WO2017016250A1 - 具有触摸屏的电子设备及其锁定方法和解锁方法 - Google Patents

具有触摸屏的电子设备及其锁定方法和解锁方法 Download PDF

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Publication number
WO2017016250A1
WO2017016250A1 PCT/CN2016/080109 CN2016080109W WO2017016250A1 WO 2017016250 A1 WO2017016250 A1 WO 2017016250A1 CN 2016080109 W CN2016080109 W CN 2016080109W WO 2017016250 A1 WO2017016250 A1 WO 2017016250A1
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WO
WIPO (PCT)
Prior art keywords
palm
electronic device
feature data
hand
touch screen
Prior art date
Application number
PCT/CN2016/080109
Other languages
English (en)
French (fr)
Inventor
朱建锋
Original Assignee
惠州Tcl移动通信有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 惠州Tcl移动通信有限公司 filed Critical 惠州Tcl移动通信有限公司
Priority to US15/128,359 priority Critical patent/US20170177848A1/en
Publication of WO2017016250A1 publication Critical patent/WO2017016250A1/zh

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Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F21/00Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F21/30Authentication, i.e. establishing the identity or authorisation of security principals
    • G06F21/31User authentication
    • G06F21/32User authentication using biometric data, e.g. fingerprints, iris scans or voiceprints
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0487Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
    • G06F3/0488Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06VIMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
    • G06V10/00Arrangements for image or video recognition or understanding
    • G06V10/40Extraction of image or video features
    • G06V10/42Global feature extraction by analysis of the whole pattern, e.g. using frequency domain transformations or autocorrelation
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06VIMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
    • G06V40/00Recognition of biometric, human-related or animal-related patterns in image or video data
    • G06V40/10Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
    • G06V40/12Fingerprints or palmprints
    • G06V40/13Sensors therefor
    • G06V40/1306Sensors therefor non-optical, e.g. ultrasonic or capacitive sensing
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F2203/00Indexing scheme relating to G06F3/00 - G06F3/048
    • G06F2203/041Indexing scheme relating to G06F3/041 - G06F3/045
    • G06F2203/04104Multi-touch detection in digitiser, i.e. details about the simultaneous detection of a plurality of touching locations, e.g. multiple fingers or pen and finger
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F2221/00Indexing scheme relating to security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F2221/21Indexing scheme relating to G06F21/00 and subgroups addressing additional information or applications relating to security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F2221/2135Metering
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/03Arrangements for converting the position or the displacement of a member into a coded form
    • G06F3/041Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
    • G06F3/044Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means by capacitive means

Definitions

  • the present invention relates to the field of information recognition, and in particular to an electronic device with a touch screen, a locking method thereof and an unlocking method.
  • the invention provides an electronic device with a touch screen, a locking method thereof and an unlocking method, which realizes locking the electronic device by using the feature data of the palm as a key of the electronic device, and comparing the feature data of the current user's palm with the key.
  • the electronic device is unlocked when the feature data is consistent with the key, and the operation is simple and fast, and no additional hardware cost is added.
  • An aspect of the present invention provides a locking method for an electronic device having a touch screen, the locking method comprising: acquiring capacitive sensing data collected by a touch screen after being pressed by a user's palm, and performing analog-to-digital conversion on the capacitive sensing data to obtain The hand map of the palm acquires the feature data of the palm according to the hand map, stores the feature data as the key of the electronic device, and locks the electronic device with the key.
  • the step of acquiring the feature data of the palm according to the hand pattern includes: recognizing the palm as a left hand or a right hand, acquiring at least one of the length of each finger of the palm, the distance of the middle finger of the palm to the center of the palm root of the palm, and the width of the palm. Or combined as feature data.
  • the step of acquiring at least one of the length of each finger of the palm, the distance of the middle finger of the palm to the center of the palm of the palm, and the width of the palm of the hand as the feature data includes: acquiring the first pixel of the first feature point of the palm And acquiring a second pixel coordinate of the second feature point of the palm, and obtaining a distance between the first feature point and the second feature point according to the first pixel coordinate and the second pixel coordinate.
  • Another aspect of the present invention provides an unlocking method for an electronic device having a touch screen, including: acquiring capacitance sensing data collected by a touch screen after being pressed by a user's palm, and performing analog-to-digital conversion on the capacitive sensing data. Obtaining the hand map of the palm, obtaining the feature data of the palm according to the hand map, acquiring the key of the electronic device, comparing the feature data with the key, and determining whether the feature data is consistent with the key, and if the feature data is consistent with the key, Then unlock the electronic device.
  • the step of acquiring the feature data of the palm according to the hand pattern includes: recognizing the palm as a left hand or a right hand, acquiring at least one of the length of each finger of the palm, the distance of the middle finger of the palm to the center of the palm root of the palm, and the width of the palm. Or combined as feature data.
  • the step of acquiring at least one of the length of each finger of the palm, the distance of the middle finger of the palm to the center of the palm of the palm, and the width of the palm of the hand as the feature data includes: acquiring the first pixel of the first feature point of the palm And acquiring a second pixel coordinate of the second feature point of the palm, and obtaining a distance between the first feature point and the second feature point according to the first pixel coordinate and the second pixel coordinate.
  • a third aspect of the present invention provides an electronic device with a touch screen, comprising: a touch screen, configured to collect first capacitive sensing data of the first palm after being pressed by the first palm of the user; and an analog to digital conversion module connected to the touch screen, The first capacitive sensing data is used for analog-to-digital conversion to obtain a first hand pattern of the first palm; the processing module is coupled to the analog-to-digital conversion module for acquiring the first palm according to the first hand pattern And a storage module, configured to be connected to the processing module, configured to store the first feature data of the first palm as a key of the electronic device; wherein the processing module further locks the electronic device by using the key.
  • the processing module further identifies, according to the first hand pattern, that the first palm is a left hand or a right hand, and the processing module is further configured to acquire, according to the first hand pattern, the length of each finger of the first palm, the middle finger of the first palm to the first At least one of the distance between the center of the palm root of the palm and the width of the first palm is used as the first feature data.
  • the touch screen further collects the second capacitive sensing data of the second palm after being pressed by the second palm of the user, and the analog-to-digital conversion module performs analog-to-digital conversion on the second capacitive sensing data to obtain the second hand of the second palm.
