KR101161544B1 - Remote controller built-in fingerprint recognition function and method for embodying a low power mode - Google Patents

Abstract

According to an aspect of the present invention, there is provided a user authentication remote control including: a pointing device for obtaining authentication data for user authentication; An authentication processing unit configured to receive authentication data from a pointing device and perform user authentication; And when the authentication event signal is received from the outside, supply the operation power to the authentication processing unit so that the user authentication process can be performed in the authentication processing unit. When the user authentication process in the authentication processing unit is completed, the level value of the power supplied to the authentication processing unit is It is provided with a control unit for controlling to be below a threshold.

Description

Remote controller built-in fingerprint recognition function and method for embodying a low power mode}

The present invention relates to a user authentication remote control and a low power mode implementation method in the remote control.

More specifically, the present invention relates to a remote control equipped with a pointing device supporting a user authentication mode and a navigation mode, and a method of implementing a low power mode in the remote control.

An example of the user interface includes a pointing device such as a mouse. Among the pointing devices is a mobile pointing device (hereinafter, 'pointing device') mounted directly on a remote controller or a mobile phone body.

In the case of the pointing device, the pointer (eg, a finger) may be moved on the surface of the pointing device to implement the movement of the pointer according to the displacement value of the subject. In conclusion, the pointing device moves the pointer according to the relative movement of the subject. The pointing device may be provided separately from an electronic device such as an optical mouse of a computer and connected by wire or wirelessly. However, the pointing device may be directly mounted on a main body of an electronic device such as a remote control (remote control) or a mobile phone.

The pointing device may use infrared (IR), laser, electric field, or the like to detect and track the movement of the subject.

On the other hand, a remote control equipped with a pointing device for detecting the movement of the user's finger has been actively developed, and the remote control moves the pointer on the screen of the TV (eg, Internet TV, smart TV) according to the relative movement of the user's finger. It supports a function (navigation mode) which can move freely or selectively activate a plurality of icons displayed on the screen.

In addition, the remote controller supports a function (user authentication mode) for recognizing a fingerprint of a user's finger to authenticate whether the user is authorized and authorized.

Looking at the current consumption by mode of the remote control, the current consumption when operating in the user authentication mode is about 97mA, the current consumption when operating the most popular Navi mode (Navi mode) is about 94mA.

In the user authentication mode, the power consumption of about 97mA does not significantly affect the battery life of the remote controller because it is used for a limited time (eg, 10 to 20 seconds) according to a user selection or an external authentication event signal.

However, in the case of the nav mode, since the mode is most frequently used by the user, the current consumption of about 94 mA consumed while operating the nav mode has a great effect on the life of the remote control battery. do.

An object of the present invention is to solve a problem occurring in a remote controller equipped with a pointing device supporting a conventional user authentication mode and a navigation mode.

In the remote control having the conventional pointing device, the current consumption is relatively high in the navigating mode operation because the power is continuously supplied unnecessarily to the authentication means equipped with an authentication algorithm for processing user authentication while operating in the navigating mode. .

Thus, in the present invention, only when the remote control operates in the user authentication mode, by supplying limited power to the authentication means for processing user authentication, to prevent unnecessary current consumption and to efficiently control the current consumption user authentication Remote control battery with a pointing device that supports modes and navigation modes can be maximized.

According to an aspect of the present invention, there is provided a user authentication remote control including: a pointing device for obtaining authentication data for user authentication; An authentication processor configured to receive authentication data from the pointing device and perform user authentication; And when the authentication event signal is received from the outside, supply operation power to the authentication processing unit so that the user authentication process can be performed in the authentication processing unit, and power supplied to the authentication processing unit when the user authentication process is completed in the authentication processing unit. And a control unit for controlling the level value to be equal to or less than the threshold value.

In particular, the control unit may receive the authentication event signal from a key input unit generating an authentication event signal according to an external device or a user request.

The external device may be a set top box (STB) or a smart TV.

The apparatus may further include a communication unit configured to communicate with an external device, wherein the control unit receives displacement data corresponding to the movement of the user's finger from the pointing device in a state in which operating power is not supplied to the authentication processing unit. To deliver.

The authentication data may be fingerprint data of a user, and the pointing device may acquire the fingerprint data using any one of an electric field, a capacitor, and a thermistor.

