KR100628144B1 - Method and Apparatus for distinguish the location of each equipment in A/V network - Google Patents

Abstract

The present invention relates to a method and an apparatus for identifying a location of each device in an A / V network. The present invention provides an A / V network having a master device and at least one slave device, comprising: a location code indicating a location of each device in a message packet for communication between the devices; Provides a method for distinguishing the location of each device in the A / V network to distinguish the. Therefore, the present invention has an effect of distinguishing the devices easily by the user by classifying a plurality of function A / V devices through the location code.

A / V network, Xlink, location code, master device, slave device

Description

Method and Apparatus for distinguish the location of each equipment in A / V network

1 is a view showing a control screen for controlling the A / V device through the GUI of the master TV using the Xlink protocol

2 is a diagram illustrating a family of products that can be controlled through the Xlink protocol.

3 illustrates a message format of the Xlink protocol according to the present invention.

4 is a view showing actual ID information of a product distinguished by a logical ID according to the present invention.

5 is a diagram illustrating a method of providing a location code according to the present invention.

6 illustrates an instruction set of the Xlink protocol according to the present invention.

7 is a diagram illustrating an example of location information transmission using a message packet according to the present invention.

8 illustrates an Xlink GUI into which position information is inserted according to the present invention.

9 is a diagram illustrating an internal configuration block of a master TV and a network connection form with each slave device according to the present invention;

-Explanation of symbols for the main parts of the drawings-

10: tuner 20: demodulator

30: demultiplexer 40: audio decoder

50: video decoder 60: VDP

70: PSIP decoder 80: EPG control unit

90: UI / GUI module 100: CPU

110: memory 120: MICOM

The present invention relates to an A / V network, and more particularly, to a method and apparatus for classifying an A / V device according to a location of a plurality of A / V devices.

Recently, the importance of home networking has emerged in the electronic industry due to the arrival of the ubiquitous era.

Accordingly, in order to implement the home network function, all the products in the home and the HA (Home Automatic) products are connected by a living network control protocol (LnCP) using a power line to implement a remote control function or a TV. To control only A / V devices, a protocol called Xlink is also used.

The basic purpose of Xlink, a control protocol between A / V devices, is to easily control other A / V devices together with one TV remote control.

In other words, in the past, as the number of A / V devices increased, the number of remote controllers increased so that users had to alternately operate them, and there was a difficulty in changing external TV inputs to operate the devices. The Xlink protocol proposed to solve such a complicated function that can be easily controlled through the GUI (Graphic User Interface) of the TV, and the user has to manually manipulate the external input by the automatic detection of the external input of the TV. It became.

1 is a diagram illustrating a control screen for controlling an A / V device through a GUI of a master TV using the Xlink protocol.

As shown in FIG. 1, a user can view / view a corresponding A / V device by launching an Xlink GUI using a remote control of a master TV, and selecting an A / V device to be operated.

That is, the A / V devices that can be controlled around the master TV, for example, a set top box (STB), a DVD player, a PVR (Personal Video Recorder), a VCR (Video Cassette Recorder), etc. are connected to a network. The A / V device can be controlled through the Xlink protocol.

At this time, the user can control the play, stop, pause, fast-forward, etc. of the A / V device using the TV remote control, and the effect is as if the remote control of the device. FIG. 2 shows a family of products that can be controlled through the Xlink protocol.

However, the Xlink protocol recognizes that more than one device of the same function may exist, but is limited to all products having the same space.

In other words, there were no considerations when products with the same function exist in multiple locations in one household. For example, consider a case where a DVD player exists on a different floor in a living room and a home or a single house.

In such a case, it is inconvenient to remember the function or model of the product currently in use if it is difficult to distinguish the product having the same function by a user familiar method.

In other words, when a user watches a movie on a DVD and turns it off for a phone call, etc., there is a problem that the user has to remember the model of the product used again to watch the DVD again.