  • a processing module configured to acquire second feature data of the second palm according to the second hand pattern, and the processing module further compares the second feature data with the first feature data, if the second feature data is consistent with the first feature data , unlock the electronic device.
  • the processing module further identifies, according to the second hand pattern, that the second palm is a left hand or a right hand, and the processing module further acquires the length of each finger of the second palm and the middle finger of the second palm to the second palm according to the second hand map. At least one of the distance between the center of the palm root and the width of the second palm is used as the second feature data.
  • the beneficial effects of the present invention are: different from the prior art, the locking method of the electronic device with the touch screen of the present invention acquires the capacitive sensing data collected by the touch screen of the user's palm, and then the capacitive sensing data.
  • Performing an analog-to-digital conversion to obtain a hand map of the palm acquiring feature data of the palm according to the hand map, thereby storing the feature data as a key of the electronic device, and using the key to lock the electronic device, thereby realizing the use of the collected living body
  • the feature data of the palm is used as the key of the electronic device, and no additional device is needed, so that the encryption of the electronic device is low, and since the feature data of the palm is easy to collect and recognize, the locking and unlocking operations of the electronic device are relatively simple and convenient. .
  • FIG. 1 is a schematic structural view of an electronic device with a touch screen according to a first embodiment of the present invention
  • FIG. 2 is a schematic diagram of a touch electrode distribution of a touch screen of the electronic device of FIG. 1;
  • FIG. 3 is a schematic diagram showing changes in capacitance values of the touch screen of the electronic device of FIG. 1 before and after being pressed by the palm;
  • FIG. 4 is a schematic diagram of a hand obtained after the touch screen of the electronic device of FIG. 1 is pressed by a palm;
  • FIG. 5 is a schematic flow chart of a locking method of an electronic device with a touch screen according to a second embodiment of the present invention.
  • FIG. 6 is a schematic flow chart of an unlocking method of an electronic device with a touch screen according to a third embodiment of the present invention.
  • the present application proposes an electronic device with a touch screen and a locking method and an unlocking method thereof, which can lock and unlock the electronic device in a low-cost and easy-to-operate manner without adding additional devices.
  • FIG. 1 is a schematic structural diagram of an electronic device with a touch screen according to a first embodiment of the present invention.
  • the electronic device 1 with a touch screen of the present embodiment includes a touch screen 11 , an analog-to-digital conversion module 12 , a processing module 13 , and a storage module 14 that are sequentially connected.
  • the touch screen 11 is configured to collect the first capacitive sensing data of the first palm after being pressed by the first palm of the user.
  • the analog to digital conversion module 12 is configured to perform analog to digital conversion on the first capacitive sensing data to obtain a first hand pattern of the first palm.
  • the processing module 13 is configured to acquire first feature data of the first palm according to the first hand pattern.
  • the storage module 14 is configured to store the first feature data of the first palm as a key of the electronic device 1, and the processing module 13 further uses the key to lock the electronic device 1.
  • the first feature data of the first palm is acquired in the following manner.
  • the touch screen 11 adopts a capacitive touch screen, and the distribution of the touch electrodes of the capacitive touch screen 11 when not touched is as shown in FIG. 2 .
  • the capacitance change occurs in the area covered by the palm where the electrodes intersect. As shown in FIG.
  • the capacitance value of the touch screen 11 before being pressed by the palm is C0, when the palm presses When the touch screen 11 is touched, the capacitance value of the position pressed by the palm becomes C1, and the touch screen 11 collects the change value ⁇ C of the capacitance of the node covered by the palm as the first capacitive sensing data of the first palm, wherein .
  • the analog-to-digital conversion module 12 of the electronic device 1 acquires the first capacitive sensing data from the touch screen 11 and performs analog-to-digital conversion on the first capacitive sensing data to obtain the first hand of the first palm.
  • the type diagram, the hand pattern is shown in Figure 4.
  • the processing module 13 acquires the first feature data of the first palm according to the first hand pattern, wherein the processing module 13 acquires the following information of the first palm as the first feature data: first, according to the shape feature of the first hand graphic It is recognized that the first palm is a left hand or a right hand, and the first palm is generally identified as a left hand or a right hand according to the positional feature of the thumb in the first hand map.
  • the processing module 13 further acquires the length of each finger in the first palm, the distance from the middle finger to the center of the palm root of the palm, and the width of the first palm according to the first hand pattern, and the lengths are in resolution (pixels).
  • the length is used as a measurement standard.
  • the processing module 13 acquires the first pixel coordinate of the first feature point of the first palm, and acquires the second pixel coordinate of the second feature point of the first palm, according to the first pixel coordinate and The distance between the first feature point and the second feature point is obtained by the second pixel coordinate.
  • the pixel coordinate of the top finger of the middle finger of the processing module 13 is (m1, n1)
  • the pixel coordinate of the center of the root of the palm is (m2, n2). Then the distance b from the middle finger to the center of the palm of the palm is expressed as:
  • the storage module 14 stores the first feature data of the first palm as the key of the electronic device 1.
  • the processing module 13 uses at least one or a combination of the above-described feature data as a key of the electronic device 1, for example, using the middle finger length a1 as a key.
  • all the data of the first feature data may be used as a key, that is, the length of each finger in the first palm, the distance from the middle finger to the center of the palm of the palm, and the width of the palm are taken as The feature data of the key locks the electronic device 1.
  • the touch screen 11 further collects the second capacitive sensing data of the second palm after being pressed by the second palm of the user.
  • the first palm in the present application refers to the palm of the user pressing the touch screen 11 when collecting the key as the electronic device 1
  • the second palm refers to pressing the touch screen 11 when the user needs to unlock the electronic device 1.
  • the palm, the first and second here do not have practical meaning.
  • the analog to digital conversion module 12 performs analog to digital conversion on the second capacitive sensing data to obtain a second hand pattern of the second palm.
  • the processing module 13 acquires the second feature data of the second palm according to the second hand pattern, wherein the processing module 13 acquires the second feature data of the second palm in the same manner as the first feature data of the first palm, and does not Let me repeat.
  • the processing module 13 further compares the second feature data with the first feature data, and if the second feature data is consistent with the first feature data, unlocking the electronic device 1.
