CN105183144A - Control method and control device for mobile terminal - Google Patents

Control method and control device for mobile terminal Download PDF

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Publication number
CN105183144A
CN105183144A CN 201510210270 CN201510210270A CN105183144A CN 105183144 A CN105183144 A CN 105183144A CN 201510210270 CN201510210270 CN 201510210270 CN 201510210270 A CN201510210270 A CN 201510210270A CN 105183144 A CN105183144 A CN 105183144A
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detection
mobile terminal
gesture
sub
user
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CN 201510210270
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Chinese (zh)
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尚瑞
徐坤平
杨云
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比亚迪股份有限公司
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Abstract

The invention discloses a control method and a control device for a mobile terminal. The mobile terminal comprises a fingerprint detecting device. The fingerprint detecting device is provided with a fingerprint detecting chip and a plurality of sub-detecting areas. The control method comprises the steps of making the fingerprint detecting chip enter a gesture detecting mode; respectively scanning the plurality of sub-detecting areas in N detecting periods for generating triggering area information which respectively correspond with the N detecting periods, wherein the triggering area information is the information of the sub-detecting area which is triggered in the corresponding detecting period; acquiring a user gesture according to the triggering area information which respectively correspond with the N detecting periods; and controlling the mobile terminal according to the user gesture. The control method has advantages of expanding the function of the fingerprint detecting device, realizing multiple functions through one piece of hardware, realizing no scanning to the whole fingerprint detecting chip in the gesture detecting process, and effectively reducing power consumption of a system.

Description

移动终端的控制方法和装置 Method and apparatus for controlling a mobile terminal

技术领域 FIELD

[0001] 本发明涉及移动终端技术领域,尤其涉及一种移动终端的控制方法和装置。 [0001] The present invention relates to a mobile terminal technology, and particularly relates to a control method and apparatus of a mobile terminal.

背景技术 Background technique

[0002] 随着苹果公司将指纹识别技术应用到手机上,越来越多的国内手机公司也将指纹识别视为以后手机的标准配置,目前指纹识别装置应用于手机的主要功能一般用来进行身份识别,或者通过触摸指纹识别装置来实现系统唤醒。 [0002] As Apple's fingerprint recognition technology will be applied to mobile phones, more and more domestic mobile phone company will also be treated as fingerprint recognition after the standard configuration of the phone, the current fingerprint identification device used in mobile phones is mainly used for general functions identification, or to implement the system wake-up by touching a fingerprint identification device.

[0003]目前智能手机越来越薄,这就使得对于硬件外设要求越来越小,甚至越来越少,一个硬件兼顾多项功能已经成为趋势。 [0003] current smart phone thinner, which makes hardware peripherals required for smaller, even less, a number of functions both hardware has become a trend. 但是,目前市场对于指纹识别装置的定位,只是身份识别装置,或者仅仅用于系统唤醒,功能比较单一,导致资源的浪费。 However, the current market for waste positioning fingerprint recognition device, but identification device, or just for system wake-up, single function, resulting in resources.

发明内容 SUMMARY

[0004] 本发明的目的旨在至少在一定程度上解决上述的技术问题之一。 [0004] The object of the present invention to solve at least one of the above-described technical problem to some extent.

[0005] 为此,本发明的第一个目的在于提出一种移动终端的控制方法。 [0005] For this purpose, a first object of the present invention is to provide a control method of a mobile terminal. 该方法扩展了指纹检测装置的功能,而且由于控制指纹检测芯片在多个检测模式下切换,不会对彼此的检测功能产生影响,实现了一个硬件兼顾多种功能的效果,并且在手势检测的过程中,不会对整个指纹检测芯片进行扫描,从而有效地减小了系统功耗。 This method extends the functionality of the fingerprint detection device, fingerprint detection and because the control switch in the plurality of chip detection mode, does not affect the detection of one another, to achieve a balance between a plurality of hardware functional effect, and the detected gesture course, not to scan the entire fingerprint detection chip, thus effectively reducing the power consumption of the system.

[0006] 本发明的第二个目的在于提出一种移动终端的控制装置。 [0006] A second object of the present invention to provide a control apparatus of a mobile terminal.