The present invention is to solve the above problems, an object of the present invention is to provide a user convenience by distinguishing the location by encoding the location of each device when a plurality of A / V devices exist in various locations in the home To provide a way to increase.

In order to achieve the above object, the present invention provides an A / V network having a master device and at least one slave device, including a location code indicating a location of each device in a message packet for communication between the devices, The code provides a method for distinguishing each device location in an A / V network for identifying each device.

The location code may be included in a response message packet of the message packet.

The response message packet includes a "Hdr Type" field, a "Dest. Addr" field, a "Src. Addr" field, a "Length" field, a "Command" field, a "Location code" field, at least one "Data block" field, and It is characterized in that it comprises a "Checksum" field, the fields are preferably arranged in the order.

The location code is used together with the "GetDeviceInfo" command of the message packet, and is composed of 8 bits, wherein the upper 3 bits are used as layer classification codes and the lower 5 bits are used as classification codes.

Preferably, the master device and the slave device are wirelessly connected through the Bluetooth and WIPI platforms.

The location code is used together with a physical ID and a logical ID to distinguish each device.

The present invention, each device in the A / V network is configured to include a microcomputer to parse the location code of each device on the A / V network included in the message packet, and recognize the location of each device through the parsed information Provides a device for distinguishing positions.

The apparatus may further include a UI / GUI module configured to display the parsed information on a screen according to a user's selection.

Therefore, according to the present invention, a user can easily distinguish the devices by dividing a plurality of function A / V devices through the location code.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

In addition, the term used in the present invention was selected a general term that is widely used at present, but according to the emergence of a new technology, the term that the applicant deemed most appropriate in the present invention was arbitrarily used, and the meaning of the term in the corresponding description. It will be explained clearly. Therefore, in the understanding of the present invention, it is intended that the present invention should be understood as the meaning of terms rather than simple names of terms.

In this regard, the term " master device " used in the present invention refers to a device that manages / controls a slave device in an A / V network, and mainly allows a TV to perform the role of the master device. do.

In addition, the "slave device" means all A / V devices other than the master device.

The message format of the Xlink protocol according to the network implementation between the master device and the slave device defined as above will be described first.

3 is a diagram illustrating a message format of an Xlink protocol according to the present invention.

As shown in FIG. 3, a message of a Xlink protocol includes a request message packet and a response message packet.

Looking at the format of the request message packet, a "Header Type" field which is information for distinguishing the start of the message and its packet type, a "Destination Address" field which is the address information of the receiver, and address information of the sender are described. "Source Address" field, "Length" field for full length information of the message, "Command" field for the specific command contents to be transmitted, a plurality of "Data block" fields for recording additional information, and for detecting the error The "Checksum" fields are placed in order.

In addition, the format of the response message packet includes a "Header Type" field, a "Dest Addr" field, a "Src. Addr" field, a "Length" field, a "Command" field, and whether the request message is successful (OK, ERR). A "Resp. Code" field in which information is recorded, a "Location code" field in which position information of each slave device is recorded, a plurality of "Data block" fields, and a "Checksum" field are sequentially placed.

The basic communication method using the request message packet and the response message packet configured as described above takes a method in which a slave device transmits a response message to the request message of the master device.

That is, a slave device configured as a low-performance Micom is limited to a specification so that only the request message of the master device is responded with a response message packet.

As shown in FIG. 3, the message packets taking this communication scheme are configured to include a physical ID and a logical ID to distinguish each of the plurality of possible slave devices.

The physical ID is an ID for physically identifying the corresponding slave device and is used as a code for identifying a product group and a product according to the product group. The logical ID indicates a logical ID of a corresponding product and is used to control a product having a complex function in logical ID units.

Thus, a particular product may have one physical ID and may have more than one logical ID.

The actual ID information of the product distinguished by the logical ID is shown in FIG. 4.

As shown in FIG. 4, each logical ID has a unique code value according to the type of a corresponding slave device.

