KR101392858B1 - Method for remote converting mode of device and wireless network system using the same - Google Patents

Abstract

A device mode remote switching method and a wireless network system using the same are provided. In the remote mode switching method according to the present embodiment, when the message received from the wireless module carried by the user is determined as a wake-up message, the operation mode of the user is switched to the normal mode. Thus, when a user having a small wireless module, rather than a method using a switch or a wire, is adjacent to a device that enters the power saving mode, the device that remotely enters the power saving mode can be returned to the normal mode, It is simple because you do not have to press the button to find the operation or remote control.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for remotely switching a device mode,

The present invention relates to a mode switching method, and more particularly, to a method of automatically switching a mode of a device remotely and a wireless network system using the same.

As environmental problems become more and more evident, devices that support power saving mode are increasing gradually. However, there is an inconvenience in that, in order to return the devices that enter the power saving mode back to the normal mode, it is necessary to directly press the switch provided in the device.

On the other hand, if the device supports wired network and Wake On LAN function, it is possible to return to normal mode by sending a packet from a long distance, but it can only be connected to a wired network. To send Power Management Event signal by remote control, .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a wireless communication device and a wireless communication method, in which a device supporting a wireless environment is not used for a predetermined period of time, In which a user with a small wireless module is returned to the normal mode remotely when the user is adjacent to the device, so that the user can easily use the intelligent devices.

According to an aspect of the present invention, there is provided a remote mode switching method including: determining a type of a message received from a wireless module carried by a user; And if the message is determined to be a wake-up message, changing an operation mode of the wireless communication device to a normal mode.

Determining whether the wireless module transmitting the message is a wireless module registered in the wireless module; Performing the holding step if the wireless module transmitting the message is a wireless module registered in the wireless module; And discarding the message if the wireless module that transmitted the message is not a wireless module registered in the wireless module.

The remote mode switching method may further include registering the wireless module when receiving a remote mode control registration message containing information of the wireless module from the wireless module.

In the switching step, if the message is determined to be a wake-up message, And switching the operation mode to a normal mode by controlling power to be applied when the operation mode is the first power save mode.

The switching step may further include generating an event in the processor to switch the operation mode to the normal mode when the operation mode is the second power save mode.

The message may be received from the wireless module in a short-range communication manner.

According to another aspect of the present invention, there is provided a wireless network system including: a wireless module that is carried by a user and transmits a message; And a device for switching the operation mode of the wireless module to a normal mode when the message received from the wireless module is determined as a wake-up message.

As described above, according to the present invention, when a user who has a small wireless module, rather than a method using a switch or a wire, is adjacent to a device that enters the power saving mode, the device that remotely enters the power saving mode returns to the normal mode So that it is not necessary to find a device switch operation or a remote control and press a button.

In addition, since the power can be remotely controlled wirelessly even if it is not connected to a wired network, there is no environment restriction because there is no need to build a wired infrastructure. In addition, it is possible to control the power of various kinds of devices at a time, thereby shortening the time for returning the devices to the normal mode.

In addition, the present invention is applicable while maintaining the individual power management policies of the devices.

1 is a block diagram of a network system to which the present invention is applicable;
FIG. 2 is a diagram illustrating a process of automatically switching a mode by the wireless module shown in FIG. 1, and FIG.
FIG. 3 is a flowchart showing details of step S340 of FIG.

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

1 is a block diagram of a network system to which the present invention is applicable. As shown in FIG. 1, a network system to which the present invention can be applied is constructed in such a manner that a wireless module 100 and a device 200 are connected to each other so that they can communicate with each other wirelessly.

The wireless communication method between the wireless module 100 and the device 200 is a short-range wireless communication method such as IEEE 802.15.4. When the distance between the wireless module 100 and the device 200 is far apart, communication between them is not performed.

The wireless module 100 is a small module that the user can carry. The wireless module 100 may be implemented as a separate module, but it may be provided in a mobile device carried by the user such as a mobile phone, or may be transferred to the mobile device.

As shown in FIG. 1, the wireless module 100 includes a processor 110 and a wireless communication module 120. The processor 110 generates a message and broadcasts it to devices located in the vicinity through the wireless communication module 120.

The message generated by the processor 110 and broadcasted through the wireless communication module 120 is a wake-up message. The wake-up message is a message requesting to wake-up the device that has entered the power saving mode and switch to the normal mode, and is repeatedly broadcast according to a certain period.

The gyro sensor may be provided in the wireless module 100 so that the processor 110 generates a wake-up message only when the movement of the user carrying the wireless module 100 is detected by the gyro sensor, 120 to devices located in the periphery.

The device 200 is a wireless communication device, regardless of the type. It is general that a device 200 assumes a stationary device such as DTV (Digital TeleVision) or STB (Sst Top Box), but does not exclude a mobile device.

The device 200 includes a wireless communication module 210, a processor 220, a functional block 230, and a power management module 240, as shown in FIG.

The wireless communication module 210 is communicably connected to the wireless communication module 120 of the wireless module 100 and receives a message.

The function block 230 performs the function of the device 200 itself. For example, when the device 200 is a DTV or an STB, the function block 230 selects a broadcast signal, processes the signal, and outputs the processed signal.

The processor 220 controls the operation of the functional block 230 and ultimately controls the overall operation of the device 200.

