KR100702750B1 - Method and apparatus for preventing action errors caused from co-existence of low-power supporting devices and non-supporting devices - Google Patents

Abstract

The present invention relates to a method and an apparatus for preventing an action error between devices that occur when a device supporting a low power function and a device not supporting on a network are mixed, and in the present invention, a device enters a sleep state. Representing a response to an arbitrary device, if an action received from outside is required to switch to the live state of the sleep state device in the response surrogate state, a message indicating that the sleep state device enters the sleep state is transmitted through the network. By notifying, the device subsequently released from the sleep state is normally re-registered with the control point.

Home Network, Low Power, Proxy, Mixed, Control Point, LP, CP, Proxy, UPnP

Description

Method and apparatus for preventing action errors caused from co-existence of low-power supporting devices and non-supporting devices}

1 is a signal flow diagram illustrating an example of an action error caused by a mixture of a low power support device and a non-support device;

2 is a signal flow diagram for preventing an action error, according to an embodiment of the present invention;

3 is a signal flow diagram for preventing an action error according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10,20: LP device 11,21: LP proxy

12,22: LP control point 13,23: control point

The present invention relates to a method and an apparatus for preventing an action error between devices that occur when a device supporting a low power function and a device not supporting on a network are mixed.

Recently, as computing power is applied to small and various devices, inexpensive and universal networking media technologies are emerging or commercialized.

Since Plug and Play (PnP) is now supported on PC operating systems, it is much easier to install and configure PC peripherals, but UPnP builds on these convenient features based on Internet standard technologies such as TCP / IP, HTTP, and XML. It is a technology that extends to a network so that any device can be installed in a network and used through networking while network devices such as various home appliances, a network printer, and an Internet gate are networked.

Devices connected to home networks that support the UPnP standard (hereinafter referred to as 'UPnP networks') should always be able to communicate their status to a control point (CP), a control application that performs the device's control functions. It must be in an alive state that consumes operating power. However, when all the devices are always in the alive state, the power consumption is high, so it is disadvantageous to build a home network.

In order to solve this power consumption problem, a low power function has been proposed. One of the proposed low power functions is the introduction of an LP proxy, and the LP proxy responds to the control point on behalf of the device. It is to allow the sleep state to be reduced or minimized. This also requires a control point (hereinafter referred to as an 'LP control point') capable of interpreting actions and variables for low power functionality.

Therefore, until all devices accessing the UPnP network support the low power function, devices that support the low power function and devices that do not support the device will be mixed on the network for the time being. The same is true for the control point. In such a state, information exchange between devices for the low power function may cause errors in necessary legitimate actions required by the user. 1 is an example of this.

Referring roughly to the signal flow diagram illustrated in FIG. 1, after the LP proxy 11 sends an action for initiating a response surrogate to a device 10 supporting a low power function (hereinafter referred to as an 'LP device') ( S10) Upon receiving a response specifying a sleep mode, for example, a deep sleep on-line (S11), a status report or response is performed on behalf of the LP device 10 for a subsequent search action (S13) (S10). S14).

However, the LP device 10 notifies the byebye message (NTS: ssdp: byebye) to notify that the user has entered a sleep state after responding to the action for initiating the response (S11) (multicast). (S12), this message causes the control point 13 (also referred to as a legacy control point) that does not support the low power function to indicate that the LP device 10 has been removed from the network. Recognize and delete the device from its db (OP10). This is because the control point 13 cannot interpret header information (powerstate, etc.) for low power in the message.

Therefore, as described above, when the LP proxy 11 responds on behalf of the LP device 10 (S14), the unique service name (USN) in the proxy response message is the same as that of the LP device 10. Since the IP address of the source of the message is different from the existing one, the control point 13 determines that the new device is connected to the network and registers a new device / service in its db (OP11). At this time, the service provided by the LP device 10 is registered as the IP of the LP proxy 11.

