WO2014180094A1 - Gesture recognition method and smart mobile terminal - Google Patents

Abstract

The present invention provides a gesture recognition method and a smart mobile terminal. The smart mobile terminal comprises: an FPC touch button module, disposed on a housing of the smart mobile terminal, and used for receiving a preset touch operation signal, and sending the touch operation signal; a wake-up control module, used for receiving the touch operation signal, and determining whether the touch operation signal is a wake-up interruption signal, if yes, sending an interruption request according to a type of the wake-up interruption signal; and a baseband chip, used for performing a corresponding operation on the smart mobile terminal according to the type of the interruption request. The present invention enables the smart mobile terminal to wake up to enter a standby or lock-screen state through a specific touch operation signal by adopting a self-capacitance touch detection principle and based on a touch sensing button chip, making it easy for any user to operate, and actions are simple and practical, thereby providing desirable use experience.

Description

Gesture recognition method and intelligent mobile terminal

Technical field

The invention relates to a gesture recognition method and an intelligent mobile terminal, and belongs to the technical field of mobile terminals.

Background technique

With the popularity of smart mobile terminals, waking up a mobile phone, lighting a screen, or putting a smart mobile terminal into a standby state is the most frequent operation of the consumer every day. The traditional wake-up smart mobile terminal is controlled by the user pressing the Power button, and then performing other operations such as sliding, long press, and drawing graphics. The disadvantage is that the power button position is not uniform, and the consumer is new to the device. The use of the smart mobile terminal is not easy to adapt; the second is that as the size of the smart mobile terminal becomes larger and larger, the operation of waking up the smart mobile terminal often requires a single hand to move down or even a hand to cooperate, which does not conform to the usage habits of the person, resulting in a poor user experience.

Summary of the invention

The invention provides a method for solving the problem that the existing smart mobile terminal has different power key positions when unlocking, causing the user to be unsuitable for the new device, and the operation of the large-sized device is cumbersome and laborious, resulting in a poor user experience, thereby providing a Gesture recognition method and intelligent mobile terminal. To this end, the present invention provides the following technical solutions:

A gesture recognition method includes:

Receiving a predetermined touch operation signal through a plurality of FPC touch buttons disposed on the smart mobile terminal housing, and transmitting the touch operation signal;

Receiving the touch operation signal, and determining whether the touch operation signal is a wake-up interrupt signal, and if yes, sending an interrupt request according to the type of the wake-up interrupt signal;

Performing corresponding operations on the smart mobile terminal according to the type of the interrupt request.

An intelligent mobile terminal comprising:

An FPC touch button module is disposed on the smart mobile terminal casing for receiving a predetermined touch operation signal and transmitting the touch operation signal;

The wake-up control module is configured to receive the touch operation signal, and determine whether the touch operation signal is a wake-up interrupt signal, and if yes, send an interrupt request according to the type of the wake-up interrupt signal;

And a baseband chip, configured to perform corresponding operations on the smart mobile terminal according to the type of the interrupt request.

The invention adopts the self-capacitance touch detection principle, and realizes the state that the mobile terminal can be awakened, enters the standby state and the lock screen through a specific touch operation signal based on the touch sensing button chip, and can be easily operated by any user, and the action is simple and practical. , has a good experience.

DRAWINGS

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention, Those skilled in the art can also obtain other drawings based on these drawings without paying for creative labor.

1 is a schematic flow chart of a gesture recognition method provided by a specific embodiment of the present invention;

2 is a schematic structural diagram of an intelligent mobile terminal according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an FPC touch button module, a wake-up control module, and a baseband chip according to an embodiment of the present invention.

detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

A specific embodiment of the present invention provides a gesture recognition method, as shown in FIG. 1, including:

Step 1. Receive a predetermined touch operation signal through a plurality of FPC touch buttons disposed on the smart mobile terminal casing, and transmit the touch operation signal.

Specifically, when the smart mobile terminal is used by one hand, the two-click operation of any one of the FPC touch buttons can be regarded as a standby wake-up interrupt signal for waking up the smart mobile terminal; long pressing any FPC touch button The operation is regarded as entering a standby interrupt signal for entering the smart mobile terminal into a standby state; and when the operation of sequentially clicking a plurality of FPC touch buttons is regarded as a lock screen interruption signal, the smart mobile terminal is used to enter the lock screen state. .

Step 2: Receive the touch operation signal, and determine whether the touch operation signal is a wake-up interrupt signal, and if yes, send an interrupt request according to the type of the wake-up interrupt signal.

Specifically, the intelligent mobile terminal issues a corresponding interrupt request according to different types of wake-up interrupt signals, for example, when the wake-up interrupt signal is a standby wake-up interrupt signal, an interrupt request is issued to wake up the smart mobile terminal; when the wake-up interrupt signal is a standby standby interrupt When the signal is sent, an interrupt request for entering the standby state of the smart mobile terminal is issued; when the wake-up interrupt signal is the lock screen interrupt signal, an interrupt request for entering the lock screen state of the smart mobile terminal is issued.

Step 3: Perform corresponding operations on the smart mobile terminal according to the type of the interrupt request.

Specifically, the smart mobile terminal performs corresponding operations according to different types of interrupt requests, for example, when the interrupt request is a standby wake-up interrupt signal, the smart mobile terminal is woken up; when the interrupt request is a standby standby interrupt signal, the smart mobile terminal is entered. Standby state; when the interrupt request is a lock screen interrupt signal, the smart mobile terminal enters the lock screen state.