  • the processing module 13 compares the second feature data with the first feature data one by one. When the second feature data and the first feature data all match, when the electronic device 1 is unlocked, the electronic device 1 enters a normal use interface; When the first feature data of the second feature data fails to be completely matched, the processing module 13 performs a reminder through the touch screen 11, and the reminder may be through a voice broadcast, a text prompt, or the like.
  • the electronic device 1 of the embodiment acquires the first capacitive sensing data of the first palm collected by the first palm of the user through the touch screen 11, and the analog-to-digital conversion module 12 performs analog-to-digital conversion on the first capacitive sensing data.
  • the processing module 13 acquires the first feature data of the first palm according to the first hand pattern
  • the storage module 14 stores the first feature data as the key of the electronic device 1, and processes The module 13 further uses the key to lock the electronic device 1.
  • the unlocking of the electronic device 1 is also acquiring feature data of the palm by using the collected second feature data of the second palm and the first feature data of the first palm. For comparison, when the comparison result is consistent, the electronic device is unlocked, so that the locking and unlocking of the electronic device 1 is realized simply, and the addition of additional devices is not increased, and the encryption cost is reduced.
  • FIG. 5 is a schematic flow chart of a locking method of an electronic device with a touch screen according to a second embodiment of the present invention, which is explained based on the electronic device with a touch screen according to the above embodiment.
  • the locking method of this embodiment includes:
  • S11 The electronic device 1 is in an open state, prompting the user to set a key.
  • the electronic device 1 is an electronic device having a capacitive touch screen. If the key is not yet set, the setting key can be manually selected by the user or the user, for example, the electronic device 1 automatically pops up a window for setting a key. If the user clicks on the window and selects "Yes”, the key setting interface is entered. If the user selects "No", the encryption lock is not performed, and the device 1 enters the normal operation interface. If the electronic device 1 already has a key, the user is prompted to enter a password or a corresponding key, which is described in detail in the next embodiment and will not be described in detail herein.
  • S12 Acquire capacitive sensing data acquired after the touch screen 11 is pressed by the palm of the user.
  • the electronic device 1 After the user selects "Yes", the electronic device 1 performs a key setting interface. At this time, the interface of the electronic device 1 may be in a floating blank state.
  • the capacitance of the touch screen 11 The value of the electronic device 1 acquires the capacitive sensing data of the touch screen 11, wherein the capacitive sensing data refers to the change value ⁇ C of the capacitance.
  • C0 is a capacitance value before the touch screen 11 is pressed by the palm of the user
  • C1 is a capacitance value before the touch screen 11 is pressed by the palm of the user.
  • the capacitive sensing data collected by the palms of the plurality of users after pressing the touch screen 11 can also be collected and stored separately.
  • the analog-to-digital conversion module 12 performs analog-to-digital conversion on the capacitive sensing data to obtain a hand map of the palm, as shown in FIG. 4 .
  • S14 Acquire feature data of the palm according to the hand map.
  • the processing module 13 acquires the feature data of the palm according to the characteristics of the hand map, including: recognizing the palm as a left hand or a right hand according to the position of the thumb of the palm, acquiring the length of each finger of the palm, the middle finger of the palm to the palm of the palm The distance from the center of the root and the width of the palm. In other embodiments, the distance from each finger to the center of the palm of the palm or other feature data of the palm may also be obtained, and at least one of the data or a combination of these data may be obtained as feature data of the palm as the identification of the palm. Unique identification information.
  • the length of the pixel of the touch screen 11 can be used as a test standard, thereby obtaining data such as the length of each finger in the palm, the distance from the middle finger to the center of the palm of the palm, and the width of the palm.
  • the first pixel coordinate of the first feature point of the palm and the second pixel coordinate of the second feature point are obtained, and the first feature point and the second feature point are obtained according to the first pixel coordinate and the second pixel coordinate. the distance.
  • the above-described feature data is used as a key of the electronic device 1, and is stored in a key register of the electronic device 1.
  • it is generally the length of each finger of the acquired palm, the distance of the middle finger of the palm to the center of the palm of the palm, and the acquisition of all data in the width of the palm.
  • the device 1 is locked as a key of the electronic device 1.
  • all the feature data in the palm that must be unlocked is matched with the feature data in the key to unlock, thereby improving the encryption security of the electronic device 1.
  • the key of the electronic device 1 can be changed and changed at any time as needed to make the information of the electronic device 1 more secure, and the key is not easily cracked.
  • S16 The electronic device 1 is locked by using a key.
  • the electronic device 1 is locked using the stored key.
  • the three parameters of the distance from the center of the palm to the center of the palm of the palm, the length of each finger, and the width of the palm are used as the feature data of the key.
  • the electronic device 1 needs to decrypt the key when booting to enter the corresponding interface.
  • the key may also be locked for an application or an event or an operator interface.
  • the keys corresponding to different users can be set, so that the same electronic device 1 can be used by a designated plurality of users, and each user can only enter the corresponding operation interface to protect different users. Personal information.
  • the locking method of the electronic device 1 of the present embodiment locks the electronic device 1 only by collecting the feature data of the living body palm as a key, and the locking method is simple and easy to operate, and the encryption of the electronic device 1 is reduced without adding additional devices. Achieve costs.
  • FIG. 6 is a schematic flowchart of a method for unlocking an electronic device with a touch screen according to a third embodiment of the present invention. After the electronic device 1 is locked in the above embodiment, when the electronic device 1 is used, the electronic device 1 needs to be unlocked.
  • the unlocking method of this embodiment includes:
  • S21 The electronic device 1 is in an on state, and detects whether the touch screen 11 is triggered.
  • the electronic device 1 presets a time threshold. When the electronic device 1 is in the on state but is not unlocked, within the time threshold, the touch screen 11 continuously scans to identify whether the touch screen 11 is touched. When the touch screen 11 does not detect that it is touched, it proceeds to step S22. When the touch screen 11 detects that it is touched, it proceeds to step S23.
  • the touch screen 11 of the electronic device 1 when the touch screen 11 of the electronic device 1 does not detect being touched within the time threshold, the device 1 directly enters a sleep state to reduce power consumption. And in the next time period, the touch screen 11 continues to detect whether it is touched.
  • S23 Acquire capacitive sensing data acquired after the touch screen 11 is pressed by the palm of the user.
  • the capacitive sensing data collected by the touch screen 11 after being pressed by the palm of the user is acquired.