Therefore, when the control point 13 requests an action of browsing the LP device 10 in the above situation, the action is not transmitted to the LP device 10, but the LP is not transmitted to the LP device 10. By passing to the proxy 11 (S15), correct operation is not made. All subsequent action requests are also forwarded to the LP proxy 11. Such a situation does not change even when the network is notified of the transition from the sleep state to the alive state by the sleep state release action S14-1 of the LP control point 12 before the browsing action (S14-2). This is because the notification message is ignored (OP12) because it has the USN of the device / service which is already considered to be alive by the control point 13.

Accordingly, the present invention was created to solve the above problems, and in a state in which a low power supporting device and a non-supporting device are mixed on a network, a control and / or inquiry action even after a proxy response message for supporting low power is transmitted and received. An object of the present invention is to provide a method and apparatus for precisely specifying a target device / service of a to allow an action request to be made.

In order to achieve the above object, the present invention provides a response to an arbitrary device that has entered a sleep state while the action received from the outside is required to switch to the live state of a sleep state device in a response surrogate state. The sleep state device is characterized in that it is notified via the network of a message indicating entering the sleep state.

The present invention is further characterized by notifying a message indicating the entry into the sleep state through a network, and transmitting a message for requesting the release of the sleep state to the sleep state device in the response proxy state.

In one embodiment according to the present invention, when a browsing action for the sleep state device is requested, a message indicating a sleep state entry for the sleep state device is notified through the network.

In another embodiment according to the present invention, when a sleep state release request action for the sleep state device is received, a message indicating a sleep state entry to the sleep state device is notified through the network.

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

2 is a signal flow diagram according to an embodiment of the present invention. The signal flow diagram of FIG. 2 is explained in full detail.

In the signal flow diagram of FIG. 2, the LP proxy 21 causes the LP device 20 to enter a sleep state and responds to a search message on its behalf (S10 to S13), and the control point 23 is The operation of deleting the corresponding LP device 20 from its db based on the byebye message (OP10) and re-registering the db according to the proxy response of the LP proxy 21 (OP11) is shown in the conventional signal flow diagram of FIG. 1. Same as described with reference.

After this process, if the control point 23 requests the LP device 20 for an arbitrary action, for example, a browsing action, at the request of the user, the action is the LP proxy due to the registration. It is transmitted to 21 (S15). Then, the LP proxy 21 confirms that it is an action for the device 20 currently in the sleep state and needs to be switched to the live state, and multicasts the byebye message (including the sleep mode designation) to the network ( S21). Due to the multicast message at this time, the control point 23 deletes the LP proxy 21 registered according to the proxy response S14 from its db (OP21). The sleep mode in the notified byebye message is designated in the same manner as the sleep mode in the message S12 notified when the LP device 20 enters the sleep state, for example, a deep sleep on-line.

The LP proxy 21 transmits a wakeup request message to the device 20 in which the action is requested from the control point 23 together with the multicasting of the byebye message (S22). In response to the sleep state release request message, the LP device 20 notifies the network of its returned alive state (S23). By the way, for the device / service having the same USN as this notification message, since it was previously deleted from the db of the control point 23 due to the byebye message of the LP proxy 21, the control point 23 has a new device network It is determined that it is connected to, and the device is registered in its db (OP22).

According to the above process, since the device that has switched from the sleep state to the alive state is normally recognized by the control point 23, subsequent actions on the device can be normally performed.

Meanwhile, the byebye message S21 notified to the network by the LP proxy 21 is also transmitted to the LP control point 22, which does not cause any problem. This is because byebye messages with the same USN (including sleep mode designation) and the same messages (with the same sleep mode designation) are also transmitted to the LP control point 22 as the LP device 20 enters the sleep state earlier. This is because the LP control point 22 determines that the information is a duplicate message and ignores it.

3 is a signal flow diagram according to another embodiment of the present invention. 3 illustrates a case where a sleep state release request is received from the low power support control point 22 before any action from the low power unsupported control point 23.

As illustrated in FIG. 3, when the LP control point 22 requests the LP proxy 21 to release the sleep state by specifying the USN for the device / service in the sleep state (S31), the LP proxy ( 21) multicasts the byebye message (including the sleep mode designation entered by the corresponding device 20) to the network (S32). Due to the multicast message at this time, the control point 23 deletes the LP proxy 21 registered according to the proxy response S14 from its db (OP31).