In addition, the pointing device is characterized in that the electric field is formed on the contact surface of the user's finger, and after receiving the electric field changed by the touch of the finger, detecting the pattern signal from the received electric field to obtain the authentication data.

On the other hand, the low power mode implementation method in a user authentication remote control according to the present invention relates to a method for implementing a low power mode in a remote control having an authentication processing unit for performing a user authentication using the authentication data obtained through the pointing device, When the control unit receives an authentication event signal from the outside, the control unit supplies operating power to the authentication processing unit; Allowing the authentication data received through the pointing device to be transmitted to the authentication processing unit; Receiving result data according to a user authentication process from the authentication processor; Processing the result data to be transmitted to an external device, and controlling the level value of power supplied to the authentication processing unit to be equal to or less than a threshold value; And receiving displacement data corresponding to a movement of a user's finger from the pointing device and transmitting the displacement data to the external device.

According to the present invention has the following effects.

Only when the remote controller operates in the user authentication mode, by supplying limited power to the authentication means for processing user authentication, it prevents unnecessary current consumption and efficiently controls the current consumption to control the user authentication mode and the navigation mode. There is an advantage in extending the life of the remote control battery with a supporting pointing device.

1 is an exemplary view for explaining a user authentication remote control according to the present invention.
2 is a view for explaining in detail the configuration of the user authentication remote control according to the present invention.
3 is a flowchart illustrating a method of implementing a low power mode in a user authentication remote controller according to the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings. Repeated descriptions, well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention, and detailed description of the configuration will be omitted. Embodiments of the present invention are provided to explain in detail the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity. In the drawings, parts irrelevant to the main features of the present invention are omitted in order to clearly describe the present invention.

Throughout the specification, when a part is said to "include" or "include" a certain component, unless otherwise stated that does not exclude the other component that can further include or include other components it means.

The pointing device mounted on the remote controller according to the present invention may be a pointing device supporting a user authentication mode and a navigation mode by using an electric field, a capacitor, a thermistor, and the like. For example, the pointing device applied to the present invention can recognize a fingerprint of a user's finger using an electric field, and can also detect the movement of the user's finger using the electric field.

In this case, 'navigator mode' means that when the user moves a finger on the pointing device of the remote control and moves in a specific direction, the cursor (or pointer) moves on the TV screen according to the direction or the executable icons displayed on the TV screen are displayed. It means the mode selected sequentially.

In addition, the 'user authentication mode' refers to a mode in which a user performs a user authentication by contacting a body part such as a finger with a pointing device of a remote controller. For example, when a user raises a finger on the pointing device, the pointing device recognizes the user's fingerprint and compares the user with the pre-stored fingerprint data to verify whether the user is a legitimate user with control or content use rights.

In addition, although the remote control has been described as an example to which the present invention is applied, the device to which the present invention is applicable is not limited to the remote control, and includes all electronic devices capable of wired / wireless communication and execution of multimedia contents. For example, it may include an information terminal, a smart phone, a game machine, a PMP, a tablet PC, and the like.

The pointing device applied to the present invention is an input auxiliary device that operates a cursor (or pointer) on a screen output by a target device (for example, a smart TV) that receives a remote control signal, and serves as a left mouse button of the PC. It also performs the function of selecting the function shown in. The pointing device implements a pointing technique in a PC by generating and moving a cursor (or pointer) on a screen through a user's finger movement (navigating mode).

That is, when the finger is placed on the pointing device and the finger is moved in a specific direction, the cursor (or pointer) moves according to the direction. Implement the pointing technology to calculate the finger movements that can be mounted on the remote control, and then move the finger in a specific direction, and the cursor moves according to that direction. The function of selecting and the function of selecting the displayed function of the left mouse button, and the function of selecting the movement of the finger also move the cursor in a specific direction.

Hereinafter, a method for implementing a low power mode in a user authentication remote control and a user authentication remote control according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary view for explaining a user authentication remote control according to the present invention. 2 is a view for explaining in detail the configuration of the user authentication remote control according to the present invention.

1 and 2, the remote controller 100 according to the present invention includes a key input unit 110, a control unit 120, a communication unit 130, a pointing device 140, and an authentication processing unit 150.

The key input unit 110 basically includes an authentication event generation key that enables a user to perform user authentication (including fingerprint registration and fingerprint approval) using the pointing device 140.