[0007] 为了实现上述目的,本发明第一方面实施例的移动终端的控制方法,所述移动终端包括指纹检测装置,所述指纹检测装置具有指纹检测芯片和多个子检测区,其中,所述方法包括:控制所述指纹检测芯片进入手势检测模式;在N个检测周期内分别对所述多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,所述触发区域信息为在对应检测周期中被触发的子检测区的信息;根据所述N个检测周期分别对应的触发区域信息获取用户的手势;以及根据所述用户的手势对所述移动终端进行控制。 [0007] To achieve the above object, a first aspect of the method of controlling a mobile terminal of the present embodiment of the invention, the mobile terminal comprising a fingerprint detection device, fingerprint detection device having a fingerprint sensor chip and a plurality of sub-sensing regions, wherein said a method comprising: controlling the fingerprint detection device into a gesture detection mode; on each of the plurality of sub-sensing regions scanned over N cycles to generate N detection periods respectively corresponding to the trigger detecting region information, wherein the trigger information region the sub-information area is detected in the corresponding detection period is triggered; obtained according to the N detection periods respectively corresponding to the trigger information of the user gesture area; and controlling the mobile terminal according to the user's gesture.

[0008] 根据本发明实施例的移动终端的控制方法,可先控制指纹检测芯片进入手势检测模式,之后,在N个检测周期内分别对多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,触发区域信息为在对应检测周期中被触发的子检测区的信息,并根据N个检测周期分别对应的触发区域信息获取用户的手势,以及根据用户的手势对移动终端进行控制,即扩展了指纹检测装置的功能,而且由于控制指纹检测芯片在多个检测模式下切换,不会对彼此的检测功能产生影响,实现了一个硬件兼顾多种功能的效果,并且在手势检测的过程中,不会对整个指纹检测芯片进行扫描,从而有效地减小了系统功耗。 [0008] The control method of a mobile terminal according to an embodiment of the present invention, the first control fingerprint detection chip entering a gesture detection mode, then, each of the plurality of sub-sensing regions scanned in the N-th detection period to generate N detection cycles correspond trigger area information, wherein the trigger area information is information sub-detection zone in the corresponding detection period is triggered and acquires the user's gesture based on the N detection periods respectively corresponding to the trigger area information, and the user's gesture to the mobile terminal control, i.e., extends the functionality of the fingerprint detection device, fingerprint detection and because the control switch in the plurality of chip detection mode, does not affect the detection of each other, achieving the effect of a variety of functions of both hardware and gesture during detection, not to scan the entire fingerprint detection chip, thus effectively reducing the power consumption of the system.

[0009] 为了实现上述目的,本发明第二方面实施例的移动终端的控制装置,所述移动终端包括指纹检测装置,所述指纹检测装置具有指纹检测芯片和多个子检测区,其中,所述控制装置包括:第一控制模块,用于控制所述指纹检测芯片进入手势检测模式;生成模块,用于在N个检测周期内分别对所述多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,所述触发区域信息为在对应检测周期中被触发的子检测区的信息;获取模块,用于根据所述N个检测周期分别对应的触发区域信息获取用户的手势;以及第二控制模块,用于根据所述用户的手势对所述移动终端进行控制。 [0009] To achieve the above object, a mobile terminal control apparatus according to a second aspect of the embodiment of the present invention, the mobile terminal comprising a fingerprint detection device, fingerprint detection device having a fingerprint sensor chip and a plurality of sub-sensing regions, wherein said the control means comprises: a first control module for controlling the fingerprint detection device into a gesture detection mode; generating module, for respectively detecting said plurality of sub-regions in the scanning cycle to the N detectors generate N detection cycles, respectively region information corresponding to the trigger, wherein the trigger information of the sub information detection region in a corresponding region detection period being triggered; obtaining module, configured to obtain a user according to the N detection cycles area information respectively corresponding to the trigger gesture ; and a second control module for controlling the mobile terminal according to the user's gesture.

[0010] 根据本发明实施例的移动终端的控制装置,可通过第一控制模块控制指纹检测芯片进入手势检测模式,生成模块在N个检测周期内分别对多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,触发区域信息为在对应检测周期中被触发的子检测区的信息,获取模块根据N个检测周期分别对应的触发区域信息获取用户的手势,第二控制模块根据用户的手势对移动终端进行控制,即扩展了指纹检测装置的功能,而且由于控制指纹检测芯片在多个检测模式下切换,不会对彼此的检测功能产生影响,实现了一个硬件兼顾多种功能的效果,并且在手势检测的过程中,不会对整个指纹检测芯片进行扫描,从而有效地减小了系统功耗。 [0010] The control device of a mobile terminal according to an embodiment of the present invention, may be controlled by a first control module detects a fingerprint detection device enters a gesture mode, generating a plurality of sub-modules respectively scan the detection region in the N-th detection period to generate N trigger detection period corresponding region information, wherein the trigger information of the sub information detection region in a corresponding region detection period is triggered, the trigger acquisition module according to the area information corresponding to each of the N acquired user's gesture detection period, the second control module according to the user's gesture to the mobile terminal control, i.e., extends the functionality of the fingerprint detection device, fingerprint detection and because the control switch in the plurality of chip detection mode, does not affect the detection of one another, to achieve a balance between a hardware multi- effect functions, and in the course of the gesture detection, not to scan the entire fingerprint detection chip, thus effectively reducing the power consumption of the system.