  • the touch screen 11 is detected to be touched within the time threshold, and the electronic device 1 prompts the user to press the palm on the touch screen 11, for example, the touch screen 11 pops up a hand shape to prompt the user to view the hand image. Pressing the palm in the shape, if the hand shape is not detected by the palm within the preset time threshold, the electronic device 1 continues to sleep, and the electronic device 1 determines that the user's touch on the touch screen 11 is an erroneous touch, and the electronic device 1 Without relevant processing, the sleep state is continued, thereby preventing the user from collecting the data of the touch screen 11 when the user touches the electronic device 1 and reducing the power consumption.
  • S24 Perform analog-to-digital conversion on the capacitive sensing data to obtain a hand map of the palm.
  • S25 Acquire feature data of the palm according to the hand map.
  • the steps S24-S25 are similar to the steps S13-S14, and are not described herein.
  • S26 Compare the feature data with the key to determine whether the feature data is consistent with the key.
  • the feature data in the acquired key is compared with the feature data of the current palm one by one. If the feature data of the current palm matches the feature data of the key, the process proceeds to step S27. If the feature data of the current palm does not match the feature data of the key, the process proceeds to step S28.
  • the electronic device 1 further stores a determination error threshold. If the error between the feature data of the current key and the feature data of the current palm is within the error threshold range, the process proceeds to step S27. If the error of the feature data of the current key and the feature data of the current palm exceeds the error threshold range, then step S28 is reached.
  • the feature data is respectively compared with the keys of different users. If the feature data of the current palm is consistent with the key of a certain user, then The process proceeds to step S27 to unlock the electronic device 1. If the feature data does not match the key stored in the electronic device 1, then the process proceeds to step S28.
  • the electronic device 1 When the feature data of the current user's palm matches the feature data of the key, the electronic device 1 is unlocked. Alternatively, when the error of the feature data of the current user's palm and the feature data of the key is within the error threshold range, the electronic device 1 is unlocked. Alternatively, when the feature data of the current user's palm coincides with the feature data of a certain key in the key register, the electronic device 1 is unlocked.
  • S28 The feature data is inconsistent with the key, and prompts the user to input the correct unlocking key.
  • the electronic device 1 If the feature data of the palm of the current user is inconsistent with the feature data of the key, or the error of the feature data of the current user's palm and the feature data of the key is not within the error threshold range, the electronic device 1 prompts the current key error. Need to re-enter.
