for supporting more logical addresses of the connected devices and a device using the same.

1 is a diagram illustrating a video system connected according to the HDMI High Definition Multimedia Interface Consumer Electronics Control (CEC) standard. In the video system shown in FIG. 1, the DTV 10 and the DVD players 20-1 to 20-4 are connected to each other according to the HDMI CEC standard.

In addition to the video signal, a control signal is also transmitted and received between the DTV 10 and the DVD players 20-1 to 20-4. For this purpose, each of the DTV 10 and the DVD players 20-1 to 20-4 is unique. It must hold a logical address.

However, only a limited number of logical addresses are provided in the HDMI CEC specification. In addition, a logical address that can be assigned to each logical address is predefined.

The table of logical addresses is shown in FIG. 3 to be described later.

Since the DVD player is a playback device, according to FIG. 3, the DVD players will be assigned logical addresses in the order of 4, 8 and 11.

That is, assuming that each DVD player is connected in order in FIG. 1, DVD player-1 20-1 is number 4, DVD player-2 20-2 is number 8, and DVD player-3 ( 20-3) will be assigned logical address 11.

The problem is that in the case of DVD player-4 20-4, there is no longer an assignable logical address, and eventually the logical address will be assigned to an unregistered address of 15, so that DVD player-4 20-4 Will not be available.

As a result, the logical address can support only three recording devices, four tuners, three playback devices, and one audio system, and there is a problem that an excessive number of devices of each device type are not supported.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to support more devices by using more addresses in addition to a predefined logical address.

More specifically, even if a device does not have a logical address corresponding to its device type, the device is not assigned to an unregistered address immediately, but by using areas 12 and 13, which are not currently used as reserved areas, as a logical address. An object of the present invention is to provide an address management method and a device using the same.

In accordance with an aspect of the present invention, an address management method includes: determining whether logical addresses corresponding to a device type of a device are in use by external devices; If any one of the logical addresses is determined to be unused, the device setting its logical address to the unused logical address; And if the logical addresses are all determined to be in use, setting, by the device, its logical address to a predetermined specific address.

The connected external devices are preferably connected devices according to the HDMI High Definition Multimedia Interface Consumer Electronics Control (CEC) standard.

In addition, the logical address preferably conforms to a predefined logical address convention according to the HDMI CEC standard.

In addition, the predetermined specific address is preferably a reserved address among logical addresses in the HDMI CEC standard.

The determining may include: sending, by the device, a polling message to the external devices at a logical address corresponding to the device type; And when an acknowledgment character (ACK) is received from any one of the external devices in response to the polling messages, determine that the corresponding logical addresses are used.

And after the logical address is obtained, the device transmits a data packet consisting of a physical address and a device type; And extracting and interpreting a device type from the data packet.

The method may further include transmitting a logical address by the device, and extracting and interpreting the logical address may be performed only when the logical address is not a predetermined specific address.

On the other hand, the device according to the present invention for achieving the above object, an interface for connecting to an external device; And if the device determines whether logical addresses corresponding to its device type are all in use by connected external devices, and if any one of the logical addresses is determined to be unused, the device determines its logical address as the unused logical address. And a controller configured to set the logical address of the device to a predetermined specific address when all of the logical addresses are determined to be in use.

In addition, the predetermined specific address is preferably a reserved address among logical addresses in the HDMI CEC standard.

On the other hand, a display device according to the present invention for achieving the above object, the interface for receiving a data packet containing a device type from an external device; And a controller configured to extract and interpret the device type only when the logical address of the external device is not a predetermined specific address.

As described above, according to the present invention, more addresses can be used in addition to the predefined logical addresses. Specifically, even if the AV device does not have a logical address corresponding to its device type, the device is not set to an unregistered address immediately, but by using areas 12 and 13, which are not currently used as reserved areas, as logical addresses. Regardless of the type, additional logical addresses can be used, which can support more devices.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

2 is a block diagram of an example of an imaging system to which the present invention is applicable. The video system shown in FIG. 2 is constructed by connecting the DTV 100 and the AV device 200 according to the HDMI High Definition Multimedia Interface Consumer Electronics Control (CEC) standard.

