KR20000033888A - Home network system and method for allotting channel thereof - Google Patents

Abstract

PURPOSE: A home network system and a method for allotting channels thereof are provided to allot channels for separating a controlling signal from a user signal in the home network using IEEE 1394 bus to transfer and to process the signals according to the allotted channel. CONSTITUTION: The channel of a signal for controlling or managing devices is established from signals to be transferred through an IEEE 1394 bus, among the devices connected to a home network. Then, the controlling signal transferred through the IEEE 1394 bus is read from the devices connected to the home network for establishing a user signal channel to transfer the user signal between a source device and a destination device. And, the controlling signal and the user signal are transferred through established channels from the source device. Herein, the channel of the controlling or the managing signals is fixed for one channel among 0-62 channels, which are signal transferring channels of the IEEE 1394.

Description

Home Network System and Its Channel Allocation Method

The present invention relates to a method of using a signal transmission channel in a home network system. More particularly, when transmitting a signal using an IEEE 1394 bus between devices connected to a home network, a channel for transmitting a control signal and a user signal is separated. It relates to a home network system and a method of using the channel.

The home network system is a system for exchanging signals by forming a network between home appliances. Recently, the IEEE 1394 bus has been used in such home networks, and data exchange between home appliances has been carried out. In a home network system built using the IEEE 1394 bus, it is possible to control another home appliance on one home appliance or to know an operation state of another home appliance.

1 is an embodiment of a general home network configuration, where the home network system includes a root 100, a leaf 1 110, a leaf 2 120, a leaf 3 130, and a leaf 4 ( 140 and leaf 5 150 are connected on the IEEE 1394 bus. Here, the home appliance corresponding to the root 100 plays a role of a bus master that manages the signal flow on the IEEE 1394 bus. The route 100 and leaf 1 to leaf 5 (110 to 150) may be used to clarify the source and destination of signals when exchanging signals between devices to facilitate signal processing. Each address or ID (hereinafter, referred to as an ID) is determined at the node, and this is called a node ID.

2 shows a channel of data transmitted on an IEEE 1394 bus in a conventional home network system. Signals passing over the IEEE 1394 bus are transmitted using channels 0-62. Referring to FIG. 1, the data flow on this channel is described as a channel for transmitting a predetermined signal from the root device 100 to each leaf 110 to 150, and the root 100 at each leaf 110 to 150. Therefore, various signal transmission channels are formed between 0 and 62, such as channels from each leaf to other leaves. Each channel may include a control signal necessary for a communication operation or a user signal containing device data necessary for a user.

3A-3B illustrate the use of any channel in FIG. 2. Figure 3a is a signal sent from the device to the device is a data packet including control information indicating the source (source) and destination of the call release for release, the state or manufacturer of the device, the type and the network connection status, etc., Figure 3b Is a data packet including user information which is data information generated from a device such as video or audio information. When a predetermined signal is transmitted from the first leaf device 110 of FIG. 1 to the fifth leaf device 140, any of channels 0 to 62 may be used to transmit control information. Can be used to transfer user data.

In the IEEE 1394 bus channel allocation and data transmission of the conventional home network system, any channel is used for control data and user data transmission. Therefore, the device receiving a signal through the channel is used to distinguish the control data from the user data. Since the operation must be performed frequently, the processing speed decreases after receiving the data, thereby reducing the efficiency of the operation of the entire home network system.

An object of the present invention is to provide a home network system and a channel allocation method for allocating a channel capable of distinguishing and transmitting a control signal and a user signal on a home network using an IEEE 1394 bus and processing the signal accordingly. have.

1 is an embodiment of a general home network configuration.

2 shows a channel of data transmitted on an IEEE 1394 bus in a conventional home network system.

3A-3B illustrate the use of any channel in FIG. 2.

4 is a block diagram of a home network system for explaining the present invention.

5 is a detailed block diagram illustrating channel allocation of the root device of FIG. 4.

6 is a flowchart for describing an operation of a root device of FIG. 5.