In addition, the LP proxy 21 transmits a wakeup request message to the LP device 20 in which the sleep state is requested to be released together with the multicasting of the byebye message (S22). In response to the sleep state release request message, the LP device 20 notifies the network of its return state, for example, active state (S33). By the way, for the device / service having the same USN as this notification message, since it was previously deleted from the db of the control point 23 due to the byebye message of the LP proxy 21, the control point 23 has a new device network It is determined that it is connected to and registers the device in its db (OP32).

According to the above process, since the device released from the sleep state is normally recognized by the control point 23, the action requested for the device through the control point 23 can be normally transmitted.

As described above, according to the present invention, an action that is received, for example, is a situation in which an LP proxy in response to a device / service entering a sleep state needs to be released from the sleep state of the device / service. Determining by the type of the control, such as to remove the registration state of the response delegate to the low-power non-support control point to ensure that the device / service that is out of the sleep state is normally re-registered so that the action can be correctly performed.

As mentioned above, preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art can improve other various embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. Changes, substitutions or additions will be possible.

In the present invention described in detail above, the control and / or inquiry action is correctly requested to the target device / service even after the low response device and the non-support device are mixed on the network, even after a proxy response message for supporting low power is transmitted and received. This eliminates the inconvenience of device management by the user through the control point.

Claims (14)

In a method for responding on behalf of any device connected to the network, A step 1 of checking whether the received action requires a transition to the live state of the sleep state device in the response proxy state; And And notifying, via the network, a message indicating a sleep state entry for the sleep state device. The method of claim 1, And sending a message requesting release of a sleep state to the sleep state device. The method of claim 1, In the step 1, the browsing action for the sleep state device is determined as an action requiring switching to the live state. The method of claim 1, In the step 1, the sleep state release request action for the sleep state device is characterized in that it is determined to be an action that needs to be switched to the live state. The method of claim 1, The message indicating the entry into the sleep state of step 2, characterized in that it has the same identification information as the identification information of the device or service of the message sent to substitute for the response of the sleep state device. The method of claim 1, The message indicating the entry into the sleep state of the second step, characterized in that for specifying the same sleep mode as the sleep mode notified when the sleep state device enters the sleep state. A networked device comprising a low power supporting device, A proxy that responds on behalf of the device when the low power device has entered a sleep state; And In response to a user's request, the low power support device is configured to include a control application that is executed on any device that does not request information or control actions and cannot interpret information for low power support in a message. And if the received action requires a transition to the live state of the low power support device in the response surrogate state, the proxy sends a message indicating entering the sleep state to the device through the network. The method of claim 7, wherein And the proxy sends a message indicating entering the sleep state through a network, and also transmits a message requesting the sleep state release to the low power supporting device in the response proxy state. The method of claim 8, And the control application receiving the message indicating the entry into the sleep state, deletes from the network a device or a service which is determined to enter the sleep state from the message. The method of claim 9, The control application registers with the network for the low power support device when the low power support device receives a message indicating the release of the sleep state notification received by the low power support device receiving the message requesting the sleep state release. The method of claim 7, wherein And when the browsing action is requested from the control application to the low power device in response, the proxy transmits a message indicating the entry of a sleep state to the control application through the network. The method of claim 7, wherein According to the user's request, the low-power support device is configured to further include a low-power support control application running on any device capable of requesting an inquiry or control action, and the interpretation of information for low power support in the message, When the proxy receives a sleep state release request action for the low power device in response from the low power support control application, the proxy transmits a message indicating entering the sleep state to the control application through the network. Characterized in that the device. The method of claim 7, wherein The device indicating the entry into the sleep state sent by the proxy, the device characterized in that it has the same identification information as the identification information of the device or service of the message sent to substitute for the response of the low-power support device in response response state . The method of claim 7, wherein And the message indicating the entry into the sleep state sent by the proxy specifies a sleep mode that is the same as the sleep mode notified to the proxy by the low power supporting device in response response entering the sleep state.

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