As shown in FIG. 2, the DTV 100 includes a DTV function block 110, a DTV HDMI interface 120, and a DTV controller 130.

The DTV function block 110 performs a DTV original function. In detail, the DTV function block 110 provides a broadcast screen to a user by performing signal processing such as decoding and scaling on a broadcast signal received from a broadcasting station by wire or wirelessly and displaying the same on a display. In addition, the DTV function block 110 may display an image corresponding to an image signal transmitted from the AV device 200 through the DTV HDMI interface 120 to be described later on the display.

The DTV HDMI interface 120 is connected to the AV device 200 according to the HDMI CEC standard to enable transmission and reception of video signals and messages between the DTV 100 and the AV device 200.

The DTV controller 130 controls the operation of the DTV function block 110 according to a user command. In addition, the DTV controller 130 may control the operation of the AV device 200 by transmitting a control command to the AV device 200 through the DTV HDMI interface 120.

In addition, the DTV controller 130 discovers the AV device 200 connected through the DTV HDMI interface 120 to detect a logical address and a physical address of the AV device 200. Acquire.

Meanwhile, as shown in FIG. 2, the AV device 200 includes a function block 210, an HDMI interface 220, and a controller 230.

The function block 210 performs an inherent function of the AV device 200. For example, when the AV device is a playback device, the function block 210 reads a video signal recorded on the mounted recording medium and provides the image signal to the DTV 100 through the HDMI interface 220 to be described later.

The HDMI interface 220 is connected to the DTV 100 according to the HDMI CEC standard to enable transmission and reception of video signals and messages between the DTV 100 and the AV device 200.

The controller 230 controls the operation of the function block 210 according to the control command of the DTV controller 130 transmitted through the HDMI interface 220. In addition, when the AV device 200 is connected to the DTV 100, the controller 230 obtains its own logical address using the HDMI interface 220.

3 is a diagram related to a logical address in the CEC standard. That is, each source is assigned a unique logical address that applies to its type.

For example, the DTV may obtain a logical address of '0', the DVD receiver may obtain a logical address of '4' and '5', and the DVD player may be assigned a logical address of '8'. Other devices are also assigned unique logical addresses.

In particular, since the DVD receiver is a device having both a playback function and an audio function, the logical address also has a logical address '4' for the playback function and a '5' for the audio function. In addition, the DVD receiver may perform a playback function and an audio function simultaneously or separately.

Hereinafter, a process of assigning logical addresses of the AV devices 200 in the video system shown in FIG. 2 will be described in detail with reference to FIG. 4.

4 is a flowchart provided to explain how the AV device 200 obtains its logical address in the network according to an embodiment of the present invention.

First, suppose that the AV device 200 is a DVD player and is connected for the first time in the present network.

First, the controller 230 of the AV device 200 checks whether a logical address corresponding to its device type is already used in the network (S410).

In detail, in step S410, the AV device 200 is a DVD player, and searches for a logical address corresponding to the playback device. Referring to FIG. 3, the logical address is four. Thereafter, a polling message is sent to logical address 4. For example, suppose the AV device 200 is first connected to the network, and no AV device is connected to the logical address 4. Therefore, the AV device 200 may not receive an acknowledgment character (ACK) in response to polling messages.

Therefore, the AV device 200 knows that there is an unused address among logical addresses corresponding to its device type (S420-N).

Thereafter, the AV device 200 is set to 4, which is the unused address checked earlier, as its logical address (S430).

On the other hand, suppose that the AV device 200 is a DVD player and is connected to the fourth network in the present network.

In this case, previously connected DVD players would have been assigned logical addresses 4, 8 and 11, respectively, according to the flow chart described above.

First, the controller 230 of the AV device 200 checks whether its logical address is already used in the network (S410).

