KR20080095724A - The method of managing logical address and device thereof - Google Patents

Abstract

A method of managing a logical address and a device thereof are provided to use an unused logical address directly without regard to its device type, thereby supporting a larger number of devices. A controller of an AV device checks whether a logical address is being used from 0th to 15th in sequence by transmitting a polling message to a 0th logical address because logical addresses till 15th are available in HDMI CEC(High Definition Multimedia Interface Consumer Electronics Control)(S410). An ACK(ACKnowledge character) is received from a DTV connected to a network(S420). Therefore, the controller detects that 0th address is being used by another device(S430) so the controller searches 1st address(S440). If all logical addresses till 14th are preoccupied by other devices on a network, the AV device sets 15th as a logical address without searching more(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. The video system shown in FIG. 1 is constructed by connecting the DTV 10 and the DVD players 20-1 to 20-4 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 set for each type of device is predefined.

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

That is, since the DVD player is a playback device, according to FIG. 2, the DVD players will have logical addresses set in the order of 4, 8, and 11.

Therefore, in the case of Fig. 1, assuming that the respective DVD players are connected in order, DVD player-1 20-1 is number 4, DVD player-2 20-2 is number 8, and DVD player- 3 (20-3) will be set to 11 as logical address.

The problem is that in the case of DVD player-4 20-4, there is no longer a logical address that can be set, so the logical address will be set to an unregistered address of 15, so that DVD player-4 20-4 You will not be able to use it normally.

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

In addition, since the DVD receiver is a video device having both a playback function and an audio function, the logical address also has a logical address '4' and a logical address '5' as the audio function. Physically, it means that one device or two or more logical addresses need to be set. As a result, even if only two or more DVD receivers are connected, only one logical address of the audio function is supported. Therefore, the DVD receiver connected later becomes unable to use the audio function.

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 predefined logical addresses.

More specifically, the device type does not find and set a logical address corresponding to its device type as defined in the HDMI CEC standard, but sets the device type immediately if there is an unused logical address regardless of its device type. It is another object of the present invention 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: checking, by a device, whether a logical address is in use by external devices; And if there is an unused logical address, setting the unused logical address to its own logical address regardless of its device type.

The logical address is preferably one per device.

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

In addition, after the logical address is set, the device may further include transmitting a message including a physical address field and a device type field.

In addition, the device type field is preferably composed of a data structure in which various types of device types can be stored.

In addition, the data structure is preferably a bitmap structure.

In addition, the device type field is preferably composed of a device type subfield storing a device type and an internal address subfield storing a unique ID in order to distinguish between device types of the same type.

The device type field may further include a device name field for storing a device name.

In addition, the checking step may be repeated sequentially until the logical address starts from 0 until a specific logical address or an unused logical address is issued.

In addition, the specific logical address is preferably 15.

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

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 a controller configured to check whether a logical address is in use by external devices, and if there is an unused logical address, set the unused logical address regardless of the device type of the device itself.

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

As described above, according to the present invention, the present invention is to support more devices by using more addresses. Specifically, a device does not find and set a logical address corresponding to its device type as defined by the HDMI CEC standard. Instead, the device can immediately use a logical address that is not in use regardless of its device type, thereby allowing more devices to be used. The effect is to be able to support.

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.

3 is a block diagram of an example of an imaging system to which the present invention is applicable. The video system shown in FIG. 3 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. 3, 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 control unit 130 discovers the AV device 200 connected through the DTV HDMI interface 120 to detect a logical address and a physical address for the AV device 200. Acquire.

Meanwhile, as shown in FIG. 3, the AV device 200 includes a function block 210, an HDMI interface 220, and a controller 230.

The function block 210 performs an intrinsic function of the AV device. For example, if the AV device is a playback device, the function block 210 reads an image 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.

Hereinafter, a process of receiving the logical addresses of the AV devices 200 in the video system shown in FIG. 3 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, the controller 230 of the AV device 200 checks whether a logical address is used sequentially from the 0th (S410).

In detail, the control unit 230 of the AV device 200 transmits a polling message to the 0 th logical address. In case of the case, since the DTV 100 is connected to the network, it will receive an acknowledgment character (ACK) from the DTV 100 (S420).

Therefore, the controller 230 detects that the 0 th address is being used by another device (S430-Y), and searches for the next first address (S440).

The logical address of the HDMI CEC is possible only up to 15, the above process will be performed only up to 15 times (S450).

If all logical addresses up to 14 on the network are preempted by another device, the AV device 200 does not perform a search anymore and the logical address is set to 15 (S470).

Returning to step 420 again, the controller 230 of the AV device 200 transmits a polling message to the first logical address. In this case, since no other device is connected to the network other than the DTV 100, the acknowledgment character (ACK) will not be received (S420).

Therefore, the AV device 200 finds out that the first address is not in use (S430-N).

Thereafter, the AV device 200 sets the first unused logical address as a logical address (S460).

5A is a diagram illustrating the structure of a message according to an embodiment of the present invention. As shown in Fig. 5A, 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. Specifically, 0 is stored when the device is a TV, 1 when the device is a recording device, and 3 when the device is a tuner. .

In the following, the message structure of 5b will be described in detail with reference to the embodiments of 6a and 6b.