The embodiment further provides an intelligent mobile terminal, as shown in FIG. 2, including:

The FPC touch button module 1 is disposed on the smart mobile terminal shell for receiving a predetermined touch operation signal and transmitting the touch operation signal;

The wake-up control module 2 is configured to receive the touch operation signal, and determine whether the touch operation signal is a wake-up interrupt signal, and if yes, send an interrupt request according to the type of the wake-up interrupt signal;

The baseband chip 3 is configured to perform corresponding operations on the smart mobile terminal according to the type of the interrupt request.

Specifically, as shown in FIG. 3, the FPC touch button module 1 can be disposed on the battery cover of the smart mobile terminal by means of structural pressing, for receiving the carrier of the human hand touch sensing. The FPC touch button module 1 is a highly reliable and flexible printed circuit board made of polyimide or polyester film, and can be provided with three or more independent touch buttons. For this patent, the wake-up control module 2 is disposed on the motherboard of the smart mobile terminal, and is configured to receive the physical signal generated by the FPC touch button module 1 by identifying different touch operation signals and combining the smart gesture recognition algorithm inside the chip. Different interrupt requests. The baseband chip 3 is responsible for processing the interrupt request of the wake-up control module 2, and gives different interrupt processing according to different interrupt requests. Such as: standby wake up, enter standby or slide unlock.

The functions implemented by the smart mobile terminal provided by this embodiment include:

1) Double-click to wake up the smart mobile terminal

Step 1: In the standby state, the smart mobile terminal holds the smart mobile terminal with one hand, and touches any FPC touch button on the battery cover with the index finger, and clicks twice;

Step 2: Touching the signal causes a change in capacitance, which is conducted through the contact to the wake-up control module;

Step 3: The wake-up control module detects a change in capacitance, and determines that it is a “two-click” action, and defines an action as a “standby wake-up” interrupt signal by an internal gesture recognition algorithm, and issues an interrupt request to the baseband chip;

Step 4: The baseband chip responds to the interruption and internally wakes up the intelligent mobile terminal.

2) Press and hold to enter standby

Step 1: In the non-standby state, the smart mobile terminal holds the smart mobile terminal with one hand, and presses any FPC touch button with the index finger for a long time;

Step 2: Touching the signal causes a change in capacitance, which is conducted through the contact to the wake-up control module;

Step 3: The wake-up control module detects a change in capacitance, and determines that it is a “long press” action, and defines the action as an “standby standby” interrupt signal by an internal gesture recognition algorithm, and issues an interrupt request to the baseband chip;

Step 4: The baseband chip responds to the interruption and enters the smart mobile terminal into the standby mode.

3) Sliding gesture recognition

Step 1: In the non-standby state, the smart mobile terminal holds the smart mobile terminal with one hand, and uses the index finger to swipe three FPC touch buttons from left to right, or three FPC touches from right to left with the index finger. button;

Step 2: Touching the signal causes a change in capacitance, which is conducted through the contact to the wake-up control module;

Step 3: The wake-up control module detects the capacitance changes of the three channels, and determines the “left slide” action or the “right slide” action. "Left slide" is defined as the "unlock" interrupt signal, and "right slide" is defined as the "lock screen" interrupt signal;

Step 4: The baseband chip responds to the interruption. "Left slide" adjusts the mobile phone from the lock screen state to the unlock state, and "right slide" adjusts the smart mobile terminal from the unlocked state to the lock screen state.

According to the technical solution provided by the specific embodiment, by using the self-capacitance touch detection principle, based on the touch-sensitive button chip, the user can wake up, enter the standby state, and lock the screen through a specific touch operation signal, and any user It can be easily operated, and the action is simple and practical, with a good experience.

The above is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of it within the technical scope disclosed by the embodiments of the present invention. Variations or substitutions are intended to be covered by the scope of the invention. Therefore, the scope of protection of the present invention should be determined by the scope of the claims.

Claims (9)

A gesture recognition method, comprising: Receiving a predetermined touch operation signal through a plurality of FPC touch buttons disposed on the smart mobile terminal housing, and transmitting the touch operation signal; Receiving the touch operation signal, and determining whether the touch operation signal is a wake-up interrupt signal, and if yes, sending an interrupt request according to the type of the wake-up interrupt signal; Performing corresponding operations on the smart mobile terminal according to the type of the interrupt request. The gesture recognition method according to claim 1, wherein the smart mobile terminal is woken up when the interrupt request is a standby wakeup interrupt signal. The gesture recognition method according to claim 1, wherein the smart mobile terminal enters a standby state when the interrupt request is a standby standby interrupt signal. The gesture recognition method according to claim 3, wherein when the interrupt request is a lock screen interrupt signal, the smart mobile terminal enters a lock screen state. An intelligent mobile terminal, comprising: An FPC touch button module is disposed on the smart mobile terminal casing for receiving a predetermined touch operation signal and transmitting the touch operation signal; The wake-up control module is configured to receive the touch operation signal, and determine whether the touch operation signal is a wake-up interrupt signal, and if yes, send an interrupt request according to the type of the wake-up interrupt signal; And a baseband chip, configured to perform corresponding operations on the smart mobile terminal according to the type of the interrupt request. The intelligent mobile terminal of claim 5, wherein the baseband chip comprises: The wakeup submodule is configured to wake up the smart mobile terminal when the interrupt request is a standby wakeup interrupt signal. The intelligent mobile terminal of claim 5, wherein the baseband chip comprises: And a standby sub-module, configured to: when the interrupt request is a standby standby interrupt signal, enter the smart mobile terminal into a standby state. The intelligent mobile terminal of claim 5, wherein the baseband chip comprises: The lock screen sub-module is configured to enter the smart mobile terminal into a lock screen state when the interrupt request is a lock screen interrupt signal. The smart mobile terminal according to any one of claims 5 to 8, wherein the FPC touch button module is disposed on the battery cover of the smart mobile terminal in a structurally pressed manner.

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