That is, for example, when the logical ID is '0000 0001', the corresponding product may be a TV, and when it is '0000 0010', the corresponding product may be a camcorder.

As such, for each product on the A / V network distinguished by physical ID and logical ID, a location code may be assigned to designate the location of each product in order to increase user convenience of multiple products having the same function. 5, which will be described with reference to FIG. 5 as follows.

5 is a diagram showing a method of providing a location code according to the present invention.

As shown in FIG. 5, the location code has a size of 1 byte, the upper 3 bits are used as a layer classification code, and the lower 5 bits are used as a room classification code. This is reflected in consideration of the structure of each home, that is, apartments and detached houses, divided into basement floor and ground floor, and the location of living room and room is distinguished by each floor.

For example, when the upper 3 bit code indicating the floor division is '001' and the lower 5 bit code indicating the room division is '00001', it is used as a code indicating the basic living room location where the mast TV is located.

In addition, when the upper 3-bit code is '010' and the lower 5-bit code indicating the room division is '00010', this indicates that the first room is on the first floor.

In this way, it is possible to display the location of a room that can exist in the home. By using the above-described logical ID together with the location code, it is possible to know what A / V network devices are located in each room.

On the other hand, the position code shown in Figure 5 is one application example according to an embodiment of the present invention is not limited to the code is obvious.

Using the location code, a method of inputting the location of each A / V device may be input by using a remote controller of each product or a remote controller of a master TV during initial installation of the product.

That is, the product installer can check the installation location of the product and input the location of each A / V device by selecting it using the direction keys on the remote controller or the button on the front of the product. Will be.

Meanwhile, the designated location code is notified to the master device according to the "GetDeviceInfo" command of the Xlink protocol, and the user confirms the location of each slave device through the main menu of the master device according to the notification. This will be described with reference to FIG. 6.

6 is a diagram illustrating an instruction set of the Xlink protocol according to the present invention.

As shown in FIG. 6, the commands used in the Xlink protocol include a plurality of commands according to respective situations for communication between the master device and the slave devices.

According to the present invention, the location code is transmitted using a "GetDeviceInfo" command for obtaining detailed information of each slave device among the commands. That is, the location code is used as one of the detailed information of each slave device.

An example in which one slave device transmits its location information to the master device using the “GetDeviceInfo” command is shown in FIG. 7.

As shown in FIG. 7, '00010' indicating a response packet is recorded in the “Msg Type” field for distinguishing a message packet, and the current version information is recorded in the next “Ver” field. In the following "Physical ID" field, the physical ID of the receiver is recorded. The physical ID of the TV which is the master device is recorded, and the logical ID of the master TV is recorded in the "Logical ID" field.

In the following "Physical ID" field, the physical ID of the sender is recorded. The physical ID of the slave device to which its location information is to be sent is recorded, and the logical ID of the slave device is recorded in the "Logical ID" field. do. The length of the entire packet is recorded in the next "Length" field, and the command is recorded in the "Command" field.

In the command, '0000 1110', which is a code corresponding to “GetDeviceInfo”, is recorded as transmitting detailed information of the slave device. In the following "Resp. Code" field, the success or failure of the slave device for the command of the request message is recorded, and the location information of the slave device according to the present invention is recorded and transmitted in the following "Location code".

In the following "Data block" field, additional information is included as needed. In the "Checksum" field, XOR (exclusive logical sum) of all messages except the value of the "Checksum" field is recorded for error detection.

Therefore, when the location code is assigned to the response message packet and transmitted, each slave device effectively transmits its own location information to the master device.

In this case, if the user does not designate a location code of the product, the location code may be additionally modified in the main menu of the TV in an unspecified state.

Meanwhile, FIG. 8 is a diagram illustrating an Xlink GUI in which location information is inserted according to the present invention.

As shown in FIG. 8, in the form of displaying a controllable menu of a conventional slave device, when a location code is utilized according to the present invention, the location of a product can be displayed on an icon icon representing a function of the product. .