  • the electronic device 1 may preset the number of times of unlocking input. If the number of times the user enters the preset number of unlocking inputs within the preset time threshold, and the feature data of the feature and the key still do not match, the electronic device 1 temporarily performs the electronic device 1 . After the lock exceeds the preset time threshold, the key can be re-entered to prevent the electronic device 1 from continuously comparing the feature data and reducing the power consumption of the device 1.
  • the invention also discloses an electronic device comprising: a touch screen, a processor, a memory and a bus, wherein the touch screen, the processor and the memory are respectively connected to the bus, the memory is used for storing a program, and the processor is used to execute the program.
  • the program is used to:
  • Obtaining feature data of the first palm according to the first hand pattern including:
  • the feature data is at least one or a combination of a length of each finger of the palm, a distance of a middle finger of the palm to a center of the palm of the palm, and a width of the palm;
  • the electronic device is locked using the above key.
  • the program is further used to:
  • the electronic device is unlocked.
  • the locking method of the electronic device 1 with the touch screen 11 of the present invention acquires the capacitive sensing data collected by the touch panel 11 after being pressed by the palm of the user, and then performs analog-to-digital conversion on the capacitive sensing data to obtain the hand shape of the palm.
  • the feature data of the palm is acquired, thereby storing the feature data as a key of the electronic device 1, and the electronic device 1 is locked by using the key, thereby realizing utilizing the feature data of the collected living body palm as an electronic device.
  • the key of 1 does not need to add an additional device, so that the encryption of the electronic device is low in cost, and since the feature data of the palm is easy to collect and recognize, the operation of locking and unlocking the electronic device 1 is relatively simple and convenient.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Human Computer Interaction (AREA)
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  • User Interface Of Digital Computer (AREA)

Abstract

本发明公开了一种具有触摸屏的电子设备及其锁定方法和解锁方法,其中锁定方法包括:获取触摸屏被用户的手掌按压后采集的电容传感数据,对电容传感数据进行模数转换以获得手掌的手型图,根据手型图获取手掌的特征数据,存储该特征数据作为电子设备的密钥,利用该密钥对电子设备进行锁定。通过上述方式,本发明的电子设备仅通过采集活体手掌的特征数据作为电子设备的密钥,无需添加额外的器件,降低设备的加密实现成本,并且,手掌的特征数据易于采集和辨认,使得对电子设备的锁定和解锁便于实现

Description

具有触摸屏的电子设备及其锁定方法和解锁方法
【技术领域】
本发明涉及信息识别领域,特别是涉及一种具有触摸屏的电子设备及其锁定方法和解锁方法。
【背景技术】
随着智能互联网的推进,越来越多的智能设备加入到局域网中。目前大多智能设备都采用触摸屏控制,以方便操作。如今,对智能设备的触摸屏的加密解锁方法有多种,如指纹识别、密码输入等。但是采用指纹识别的方法,解锁虽然简单,但是指纹录入复杂,且需要增加额外的器件以录入指纹,增加设备成本。而采用密码输入的方式,无需增加硬件成本,但是解锁时需要输入密码,操作较为麻烦,并且需要记忆密码,防止密码记忆错误导致不能解锁。因此,亟需提出一种不增加设备成本的电子设备,并且该电子设备的锁定方法操作简单,并能快速解锁。
【发明内容】
本发明提供一种具有触摸屏的电子设备及其锁定方法和解锁方法,实现利用手掌的特征数据作为电子设备的密钥对电子设备进行锁定,并通过采集当前用户手掌的特征数据与密钥进行比较,在特征数据与密钥一致时对电子设备进行解锁,操作简单快捷,且不增加额外的硬件成本。
本发明的一方面提供一种锁定方法,用于具有触摸屏的电子设备,该锁定方法包括:获取触摸屏被用户的手掌按压后采集的电容传感数据,对电容传感数据进行模数转换以获得手掌的手型图,根据手型图获取手掌的特征数据,存储特征数据作为电子设备的密钥,利用密钥对电子设备进行锁定。