For example, when an authentication event occurrence key of the key input unit 110 is selected by the user, the user may be authenticated using the pointing device 140 on the screen of the target device (eg, the smart TV) that communicates with the remote controller. A message (e.g. 'Touch your finger to the pointing device', 'Register your fingerprint') will be displayed. Accordingly, the user may input fingerprint data for user authentication by touching a finger with the pointing device 140.

In addition, the key input unit 110 may include a plurality of input keys for controlling the operation of the target device communicating with the remote controller.

When the authentication event signal is received from the external device through the communication unit 130 or the authentication event signal is received through the key input unit 110, the control unit 120 supplies operating power to the authentication processing unit 150 to authenticate the processing unit 150. The user authentication process can be performed in. When the user authentication process in the authentication processing unit 150 is completed, the power supply to the authentication processing unit 150 is cut off or the level value of the power supply supplied is controlled to be equal to or less than a threshold value.

That is, the controller 120 selectively controls the operation of the authentication processor 150 according to whether the authentication event signal is received.

In more detail, when a user tries to watch adult content through a TV, the external device generates an authentication event signal and transmits it to the communication unit 130 to confirm whether the user is a legitimate user. Here, the external device may be a set top box (STB) or a smart TV. When the authentication event signal is received from the outside, the control unit 120 supplies power to the authentication processing unit 150 which is normally in a power off state (or a sleep mode state) so that the authentication processing unit 150 operates.

That is, when an authentication event signal is received from the outside, the controller 120 causes the remote controller 100 to operate in a user authentication mode, and user authentication data (eg, fingerprint image) input through the pointing device 140 is an authentication processor. Process to be delivered to 150.

When the user authentication process is completed in the authentication processing unit 150, the control unit 120 cuts off the power supplied to the authentication processing unit 150 to stop the driving of the authentication processing unit 150, or the level value of the power is increased. The authentication processing unit 150 is put into the sleep mode by controlling to be below the threshold.

The remote controller 100 operates in the nav mode. That is, the controller 120 performs independent communication with the pointing device 140 in the state in which the operating power is not supplied to the authentication processing unit 150 or in the sleep mode state, and the data input through the pointing device 140. Directly receives and delivers to the communication unit 130. In this case, the data input through the pointing device 140 is displacement data according to the movement of the user's finger.

In the case of a remote control equipped with a pointing device that supports the user authentication mode and the navigation mode, the user mostly uses the remote control in the navigation mode. It is only.

Therefore, in the present invention, when the remote control operates in the navigator mode, the authentication processing unit 150 to block the power supply to the authentication processing unit 150, or to control the level value of the power supplied to the authentication processing unit 150 to be below the threshold value authentication processing unit The power consumption of the remote controller was minimized by allowing the 150 to enter the sleep mode.

The communication unit 130 transmits the displacement data corresponding to the movement of the user's finger from the control unit 140 and the authentication result data from the authentication processing unit 150 to an external device (for example, a smart TV or a set-top box), and the external device. The control unit 120 transmits data related to user authentication received from the controller.

The pointing device 140 calculates the displacement data corresponding to the movement of the user's finger and transmits the displacement data to the controller 120 (navigation mode). In addition, the pointing device 140 obtains authentication data (eg, a fingerprint image) necessary for user authentication from the user and transmits the authentication data to the authentication processing unit 150 (user authentication mode).

To this end, the pointing device 140 may include a transmitter (not shown) for forming an electric field on a contact surface of a user's finger, a detector (not shown) for receiving an electric field changed by contact of a finger, and detecting a pattern signal from the received electric field. And a calculator (not shown) that calculates a pattern displacement that changes according to the movement of a finger from the pattern signal.

Here, the transmitter forms an electric field in the area including the contact surface. In this case, the electric field may be formed through the plate of the metal film. The detection unit receives the changed electric field of the subject in contact with the electric field area, and outputs a pattern signal from the received electric field. The calculation unit calculates a pattern displacement that changes according to the movement of the object from the pattern signal output from the detection unit.

For example, a fingerprint image is obtained by scanning a pattern of valleys and mountains formed on the surface of a finger.

The authentication processor 150 receives authentication data from the pointing device 140 and performs user authentication. The authentication processor 150 selectively receives driving power from a power supply unit (not shown) of the remote controller 100 according to a control signal of the controller 120, and selectively operates accordingly.