In detail, in step S410, the AV device 200 is a DVD player, and searches for a logical address corresponding to the playback device. Referring to FIG. 3, the logical address is four. The poll message is then sent to logical address 4. In this case, however, there is already another DVD player at logical address 4, so the AV device 200 will receive an ACK in response to polling messages.

The AV device 200 then performs a polling message transmission for the next logical address # 8, but will also receive an ACK. The same is true for the next logical address.

As a result, the AV device 200 finds out that all logical addresses corresponding to its device type are in use (S420-Y).

Thereafter, the controller 230 of the AV device 200 checks whether a global address, which will be described later, is already used on the network (S440).

In the present invention, a logical address area to be used regardless of the device type is referred to as a global address hereinafter. In the present invention, the global addresses are specifically 12 and 13 reserved addresses.

In more detail, in step S440, a polling message is transmitted to the global address 12, and the logical address 12 is currently unused, and thus an ACK may not be received.

Therefore, the AV device 200 knows that there is an unused address among the global addresses (S450-N).

Thereafter, the AV device 200 receives the unused global address 12 as its logical address address (S460).

If, in step S450, both global addresses 12 and 13 are already in use (S450-Y), the AV device 200 will inevitably receive an unregistered address 15 as a logical address (S470). .

5A is a diagram illustrating the structure of a message according to an embodiment of the present invention.

As shown in FIG. 5, a start area indicating the start of the message, a header block area indicating a logical address of a source and a destination, and a data block area including an opcode and data to be transmitted. In particular, a Report Physical Address message is transmitted through the data block area.

5b shows the structure of a physical address report message.

5B, the physical address report message may be divided into a substantial physical address area and a device type area. In particular, the device type area includes data indicating the device type of the AV device 200. Specifically, 0 is the device type of the AV device 200, and 1 is the recording device. , Tuner is stored in this way as 3.

Hereinafter, referring to FIG. 6, the DTV 100 receives a message of FIGS. 5A and 5B from the AV device 200, and is a flowchart provided to explain a method of extracting and interpreting a device type of the AV device 200.

First, the DTV 100 receives a message of the form of FIG. 5A from the AV device 200 (S610).

Thereafter, the DTV controller 130 determines whether the source address included in the header of the message, that is, the logical address of the source, is a global address (S620).

If not the global address (S620-N), the device type of the AV device 200 is determined only by the logical address of the source (S630). That is, if the source address is 1,2,9, the AV device is a recording device, if 3,6,7,10 is a tuner, 4,8,11 is a playback device, and 5 is an audio system.

If it is the global address (S620-Y), that is, if the logical address of the source is 12 or 13, the device type of the AV device 200 cannot be determined only by the logical address of the source. The device type is determined separately, in operation S640. That is, if the value of the device type field is 1, the device type of the AV device 200 is a recording device, 3 is a tuner, 4 is a playback device, and 5 is an audio system.

Up to now, a detailed description will be given of a series of processes for ensuring more logical addresses using an unused area even if all logical addresses corresponding to a device type are in use when an external device is connected. It was.

As an image system to which the present invention is applicable, an image system constructed by connecting a DTV and a DVD player, etc. has been described as an example. However, the technical idea of the present invention may be applied to an image system constructed with these and other devices. Of course. It is a device that can build a video system.In addition to a DTV and DVD player, a digital versatile disc (DVD) player, a personal video recorder (PVR), a hard disk drive (HDD) player, a BD recorder, a video cassette recorder (VCR), and a home theater A system, a PMP (Personal Multimedia Player), a digital camcorder, and the like.

In addition, in the present embodiment, the reserved addresses are 12 and 13 reserved areas, but the present invention is not limited thereto. That is, if the logical space is not used, it may not necessarily be the 12th and 13th areas.

In addition, in the present embodiment, it is assumed that the devices constructing the video system are connected according to the HDMI CEC standard, but this is also merely an example for convenience of description. Therefore, the present invention may be applied in any manner as long as it can transmit and receive video signals and messages between devices in addition to the HDMI CEC standard.

Hereinafter, another embodiment of the present invention will be described in detail with reference to FIGS. 7, 8, and 9.