其中,根据手型图获取手掌的特征数据的步骤包括:识别手掌为左手或右手,获取手掌的各个手指的长度、手掌的中指到手掌的掌根部中心的距离以及获取手掌的宽度中的至少一个或组合作为特征数据。
其中,获取手掌的各个手指的长度、手掌的中指到手掌的掌根部中心的距离以及获取手掌的宽度中的至少一个或组合作为特征数据的步骤包括:获取手掌的第一特征点的第一像素坐标,获取手掌的第二特征点的第二像素坐标,根据第一像素坐标及第二像素坐标获得第一特征点与第二特征点之间的距离。
本发明的另一方面提供一种解锁方法,用于具有触摸屏的电子设备,该解锁方法包括:获取触摸屏被用户的手掌按压后采集的电容传感数据,对电容传感数据进行模数转换以获得手掌的手型图,根据手型图获取手掌的特征数据,获取电子设备的密钥,将特征数据与密钥进行比较,判断特征数据与密钥是否一致,若特征数据与密钥一致,则对电子设备进行解锁。
其中,根据手型图获取手掌的特征数据的步骤包括:识别手掌为左手或右手,获取手掌的各个手指的长度、手掌的中指到手掌的掌根部中心的距离以及获取手掌的宽度中的至少一个或组合作为特征数据。
其中,获取手掌的各个手指的长度、手掌的中指到手掌的掌根部中心的距离以及获取手掌的宽度中的至少一个或组合作为特征数据的步骤包括:获取手掌的第一特征点的第一像素坐标,获取手掌的第二特征点的第二像素坐标,根据第一像素坐标及第二像素坐标获得第一特征点与第二特征点之间的距离。
本发明的第三方面提供一种具有触摸屏的电子设备,包括:触摸屏,用于被用户的第一手掌按压后采集第一手掌的第一电容传感数据;模数转换模块,与触摸屏连接,用于将第一电容传感数据进行模数转换,以获得第一手掌的第一手型图;处理模块,与模数转换模块连接,用于根据第一手型图获取第一手掌的第一特征数据;存储模块,与处理模块连接,用于存储第一手掌的第一特征数据作为电子设备的密钥;其中,处理模块进一步利用密钥对电子设备进行锁定。
其中,处理模块还根据第一手型图识别出第一手掌为左手或右手,处理模块还用于根据第一手型图获取第一手掌的各个手指的长度、第一手掌的中指到第一手掌的掌根部中心的距离及第一手掌的宽度中的至少一个作为第一特征数据。
其中,触摸屏进一步在被用户的第二手掌按压后采集第二手掌的第二电容传感数据,模数转换模块将第二电容传感数据进行模数转换,以获得第二手掌的第二手型图,处理模块用于根据第二手型图获取第二手掌的第二特征数据,处理模块进一步将第二特征数据与第一特征数据进行比较,若第二特征数据与第一特征数据一致,则对电子设备进行解锁。
其中,处理模块还根据第二手型图识别出第二手掌为左手或右手,处理模块进一步根据第二手型图获取第二手掌的各个手指的长度、第二手掌的中指到第二手掌的掌根部中心的距离及第二手掌的宽度中的至少一个作为第二特征数据。
通过上述方案,本发明的有益效果是:区别于现有技术,本发明的具有触摸屏的电子设备的锁定方法通过获取触摸屏被用户的手掌按压后采集的电容传感数据,进而对电容传感数据进行模数转换获得手掌的手型图,根据该手型图获取手掌的特征数据,从而存储该特征数据作为电子设备的密钥,利用该密钥对电子设备进行锁定,从而实现利用采集的活体手掌的特征数据作为电子设备的密钥,无需添加额外的器件,使得电子设备的加密成本低廉,并且,由于手掌的特征数据易于采集和辨认,使得电子设备的锁定和解锁的操作都较为简单便捷。
【附图说明】
图1是本发明第一实施例的具有触摸屏的电子设备的结构示意图;
图2是图1中的电子设备的触摸屏的触控电极分布示意图;
图3是图1中的电子设备的触摸屏被手掌按压前后的电容值变化示意图;
图4是图1中的电子设备的触摸屏被手掌按压后获得的手型示意图;
图5是本发明第二实施例的具有触摸屏的电子设备的锁定方法流程示意图;
图6是本发明第三实施例的具有触摸屏的电子设备的解锁方法流程示意图。
【具体实施方式】
为了使本发明所要解决的技术问题、技术方案及有益效果更加清楚、明白,以下结合附图和实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。
现今带有触摸屏的电子设备应用越来越广泛,通常采用以触摸为主的智能人机交换的方式,而考虑个人信息的安全,电子设备通常都会进行加密锁定,目前常用的是密码输入或指纹录入两种方式,但密码输入需要记忆密码,并且操作较为繁琐,而指纹录入需要电子设备增加额外的器件,增加成本。本申请提出一种具有触摸屏的电子设备及其锁定方法和解锁方法,无需增加额外器件,实现以低成本、易操作的方式对电子设备进行锁定和解锁。
请参看图1至图4,图1是本发明第一实施例的具有触摸屏的电子设备的结构示意图。如图1所示,本实施的具有触摸屏的电子设备1包括依次连接的触摸屏11、模数转换模块12、处理模块13及存储模块14。其中,触摸屏11用于被用户的第一手掌按压后采集该第一手掌的第一电容传感数据。模数转换模块12用于将该第一电容传感数据进行模数转换,以获得第一手掌的第一手型图。处理模块13用于根据第一手型图获取第一手掌的第一特征数据。存储模块14用于存储该第一手掌的第一特征数据作为电子设备1的密钥,处理模块13进一步利用该密钥对电子设备1进行锁定。
在本实施例中,通过以下方式获取第一手掌的第一特征数据。触摸屏11采用电容式触摸屏,电容式触摸屏11的触控电极在未被触摸时的分布如图2所示。当用户的手掌按压在触摸屏11的时候,被手掌所覆盖的区域存在电极相交的地方将会出现电容变化,如图3所示,触摸屏11在被手掌按压之前的电容值为C0,当手掌按压触摸屏11时,被手掌按压的位置的电容值变为C1,那么触摸屏11采集被手掌覆盖的节点的电容的变化值△C作为第一手掌的第一电容传感数据,其中 。
在本实施例中,电子设备1的模数转换模块12从触摸屏11处获取第一电容传感数据,并将该第一电容传感数据进行模数转换,以获得第一手掌的第一手型图,该手型图如图4所示。处理模块13根据该第一手型图获取第一手掌的第一特征数据,其中,处理模块13获取第一手掌的以下信息作为第一特征数据:第一,根据第一手型图的形状特征识别出该第一手掌为左手或右手,通常是根据第一手型图中大拇指的位置特征识别出该第一手掌为左手或右手。第二,处理模块13还根据该第一手型图获取第一手掌中各个手指的长度、中指到手掌的掌根部中心的距离以及第一手掌的宽度,这些长度均是以分辨率(像素)长度作为测量标准的。在本实施例中,采用的是处理模块13获取第一手掌的第一特征点的第一像素坐标,并获取第一手掌的第二特征点的第二像素坐标,根据该第一像素坐标和第二像素坐标获得第一特征点与第二特征点之间的距离,例如,处理模块13获取中指顶尖的像素坐标为(m1,n1),手掌根部中心的像素坐标为(m2,n2),那么中指到手掌的掌根部中心的距离b表示为:
类似的,采用上述方法获取5个手指的长度和手掌的宽度,其中,图4中所示的是,中指长度a1、中指到手掌的掌根部中心的距离b及手掌的宽度c。在本实施例中,存储模块14存储该第一手掌的第一特征数据作为电子设备1的密钥。处理模块13采用上述特征数据中的至少一个或组合作为电子设备1的密钥,例如,采用中指长度a1作为密钥。在其他实施例中,为了提高密钥的安全度,可以采用第一特征数据的所有数据作为密钥,即将第一手掌中各个手指的长度、中指到手掌的掌根部中心的距离及手掌宽度作为密钥的特征数据对电子设备1进行锁定。