The authentication processor 150 stores the user authentication data in a memory (not shown), and when the user authentication data is input through the pointing device 140 in the user authentication mode, the authentication processing unit 150 performs a series of user authentication processes by comparing with the previously stored data. . The user authentication process may be performed in various ways through a conventionally known method, and a detailed description thereof will be omitted.

3 is a flowchart illustrating a method of implementing a low power mode in a user authentication remote controller according to the present invention.

Prior to the description, it is assumed that the remote controller according to the present invention operates in a nav mode, and at this time, an operation power is not supplied to an authentication processing unit which receives authentication data from a pointing device and performs user authentication (see FIG. S100).

First, the controller determines whether an authentication event signal is received from a key input unit or an external device of the remote controller (S105).

When the authentication event signal is received in step S105, the control unit supplies operating power to the authentication processing unit to drive the authentication processing unit (S110).

When the user authentication data (eg, fingerprint image) is input through the pointing device while the authentication processor is operable through the operation S110, the controller processes the authentication data input through the pointing device to be transmitted to the authentication processor (S115). . The authentication processor, which receives the authentication data from the pointing device, performs a series of user authentication processes, and then transfers the result data to the controller.

The control unit receives the result data from the authentication processing unit (S120), and processes the received result data to be transmitted to the external device through the communication unit (S125).

Next, the control unit cuts off the power supplied to the authentication processing unit or controls the level value of the supplied power to be equal to or less than a threshold value so that the authentication processing unit is stopped or made to sleep mode, and then the remote controller operates in the nav mode. (S130). That is, the controller performs independent communication with the pointing device in a state where the operating power is not supplied to the authentication processing unit (or the sleep mode state), and directly receives displacement data input through the pointing device (S135).

When the displacement data is received through the step S135, the control unit transmits the displacement data to the external device through the communication unit (S145).

On the other hand, when the authentication event signal is received again from the outside in the state in which the operating power is not supplied to the authentication processing unit (or the sleep mode state) (S140), the control unit moves to step S110 to repeat the above-described process.

In the present invention, only when the remote control operates in the user authentication mode, by supplying limited power to the authentication means for processing user authentication, to prevent unnecessary current consumption and to efficiently control the current consumption user authentication mode and Extending the life of the remote control battery with a pointing device that supports navigation mode.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not used to limit the scope of the present invention as defined in the meaning or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: remote control 110: key input unit
120: control unit 130: communication unit
140: pointing device 150: authentication processing unit

Claims (7)

A pointing device for acquiring authentication data for user authentication;
An authentication processor configured to receive authentication data from the pointing device and perform user authentication; And
When an authentication event signal is received from the outside, the power is supplied to the authentication processing unit so that the user authentication process can be performed in the authentication processing unit. When the user authentication process is completed in the authentication processing unit, And a control unit for controlling the level value to be equal to or less than the threshold value.
The authentication data is fingerprint data of the user,
And the pointing device obtains the fingerprint data using any one of an electric field, a capacitor, and a thermistor. The method according to claim 1,
The control unit,
And receiving the authentication event signal from a key input unit generating an authentication event signal according to an external device or a user request. The method according to claim 2,
The external device,
User-set remote control, characterized in that the set-top box (STB) or smart TV. The method according to claim 1,
Further comprising a communication unit for communicating with the external device,
The control unit,
And receiving the displacement data corresponding to the movement of the user's finger from the pointing device and transmitting the displacement data to the communication unit while the operation power is not supplied to the authentication processing unit. delete The method according to claim 1,
The pointing device,
The user authentication remote control, characterized in that to form an electric field on the contact surface of the user's finger, after receiving the electric field changed by the touch of the finger to detect the pattern signal from the received electric field to obtain the authentication data. The present invention relates to a method for implementing a low power mode in a remote controller having an authentication processing unit for performing user authentication using authentication data obtained through a pointing device.
If an authentication event signal is received from the outside, supplying operating power to the authentication processing unit;
Receiving the fingerprint data of the user from a pointing device which acquires fingerprint data using any one of an electric field, a capacitor, and a thermistor, and transferring the fingerprint data to the authentication processing unit;
Allowing the authentication data received through the pointing device to be transmitted to the authentication processing unit;
Receiving result data according to a user authentication process from the authentication processor;
Processing the result data to be transmitted to an external device, and controlling the level value of power supplied to the authentication processing unit to be equal to or less than a threshold value; And
And receiving displacement data corresponding to a movement of a user's finger from the pointing device and transmitting the displacement data to the external device.

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