Accordingly, the user may know where the corresponding device is located by using the location information. In particular, such location information may be useful when the same type of devices exist in different locations.

9 is a diagram illustrating an internal configuration block of a master TV to which the technical idea according to the present invention is applied and a network connection form with each slave device.

As shown in FIG. 9, the master TV selects a signal of a specific channel among the signals received through an antenna (or a cable) through the tuner 10 and demodulates the selected signal through the demodulator 20. The demodulated signal is demultiplexed into audio, video, and program and system information protocol (PSIP) data through the demultiplexer 30 and output.

The demultiplexed audio signal is decoded by the audio decoder 40 and output through a speaker (not shown). The demultiplexed video signal is decoded by the video decoder 50 and output to the screen through a video display processor (VDP) 60.

Meanwhile, the PSIP data includes virtual channel and EPG (Electronic Program Guide) information. The PSIP data is decoded by the PSIP decoder 70 and output to the VDP 60 through the EPG controller 80. That is, the VDP 60 synthesizes or selectively outputs the EPG data and the signal decoded by the video decoder 50.

Meanwhile, the UI / GUI (User Interface / GUI) module (Module) 90 exists for the interface between the TV and the user, and serves to provide a GUI screen for the user's convenience.

These building blocks are controlled by the CPU 100 connected by a data bus.

Meanwhile, the MICOM 120 receives a signal transmitted from an external input device such as a remote controller, or exists for communication and power management with each slave device.

In the communication between the master TV and each slave device using the microcomputer 120, wireless communication is performed in order to overcome the location constraints of slave devices that may exist at various locations in the home, such as Bluetooth, Wifi, etc. Wireless communication platform is used.

In the master TV configured and operated as described above, when each slave device sends a message packet including its location information by using a location code, the microcomputer 120 parses the message packet and the location information. Is displayed on the screen through the GUI module 90 according to the user's selection.

Meanwhile, the user controls the corresponding device through the GUI screen of the master device by referring to the displayed position information of each slave device.

On the other hand, such a receiving step may be different depending on the transmission method of the digital TV, the principle to which the technical idea according to the present invention is applied is similar, the scope of the present invention is not limited to the configuration block illustrated by the applicant Not will be self explanatory.

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

The effects of the method and apparatus for distinguishing the location of each device in the A / V network according to the present invention described above are as follows.

First, by distinguishing a plurality of A / V devices through a location code, the user can easily distinguish the devices.                     

Second, there is an effect of eliminating the inconvenience that the user must remember the function of each A / V device, and overcomes the limitation that the device must be installed in the same position.

Claims (11)

In an A / V network having a master device and at least one slave device, A location code indicating a location of each device in a message packet for communication between the devices; And identifying each device by the code. The method of claim 1, Wherein the location code is included in a response message packet of the message packet. The method of claim 2, The response message packet includes a "Hdr Type" field, a "Dest. Addr" field, a "Src. Addr" field, a "Length" field, a "Command" field, a "Location code" field, at least one "Data block" field, and A / V network implementation method comprising a "Checksum" field. The method of claim 3, wherein And the fields are arranged in the order. The method of claim 1, Wherein the location code is used together with the "GetDeviceInfo" command of the message packet. The method of claim 1, The location code is composed of 8 bits, wherein the upper 3 bits are used as layer classification codes and the lower 5 bits are used as classification codes. The method of claim 1, Wherein the master device and the slave device is characterized in that the location of each device in the A / V network, characterized in that the wireless connection via the Bluetooth, WIPI platform. The method of claim 1, Wherein the location code is used together with a physical ID and a logical ID to distinguish each device. Parsing the location code of each device on the A / V network included in the message packet, and including a microcomputer that recognizes the location of each device through the parsed information. Positioning device. The method of claim 9, And the message packet is a response message packet. The method of claim 9, And a UI / GUI module configured to display the parsed information on a screen according to a user's selection.

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