进一步地,利用第一手掌的第一特征数据作为密钥对电子设备1进行锁定后,在使用该电子设备1时,还需要对该电子设备1进行解锁。因此,触摸屏11进一步在被用户的第二手掌按压后采集第二手掌的第二电容传感数据。这里注意一下,本申请中的第一手掌是指采集作为电子设备1的密钥时用户按压触摸屏11的手掌,第二手掌是指当用户需要对电子设备1进行解锁时按压在按压触摸屏11的手掌,这里的第一、第二并不具有实际含义。模数转换模块12将第二电容传感数据进行模数转换,以获得第二手掌的第二手型图。处理模块13根据第二手型图获取第二手掌的第二特征数据,其中,处理模块13获取第二手掌的第二特征数据与获取第一手掌的第一特征数据的方式一样,在此不再赘述。
其中,处理模块13进一步将第二特征数据与第一特征数据进行比较,若第二特征数据与第一特征数据一致,则对电子设备1进行解锁。其中,处理模块13将第二特征数据与第一特征数据进行逐一比对,当第二特征数据与第一特征数据全部匹配时,当对电子设备1进行开锁,电子设备1进入正常使用界面;当第二特征数据第一特征数据未能完全匹配时,处理模块13通过触摸屏11进行提醒,提醒可以通过语音广播、或文字提示等。
综上,本实施例的电子设备1通过触摸屏11获取用户的第一手掌按压后采集的第一手掌的第一电容传感数据,模数转换模块12将第一电容传感数据进行模数转换,获得第一手掌的第一手型图,处理模块13根据第一手型图获取第一手掌的第一特征数据,进而存储模块14存储该第一特征数据作为电子设备1的密钥,处理模块13进一步利用该密钥对电子设备1进行锁定,此外,电子设备1的解锁同样是采集手掌的特征数据,通过将采集的第二手掌的第二特征数据与第一手掌的第一特征数据进行比较,在比较结果一致时,进行对电子设备进行解锁,从而使得电子设备1的锁定和解锁实现简单,并且不增加添加额外的器件,降低加密成本。
请参看图5,图5是本发明第二实施例的具有触摸屏的电子设备的锁定方法流程示意图,其是基于上述实施例的具有触摸屏的电子设备进行阐述的。如图5所示,本实施例的锁定方法包括:
S11:电子设备1处于开启状态,提示用户设置密钥。
其中,电子设备1为具有电容触摸屏的电子设备,在处于开启状态时,如果还没有设置密钥的,可以通过自动或用户手动选择设置密钥,如电子设备1自动弹出设置密钥的窗口,如果用户点击窗口选择“是”,则进入密钥设置界面,如果用户选择“否”,则不进行加密锁定,设备1进入正常的操作界面。如果电子设备1已经设有密钥的,则提示用户输入密码或相应的密钥,这在下一实施例中详细描述,在此不作具体描述。
S12:获取触摸屏11被用户的手掌按压后采集的电容传感数据。
其中,当用户选择“是”后,电子设备1进行密钥设置界面,此时电子设备1的界面可以是悬浮空白状态的,当用户的手掌按压电子设备1的触摸屏11时,触摸屏11的电容值将发生变化,电子设备1获取触摸屏11的电容传感数据,其中电容传感数据指的是电容的变化值△C, ,C0为触摸屏11未被用户的手掌按压前的电容值,C1为触摸屏11被用户的手掌按压前的电容值。在其他实施例中,还可以采集多个用户的手掌按压触摸屏11后采集的电容传感数据,并分别存储。
S13:对电容传感数据进行模数转换以获得手掌的手型图。
其中,模数转换模块12对该电容传感数据进行模数转换以获得手掌的手型图,如图4所示。
S14:根据手型图获取手掌的特征数据。
其中,处理模块13根据该手型图的特点获取手掌的特征数据,包括:根据手掌的大拇指的位置识别出手掌为左手或右手,获取手掌的各个手指的长度、手掌的中指到手掌的掌根部中心的距离以及获取手掌的宽度。在其他实施例中,还可以获取各个手指到手掌的掌根部中心的距离或手掌的其他特征数据,将获得这些数据中的至少一个或组合作为手掌的特征数据,这些特征数据作为识别该手掌的唯一识别信息。
在本实施例中,可以根据触摸屏11的像素长度作为测试标准,从而获得上述的手掌中各个手指的长度、中指到手掌的掌根部中心的距离以及获取手掌的宽度等数据。其中采用的方式是获取手掌的第一特征点的第一像素坐标和第二特征点的第二像素坐标,根据第一像素坐标和第二像素坐标获得第一特征点和第二特征点之间的距离。
S15:存储特征数据作为电子设备1的密钥。
其中,将上述特征数据作为电子设备1的密钥,并且存储在电子设备1的密钥寄存器中。为了提高电子设备1的密钥的安全度,通常是将获取到的手掌的各个手指的长度、所述手掌的中指到所述手掌的掌根部中心的距离以及获取所述手掌的宽度中所有数据作为电子设备1的密钥对设备1进行锁定。在解锁时,必须解锁的手掌中的所有的特征数据都与密钥中的特征数据进行匹配才能解锁,以此提高电子设备1的加密安全度。此外,电子设备1的密钥可以根据需要随时更改、变换,以使得电子设备1的信息更加安全,密钥不容易被破解。
S16:利用密钥对电子设备1进行锁定。
其中,使用存储的密钥对电子设备1进行锁定,这里是指利用手掌的中指到手掌的根部中心的距离、各个手指的长度和手掌的宽度这三个参数作为密钥的特征数据。使得电子设备1在开机时需要对密钥进行解密才能进入相应的界面。在其他实施例中,密钥也可以是针对某个应用程序或某个事件或某个操作界面进行锁定。并且,如果存在不同用户,则可以设置不同用户各自对应的密钥,这样使得同一个电子设备1可以供指定的多人使用,并且各个用户只能进入到各自相应的操作界面,以保护不同用户的个人信息。
综上,本实施例的电子设备1的锁定方法仅通过采集活体手掌的特征数据作为密钥进行锁定电子设备1,其锁定方法操作简便,并且无需增加额外的器件,降低了电子设备1的加密实现成本。
请进一步参看图6,图6是本发明第三实施例的具有触摸屏的电子设备的解锁方法流程示意图。其是在上述实施例中对电子设备1进行锁定后,在使用该电子设备1时,需要对该电子设备1进行解锁的基础上进行阐述的。本实施例的解锁方法包括:
S21:电子设备1处于开启状态,检测触摸屏11是否被触发。
其中,电子设备1预设一时间阈值,当电子设备1处于开启状态但未被解锁时,在时间阈值内,触摸屏11不断进行扫描,以识别触摸屏11是否被触摸。当触摸屏11未检测到被触摸时,则进入步骤S22。当触摸屏11检测到被触摸时,则进入步骤S23。
S22:在时间阈值内,触摸屏11没有检测到被触摸,电子设备1进入休眠状态。
其中,在时间阈值内电子设备1的触摸屏11没有检测到被触摸则设备1直接进入休眠状态,以减少功耗。并在下一个时间周期,触摸屏11继续检测是否被触摸。
S23:获取触摸屏11被用户的手掌按压后采集的电容传感数据。
其中,在时间阈值内,触摸屏11检测到被触摸,则获取触摸屏11被用户的手掌按压后采集的电容传感数据。
在其他实施例中,还可以在时间阈值内,触摸屏11检测到被触摸,则电子设备1提示用户在触摸屏11上按压手掌,例如触摸屏11弹出一个手型图状,提示用户在该手型图状内按压手掌,如果在预设的时间阈值内,没有检测到被手掌按压该手型图状,则电子设备1继续休眠,电子设备1判断用户对触摸屏11的触摸为误触摸,电子设备1不作相关处理,继续保持休眠状态,以此避免用户误触摸电子设备1时采集触摸屏11的数据,降低功耗。
S24:对电容传感数据进行模数转换以获得手掌的手型图。
S25:根据手型图获取手掌的特征数据。
其中,步骤S24-S25与步骤S13-S14类似,在此不作赘述。
S26:将特征数据与密钥进行比较,判断特征数据与密钥是否一致。
其中,将获取的密钥中的特征数据与当前手掌的特征数据进行逐一比较,如果当前手掌的特征数据与密钥的特征数据一致时,则进入步骤S27。如果当前手掌的特征数据与密钥的特征数据不一致,则进入步骤S28。
其中,电子设备1还存储有一判定误差阈值,如果当前密钥的特征数据与当前手掌的特征数据的误差在误差阈值范围内,则进入步骤S27。如果当前密钥的特征数据与当前手掌的特征数据的误差超出误差阈值范围,则进入步骤S28。