7 is a flowchart illustrating a channel allocation method of the home network system of the present invention.

8 illustrates a signal transmission channel of the IEEE 1394 bus according to the present invention.

In order to solve the above problems, a home network system using an IEEE 1394 bus is connected to the home network and serves as a bus master to control or manage data flow on the IEEE 1394 bus, A root device for separately assigning channels for control and user signals transmitted to the system; And a signal connected to the home network to transmit a signal to the IEEE 1394 bus under the control of the root device, and to transmit a user signal including control signals and device operation information necessary for communication to a predetermined device on the home network. A leaf device transmits according to a channel allocated by the root device.

The root device may include: a channel allocator configured to allocate a channel to a user signal transmitted through the IEEE 1394 bus; A first storage unit for storing the assigned channel number or name; a second storage unit for storing the available channel number or name; And a control signal processor configured to set a channel for a control signal transmitted to the IEEE 1394 bus, read the control signal, and perform a predetermined control operation accordingly.

The control signal processor may determine the contents of a control signal transmitted from the predetermined device, and if the control signal is a signal to set up a channel, allocate one of the channels of the second storage unit as a user signal channel, and the control signal is If the information on the network disconnection of the device is included, it is preferable to remove the channel set with the corresponding device from the first storage unit and store the channel in the second storage unit.

A channel allocation method of a home network system using an IEEE 1394 bus, the method comprising: setting a channel of a signal for control or management between devices among signals transmitted from devices connected to the home network through the IEEE 1394 bus; Setting a user signal channel to read a control signal transmitted through the IEEE 1394 bus from devices connected to the home network and to transmit a user signal between a source device and a destination device; And transmitting, by the source device, the control signal and the user signal through separate channels respectively set.

The channel of the control or management signal is preferably fixed to one of channels 0 to 62, which are signal transmission channels of the IEEE 1394 bus.

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

4 is a block diagram of a home network system for explaining the present invention. In the home network system using the IEEE 1394 bus, the root device 400 and the leaf devices 410 to 450 use the IEEE 1394 bus. To form a network. The root device 400 is a device that serves as a bus master that controls or manages data flow on the IEEE 1394 bus, that is, data transmission on the network. The root device 400 separately allocates channels for control and user signals transmitted on the IEEE 1394 bus. In this case, the control signal is used for communication, informing the source or destination of the transmission signal, the state or maker of the device, the type, and the network connection status, among the signals transmitted from one of the 400 to 450 devices to another device. The signal includes necessary control information, and the user signal includes device operation information generated regardless of communication such as data generated from the device such as video or audio information or user command. Leaf devices 400 to 450 transmit signals to the IEEE 1394 bus according to the instructions of the root device, and when the root device 400 transmits a predetermined control signal and a user signal to other devices connected to the home network, The control signal is transmitted to the control signal transmission channel according to the allocated channel, and the user signal is transmitted to a predetermined channel for user signal transmission.

FIG. 5 illustrates a detailed configuration related to channel allocation of the root device 400 of FIG. 4. The configuration of a bus manager managing a bus in the root device 400 involved in channel allocation includes a channel. The allocator 500, the first storage unit 510, the second storage unit 520, and the control signal processor 530 are provided. The channel allocator 500 allocates a channel to a user signal transmitted through the IEEE 1394 bus. For example, when a leaf device that is a predetermined 410 is informed that a predetermined signal is to be transmitted, a channel for transmitting a control signal and a channel for transmitting a user signal are allocated. The first storage unit 510 stores a channel allocated for transmitting a user signal. The second storage unit 520 stores available channel names. The control signal processing unit 530 assigns a unique channel to a control signal among signals for transmitting from 400 to 450 devices to the IEEE 1394 bus, and at the time of network connection or disconnection of a predetermined leaf device 410 to 450. Each user channel is allocated or released.