For example, if the AV device 200 is a device capable of a tuner, a receiver, and a recorder, the AV device should have three device types.

6A is a view showing a case where Figs. 5A and 5B are stored in a conventional manner. That is, according to the conventional method, the AV device should have a corresponding logical address according to each device type. That is, referring to FIG. 2, the logical addresses are separately set to 1 corresponding to the recording device, 3 corresponding to the tuner, and 5 corresponding to the audio system. In addition, the opcode enters 0X84, which is a code value indicating the Report Physical Address.

In the device type field, one indicating a recording device, three indicating a tuner, and five indicating an audio system should be displayed. This is not determined according to FIG. 2, but according to the definition defined in FIG. 5B.

Accordingly, in order to deliver the device type to the DTV 100, the AV device 200 has to send three messages as shown in FIG. 6A.

On the other hand, 6b is a view showing a case in which Figures 5a and 5b stored in the manner defined in the present invention. That is, in the present invention, the AV device 200 has an unused logical address regardless of each device type. That is, when the DTV 100 has a logical address 0, the AV device 200 has only one logical address regardless of its device type. In the device type field, 1 indicating a recording device, 3 indicating a tuner, and 5 indicating an audio system should be displayed, which is also stored in a bitmap format in the device type field instead of using an existing structure such as 5b. If you do this, you can tell all device types by sending a single message.

Specifically, 1, 3, and 5 are not stored separately as binary numbers, but the 1st, 3rd, and 5th bits can be stored at once using a method of changing 1 to 1 instead of 0.

FIG. 5C is a structure of a message according to another embodiment of the present invention, and FIG. 6C is a diagram illustrating a practical example using the message structure of FIG. 5C.

Although FIG. 5B can store various types of device in one field, when there are multiple devices of the same type, the message structure of 5c should be used.

5C, 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 a device type subfield storing a device type, an internal address subfield storing a unique ID to distinguish between device types of the same type, and a device name field storing a device name. It is composed.

For example, suppose that the AV device 200 has a tuner of DVB, ATSC, and NTSC. In the case of the present invention, the logical address is set regardless of the device type, which will be the same as 1, and the device types are all tuners as well, and the device subtype fields are all equal to 3. In this case, internally assigning IDs to each device type makes it possible to use devices of the same type.

In detail, referring to FIG. 6C, the source addresses are all 1 and the device subtypes are all 3, but the internal addresses are respectively 0, 1, and 2, so that each Tuner can be distinguished from the DTV 100.

In addition, the device name field stores the name of the device as text and can be used directly on the UI in the system, or can be used for distinguishing each device.

So far, a preferred embodiment will be described in detail with respect to a series of procedures for enabling an AV device to secure more logical addresses in a device by setting only one logical address, regardless of the type of its logical device. 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 is described as an example. However, the technical concept of the present invention may be applied to an image system constructed from these and other image devices. Of course. It is a video device that can build a video system.It is a digital versatile disc (DVD) player, personal video recorder (PVR), hard disk drive (HDD) player, BD recorder, VCR (video cassette recorder), home Theater systems, PMPs (Personal Multimedia Players), and digital camcorders.

In the present embodiment, the logical addresses are sequentially searched and set from 0 to 15, for example. However, the logical addresses may not be sequentially.

It is also possible to select only one of the logical addresses corresponding to its own logical device type, and to select the same one by the same address.

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 to any method 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 and 8.

According to the address management method illustrated in FIG. 7, the device first checks whether a logical address is in use by external devices (S710). If there is an unused logical address, the device sets the unused logical address as its own logical address regardless of its device type (S720).

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 checks whether a logical address is in use by external devices, and if there is an unused logical address, sets the unused logical address regardless of the device type of the device 200 itself.

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

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

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

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

5A illustrates a physical address report packet in a conventional manner;

5b and 5c illustrate a physical address report packet applicable to the present invention;

6a, 6b and 6c illustrate practical usage examples of a physical address report packet applicable to the present invention;

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

8 is a block diagram provided to explain a 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 (13)

The device checking whether the logical address is in use by external devices; And If there is an unused logical address, a device setting the unused logical address as its own logical address regardless of its device type. The method of claim 1, The logical address is, A logical address setting method, characterized in that one for each device. 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, After the logical address is set, the device sending a message comprising a physical address field and a device type field. The method of claim 4, wherein And the device type field comprises a data structure in which various types of device types can be stored. The method of claim 5, And the data structure is a bitmap structure. The method of claim 4, wherein The device type field comprises a device type subfield storing a device type and an internal address subfield storing a unique ID in order to distinguish between device types of the same type. The method of claim 4, wherein And a device name field for storing a device name in the device type field. The method of claim 1, And the checking step is sequentially repeated until the logical address starts from 0 until a specific logical address or an unused logical address is issued. The method of claim 9, And the specific logical address is fifteen. The method of claim 1, The determining step, The device sending a polling message to the external devices at a logical address; 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. An interface for connecting with an external device; And And a controller for checking whether a logical address is in use by external devices, and if there is an unused logical address, setting the unused logical address regardless of the device type of the device itself. The method of claim 12, The external devices, Device connected according to the HDMI High Definition Multimedia Interface Consumer Electronics Control (CEC) standard.

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