在其他实施例中,当电子设备1存在多个不同用户的密钥时,则将特征数据分别与不同用户的密钥进行比较,如果当前手掌的特征数据与某一用户的密钥一致,则进入步骤S27对电子设备1进行解锁。如果特征数据与电子设备1中存储的密钥均不匹配时,则进入步骤S28。
S27:特征数据与密钥一致,对电子设备1进行解锁。
其中,在当前用户手掌的特征数据与密钥的特征数据一致时,则对电子设备1进行解锁。或者,在当前用户手掌的特征数据与密钥的特征数据的误差在误差阈值范围内时,则对电子设备1进行解锁。又或者,当前用户手掌的特征数据与密钥寄存器中的某个密钥的特征数据一致时,则对电子设备1进行解锁。
S28:特征数据与密钥不一致,提示用户输入正确的解锁密钥。
如果当前用户的手掌的特征数据与密钥的特征数据不一致、或当前用户的手掌的特征数据与密钥的特征数据的误差不在误差阈值范围内时,则电子设备1提示当前的密钥错误,需要重新输入。在其他实施例中,电子设备1可以预设解锁输入次数,如果用户在预设时间阈值内输入次数达到预设解锁输入次数,特征与密钥的特征数据仍不一致时,则电子设备1暂时进行锁定,等超过预设时间阈值后,方可重新输入密钥,以避免电子设备1不断进行特征数据的比较,降低设备1的功耗。
本发明还公开一种电子设备,包括:触摸屏、处理器、存储器及总线,其中,触摸屏、处理器及存储器分别与总线连接,存储器用于存储程序,处理器用于执行该程序。其中,程序用于:
获取触摸屏被用户的第一手掌按压后采集的第一电容传感数据;
对第一电容传感数据进行模数转换以获得第一手掌的第一手型图;
根据第一手型图获取第一手掌的特征数据,包括:
识别第一手掌为左手或右手;
获取第一手掌的第一特征点的第一像素坐标;
获取第一手掌的第二特征点的第二像素坐标;
根据第一像素坐标及第二像素坐标获得第一特征点与第二特征点之间的距离。
其中,上述特征数据为手掌的各个手指的长度、手掌的中指到所述手掌的掌根部中心的距离以及手掌的宽度中的至少一个或组合;
存储上述特征数据作为电子设备的密钥;
利用上述密钥对电子设备进行锁定。
其中,程序进一步用于:
获取电子设备的密钥;
获取被用户的第二手掌按压后采集第二手掌的第二电容传感数据,将第二电容传感数据进行模数转换,获得第二手掌的第二手型图,并根据第二手型图获取第二手掌的第二特征数据,
将第二手掌的第二特征数据与密钥进行比较,判断特征数据与密钥是否一致;
若特征数据与密钥一致,则对电子设备进行解锁。
综上所述,本发明的具有触摸屏11的电子设备1的锁定方法通过获取触摸屏11被用户的手掌按压后采集的电容传感数据,进而对电容传感数据进行模数转换获得手掌的手型图,根据该手型图获取手掌的特征数据,从而存储该特征数据作为电子设备1的密钥,利用该密钥对电子设备1进行锁定,从而实现利用采集的活体手掌的特征数据作为电子设备1的密钥,无需添加额外的器件,使得电子设备的加密成本低廉,并且,由于手掌的特征数据易于采集和辨认,使得电子设备1的锁定和解锁的操作都较为简单便捷。
以上参照附图说明了本发明的优选实施例,并非因此局限本发明的权利范围。本领域技术人员不脱离本发明的范围和实质内所作的任何修改、等同替换和改进,均应在本发明的权利范围之内。

Claims (10)

  1. 一种锁定方法,所述锁定方法用于具有触摸屏的电子设备,其中,所述锁定方法包括:
    获取所述触摸屏被用户的手掌按压后采集的电容传感数据;
    对所述电容传感数据进行模数转换以获得所述手掌的手型图;
    根据所述手型图获取所述手掌的特征数据;
    存储所述特征数据作为所述电子设备的密钥;
    利用所述密钥对所述电子设备进行锁定。
  2. 根据权利要求1所述的锁定方法,其中,所述根据所述手型图获取所述手掌的特征数据的步骤包括:
    识别所述手掌为左手或右手;
    获取所述手掌的各个手指的长度、所述手掌的中指到所述手掌的掌根部中心的距离以及获取所述手掌的宽度中的至少一个或组合作为所述特征数据。
  3. 根据权利要求2所述的锁定方法,其中,所述获取所述手掌的各个手指的长度、所述手掌的中指到所述手掌的掌根部中心的距离以及获取所述手掌的宽度中的至少一个或组合作为所述特征数据的步骤包括:
    获取所述手掌的第一特征点的第一像素坐标;
    获取所述手掌的第二特征点的第二像素坐标;
    根据所述第一像素坐标及所述第二像素坐标获得所述第一特征点与所述第二特征点之间的距离。
  4. 一种解锁方法,所述解锁方法用于具有触摸屏的电子设备,其中,所述解锁方法包括:
    获取所述触摸屏被用户的手掌按压后采集的电容传感数据;
    对所述电容传感数据进行模数转换以获得所述手掌的手型图;
    根据所述手型图获取所述手掌的特征数据;
    获取所述电子设备的密钥;
    将所述特征数据与所述密钥进行比较,判断所述特征数据与所述密钥是否一致;
    若所述特征数据与所述密钥一致,则对所述电子设备进行解锁。
  5. 根据权利要求4所述的解锁方法,其中,所述根据所述手型图获取所述手掌的特征数据的步骤包括:
    识别所述手掌为左手或右手;
    获取所述手掌的各个手指的长度、所述手掌的中指到所述手掌的掌根部中心的距离以及获取所述手掌的宽度中的至少一个或组合作为所述特征数据。
  6. 根据权利要求5所述的解锁方法,其中,所述获取所述手掌的各个手指的长度、所述手掌的中指到所述手掌的掌根部中心的距离以及获取所述手掌的宽度中的至少一个或组合作为所述特征数据的步骤包括:
    获取所述手掌的第一特征点的第一像素坐标;
    获取所述手掌的第二特征点的第二像素坐标;
    根据所述第一像素坐标及所述第二像素坐标获得所述第一特征点与所述第二特征点之间的距离。
  7. 一种具有触摸屏的电子设备,其中,所述电子设备包括:
    触摸屏,用于被用户的第一手掌按压后采集所述第一手掌的第一电容传感数据;
    模数转换模块,与所述触摸屏连接,用于将所述第一电容传感数据进行模数转换,以获得所述第一手掌的第一手型图;
    处理模块,与所述模数转换模块连接,用于根据所述第一手型图获取所述第一手掌的第一特征数据;
    存储模块,与所述处理模块连接,用于存储所述第一手掌的第一特征数据作为所述电子设备的密钥;
    其中,所述处理模块进一步利用所述密钥对所述电子设备进行锁定。
  8. 根据权利要求7所述的电子设备,其中,所述处理模块还根据所述第一手型图识别出所述第一手掌为左手或右手,所述处理模块还用于根据所述第一手型图获取所述第一手掌的各个手指的长度、所述第一手掌的中指到所述第一手掌的掌根部中心的距离及所述第一手掌的宽度中的至少一个作为所述第一特征数据。
  9. 根据权利要求8所述的电子设备,其中,所述触摸屏进一步在被用户的第二手掌按压后采集所述第二手掌的第二电容传感数据,所述模数转换模块将所述第二电容传感数据进行模数转换,以获得所述第二手掌的第二手型图,所述处理模块用于根据所述第二手型图获取所述第二手掌的第二特征数据,所述处理模块进一步将所述第二特征数据与所述第一特征数据进行比较,若所述第二特征数据与所述第一特征数据一致,则对所述电子设备进行解锁。
  10. 根据权利要求9所述的电子设备,其中,所述处理模块还根据所述第二手型图识别出所述第二手掌为左手或右手,所述处理模块进一步根据所述第二手型图获取所述第二手掌的各个手指的长度、所述第二手掌的中指到所述第二手掌的掌根部中心的距离及所述第二手掌的宽度中的至少一个作为所述第二特征数据。
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