FIG. 6 is a flowchart for describing an operation of the root device 400 of FIG. 5. The control signal processor 530 selects one channel among 0 to 62 channels that can be set on the IEEE 1394 bus, and transmits only the control signal output from all devices connected to the home network to the channel. The control signal processor 530 grasps the contents of the control signal transmitted from the devices on the home network, and is a control signal for channel setting for the user signal or a channel for network disconnection of the device transmitting the corresponding signal. Determine whether the signal to release (step 600). If the control signal relates to channel setting, the channel allocator 500 allocates one of the available channels included in the second storage unit 520 (step 610). This establishes a new channel between the sending source device and the destination device to which the signal should go, through which user signals from the source device are transmitted. If a new channel is allocated, the channel name or number is written and stored in the first storage unit 510 (step 620), and the channel name in the second storage unit 520 is deleted to remember that the channel is not available. Step 630. If the control signal is a signal for requesting channel release in step 600, the channel set between the source device and the destination device is found, and the channel name or number stored in the first storage unit 350 is deleted (step 640). Memory 520 is stored (step 650) to be used as another user channel.

7 is a flowchart illustrating a method for allocating a control channel of a home network system according to an embodiment of the present invention. In operation 700, a signal channel for controlling or managing devices is set among the signals to be transmitted. This secures any of the 0-62 possible transport channels on the IEEE 1394 bus. A device for transmitting a user signal between a source device and a destination device is set using a channel set as the control signal channel immediately before devices connected to a home network transmit a predetermined user signal (step 710). . The control signal and the user signal are separated through the set channel and transmitted through different channels (step 720).

8 shows a signal transmission channel of the IEEE 1394 bus according to the present invention, and shows that channel 0 800 is used as a channel for control signals and the remaining channels 801 to 862 are used as user channels. Channel 0 800, which is a control signal transmission channel, may use only control signals to be transmitted by devices connected to the home network. Although channel 0 800 is used as a control signal transmission channel, any channel among channels 0 to 62 (800 to 862) may be a control signal transmission channel.

According to the present invention, when a signal is transmitted on a home network using an IEEE 1394 bus, a predetermined channel for transmitting only a control signal is determined and a user signal is transmitted through a channel other than the channel to distinguish whether the control signal or the user signal. The operation and the time accordingly are shortened so that data transmission is quick.

Claims (5)

In a home network system using the IEEE 1394 bus, Root that is connected to the home network and acts as a bus master to control or manage the flow of data on the IEEE 1394 bus, and to separately allocate channels for control and user signals transmitted on the bus. ) device; And When connected to the home network to transmit a signal to the IEEE 1394 bus under the control of the root device, and to transmit a user signal containing the control signal and device operation information necessary for communication to a predetermined device on the home network Home network system comprising a leaf device that transmits according to the channel assigned by the root device. The method of claim 1, wherein the root device, A channel allocator for allocating channels to user signals transmitted through the IEEE 1394 bus; A first storage unit for storing the assigned channel number or name; A second storage unit for storing a usable channel number or name; And And a control signal processor configured to set a channel for a control signal transmitted to the IEEE 1394 bus, and read the control signal and perform a predetermined control operation accordingly. The method of claim 2, wherein the control signal processing unit, If the control signal is received from the predetermined device and the control signal is a signal for setting up a channel, the control signal is allocated to one of the channels of the second storage unit as a user signal channel, and the control signal is used to disconnect the network of the device. Including the information on the home network system, characterized in that for removing the channel set with the device in the first storage unit and storing the channel in the second storage unit. In the channel assignment method of the home network system using the IEEE 1394 bus, Setting a channel of a signal for control or management between devices among signals to be transmitted from the devices connected to the home network through the IEEE 1394 bus; Setting a user signal channel to read a control signal transmitted through the IEEE 1394 bus from devices connected to the home network and to transmit a user signal between a source device and a destination device; And And transmitting, by the source device, the control signal and the user signal through separate channels respectively set. The method of claim 4, wherein the channel of the control or management signal, The channel assignment method of the home network system, characterized in that the fixed to one of the 0 ~ 62 channels of the signal transmission channel of the IEEE 1394 bus.