The power management module 240 manages the power supply to the wireless communication module 210, the processor 220 and the function block 230 provided in the device 200.

If the device 200 is not used for a set time, the processor 220 switches the operation mode of the device 200 to the power saving mode. The processor 220 can switch the operation mode of the device 200 to the power saving mode even when there is a power save mode entry instruction from the user.

'Power saving mode' is divided into 'power down mode' and 'hibernation mode'.

The 'power down mode' is an operation mode in which the wireless communication module 210, the processor 220 and the power management module 240 operate while receiving power, but the function block 230 is not operated without power supply .

The 'hibernation mode' is an operation mode in which only the wireless communication module 210 and the power management module 240 operate while receiving power, and the function block 230 and the processor 220 are not operated because power is not applied .

If the wireless module 100 is adjacent to the device 200 while the device 200 enters the power saving mode, the processor 110 automatically switches the operation mode of the device 200 to the normal mode.

Hereinafter, the process of automatically switching the mode of the device 200 by the wireless module 100 shown in FIG. 1 will be described in detail with reference to FIG.

It is presumed that the wireless module 100 is registered in the device 200 in order for the device 200 to automatically switch the mode by the wireless module 100. [ The registration procedure is implemented in steps S310 to S340 of FIG.

That is, when the wireless module 100 transmits a remote mode control registration message containing its own ID to the device 200 (S310), the device 200 transmits the ID of the wireless module 100 included in the remote mode control registration message And registers the wireless module as a wireless module to allow remote mode control (S320).

Thereafter, the wireless module 100 periodically broadcasts a wake-up message (S330). The distance between the wireless module 100 and the device 200 is sufficiently distanced so that the subsequent procedure of not receiving the wake-up message broadcast by the wireless module 100 does not proceed.

However, if a distance between the wireless module 100 and the device 200 is adjacent and a wake-up message broadcasted by the wireless module 100 is received, the device 200 performs a mode change procedure according to the wake-up (S340).

Hereinafter, step S340 of FIG. 2 will be described in detail with reference to FIG. As shown in FIG. 3, the wireless communication module 210 of the device 200 first analyzes the message received in step S330 of FIG. 2, and determines the type of the message sender and the message (S341).

If it is determined in step S341 that the message is received from the wireless module not registered in the device 200 (S342-N), or if the message is received from the wireless module registered in the device 200, If it is not an up message (S342-Y & S343-N), the wireless communication module 210 discards the received message (S349).

If the message is received from the wireless module 100 registered in the device 200 and the message is a wake-up message (S342-Y & S343-Y), the power management module 240 determines whether the device 200 Mode is recognized (S344).

If the operation mode of the device 200 is determined to be the power down mode at step S344, the power management module 240 applies power to the functional block 230 to set the operation mode of the device 200 to the normal mode (S346).

The power down mode is an operation mode in which the wireless communication module 210, the processor 220 and the power management module 240 operate while receiving power but the function block 230 does not operate without being powered I have mentioned above.

If it is determined in step S344 that the operation mode of the device 200 is the maximum power saving mode in step S347 -Y, the power management module 240 sends PME (Power Management Event) to the processor 220 Up the processor 220 and apply power to the function block 230 to switch the operation mode of the device 200 to the normal mode at operation S348.

The 'maximum power saving mode' is an operation mode in which only the wireless communication module 210 and the power management module 240 are powered and the function block 230 and the processor 220 are not operated I have mentioned above.

If it is determined in step S344 that the operation mode of the device 200 is the normal mode (S345-N & S347-N), the wireless communication module 210 discards the received message (S349).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

100: wireless module 110: processor
120: Wireless communication module
200: device 210: wireless communication module
220: Processor 230: Function Block
240: power management module

Claims (7)

The device determining the type of the message received from the wireless module carried by the user; And
And if the message is determined to be a wake-up message, switching the device from its operating mode to a normal mode,
The wireless module generates and transmits the wake-up message only when motion is detected by the user,
The device recognizing whether the wireless module that transmitted the message is a wireless module registered in the wireless module;
If the wireless module transmitting the message is a wireless module registered in the wireless module, the device performing the determining step; And
And discarding the message if the wireless module that transmitted the message is not a wireless module registered in the wireless module.
delete The method according to claim 1,
Further comprising: registering the wireless module when a remote mode control registration message containing information of the wireless module is received from the wireless module.
The method according to claim 1,
Wherein,
Determining if the message is a wake-up message;
And switching the operation mode to a normal mode by controlling power to be applied when the operation mode is the first power save mode.
5. The method of claim 4,
Wherein,
And switching the operation mode to a normal mode by generating an event to the processor if the operation mode is the second power save mode.
The method according to claim 1,
Wherein the message is received from the wireless module in a short-range communication manner.
A wireless module carried by the user and transmitting a message; And
And a device for switching its own operation mode to a normal mode when the message received from the wireless module is determined to be a wake-up message,
The wireless module generates and transmits the wake-up message only when motion is detected by the user,
The device comprising:
Determines whether the message is a wake-up message if the wireless module that transmitted the message is a wireless module registered in the wireless module, and if the wireless module that transmitted the message is a wireless module registered in the wireless module, And discards the message if the module is not a wireless module registered in the wireless module.

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