According to the address management method illustrated in FIG. 7, first, the AV device 200 determines whether logical addresses corresponding to its device type are all used by external devices (S710). If one of the logical addresses is determined to be unused (S710-N), the AV device 200 sets its logical address to an unused logical address (S720), and if it is determined that all of the logical addresses are in use ( S710-Y), the AV device 200 sets its logical address to a predetermined specific address (S730).

As shown in FIG. 8, a device according to another embodiment of the present invention includes an interface 810 and a controller 820. The interface 810 is connected to communicate with an external device. The controller 820 determines whether the logical addresses corresponding to the device type of the AV device 200 are all in use by external devices connected through the interface 810, and determines which one of the logical addresses is not in use. If the AV device 200 sets its logical address to an unused logical address, and if it is determined that all of the logical addresses are in use, the AV device 200 sets its logical address to a predetermined specific address.

Meanwhile, as shown in FIG. 9, the display device according to another embodiment of the present invention includes an interface 910 and a controller 920. The interface 910 receives a data packet including a device type from the external AV device 200. The controller 920 extracts and interprets the device type only when the logical address of the external AV device 200 connected through the interface 910 is not a predetermined specific address.

1 is a view showing a video system connected according to the HDMI CEC standard,

2 is a block diagram of an example of an imaging system to which the present invention is applicable;

3 is a diagram related to a logical address in a CEC standard,

4 is a flowchart provided to explain an address management method according to an embodiment of the present invention;

5A and 5B illustrate a physical address report packet applicable to the present invention;

6 is a flowchart provided to explain a device type extraction method according to an embodiment of the present invention;

7 is a flowchart provided to explain an address management method according to an embodiment of the present invention;

8 is a block diagram provided to explain a device according to an embodiment of the present invention; And

9 is a block diagram provided to explain a display device according to an exemplary embodiment.

Explanation of symbols on the main parts of the drawings

100: DTV 110: DTV function block

120: DTV HDMI interface 130: DTV control unit

200: AV device 210: function block

220: HDMI interface 230: control unit

Claims (12)

Determining whether logical addresses corresponding to a device type of the device are in use by external devices; If any one of the logical addresses is determined to be unused, the device setting its logical address to the unused logical address; And And if the logical addresses are determined to be in use, setting the logical address of the device to a predetermined specific address. The method of claim 1, The external devices, Address management method characterized in that the device connected according to the HDMI High Definition Multimedia Interface Consumer Electronics Control (CEC) standard. The method of claim 1, The logical address is, An address management method according to the HDMI CEC standard, which follows a predefined logical address protocol. The method of claim 1, The predetermined specific address is An address management method according to claim 1, wherein the address is a reserved address among logical addresses in the HDMI CEC standard. The method of claim 1, The determining step, Sending, by the device, a polling message to the external devices at a logical address corresponding to its device type; And And determining that logical addresses are used when an acknowledgment character (ACK) is received from one of the external devices in response to the polling messages. The method of claim 1, Sending, by the device, a data packet consisting of a physical address and a device type after obtaining the logical address; And And extracting and interpreting a device type from the data packet. The method of claim 6, Sending, by the device, a logical address; Extracting and interpreting the step, And performing the logical address only when the logical address is not a predetermined specific address. An interface for connecting with an external device; And The device determines whether logical addresses corresponding to its device type are all in use by connected external devices, and if any one of the logical addresses is determined to be unused, the device replaces its logical address with the unused logical address. And setting, by the controller, the controller to set its logical address to a predetermined specific address if it is determined that all of the logical addresses are in use. The method of claim 8, The predetermined specific address is A device which is a reserved address among logical addresses in the HDMI CEC standard. An interface for receiving a data packet including a device type from an external device; And And a controller for extracting and interpreting a device type if the logical address of the external device is a predetermined specific address. The method of claim 10, The logical address is, Display device according to the logical address protocol predefined in accordance with the HDMI CEC standard. The method of claim 10, The predetermined specific address is And a reserved address among logical addresses in the HDMI CEC standard.

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