[0011] 本发明附加的方面和优点将在下面的描述中部分给出,部分将从下面的描述中变得明显,或通过本发明的实践了解到。 [0011] This additional aspects and advantages of the invention will be set forth in part in the description which follows, from the following description in part be apparent from, or learned by practice of the present invention.

附图说明 BRIEF DESCRIPTION

[0012] 本发明上述的和/或附加的方面和优点从下面结合附图对实施例的描述中将变得明显和容易理解,其中: [0012] In the present invention, the above and / or additional aspects and advantages from the following description of embodiments in conjunction with the accompanying drawings of the embodiments will become apparent and more readily appreciated, wherein:

[0013]图1是根据本发明一个实施例的移动终端的控制方法的流程图。 [0013] FIG. 1 is a flowchart of a control method of a mobile terminal according to one embodiment of the present invention.

[0014]图2是本发明实施例的指纹检测装置用于在移动终端上的示意图; [0014] FIG. 2 is a schematic diagram of apparatus for detecting a fingerprint in the embodiment of the present invention, a mobile terminal;

[0015]图3是本发明实施例的指纹检测装置的结构示意图; [0015] FIG. 3 is a schematic structural diagram of a fingerprint detection apparatus according to an embodiment of the present invention;

[0016]图4为本发明实施例的指纹检测芯片检测手指点击手势的过程示意图; [0016] FIG. 4 fingerprint detection chip detecting a finger tap gesture schematic example of a process embodiment of the present invention;

[0017]图5为本发明实施例的指纹检测芯片检测手指滑动手势的过程示意图; [0017] The procedure of Example 5 FIG finger swipe gesture fingerprint sensor chip detects a schematic embodiment of the present invention;

[0018]图6是根据本发明一个实施例的移动终端的控制装置的结构示意图;以及 [0018] FIG. 6 is a block diagram of the control apparatus of a mobile terminal according to one embodiment of the invention; and

[0019]图7是根据本发明一个实施例的获取模块的结构示意图。 [0019] FIG. 7 is a schematic structural diagram of an embodiment of the acquisition module of the present invention.

具体实施方式 detailed description

[0020] 下面详细描述本发明的实施例,所述实施例的示例在附图中示出,其中自始至终相同或类似的标号表示相同或类似的元件或具有相同或类似功能的元件。 [0020] Example embodiments of the present invention is described in detail below, exemplary embodiments of the embodiment shown in the accompanying drawings, wherein same or similar reference numerals designate the same or similar elements or elements having the same or similar functions. 下面通过参考附图描述的实施例是示例性的,旨在用于解释本发明,而不能理解为对本发明的限制。 By following with reference to the embodiments described are exemplary, and are intended for explaining the present invention and should not be construed as limiting the present invention.

[0021] 下面参考附图描述根据本发明实施例的移动终端的控制方法和装置。 [0021] The following description of the drawings a mobile terminal control method and apparatus in accordance with an embodiment of the present invention by reference.

[0022]图1是根据本发明一个实施例的移动终端的控制方法的流程图。 [0022] FIG. 1 is a flowchart of a control method of a mobile terminal according to one embodiment of the present invention. 需要说明的是,在本发明的实施例中,移动终端可包括指纹检测装置,该指纹检测装置具有指纹检测芯片和多个子检测区。 Incidentally, in the embodiment of the present invention, the mobile terminal may include a fingerprint detection apparatus, which detects a fingerprint detection device the fingerprint chip and having a plurality of sub-sensing regions. 如图2所示,为本发明实施例的指纹检测装置用于在移动终端上的示意图,整体表示移动终端,100表示指纹检测装置,该指纹检测装置可以设置在移动终端的正面,也可以设置在移动终端的背面,该指纹检测装置可通过SPI (Serial PeripheralInterface,串行外设接口)与移动终端相连接。 2, a schematic diagram of a fingerprint detection device according to the embodiment of the invention, a mobile terminal, the mobile terminal indicated as a whole, showing a fingerprint detection device 100, the fingerprint detection means may be provided in front of the mobile terminal may be provided in the rear of the mobile terminal, the fingerprint detection device can be connected with the mobile terminal via SPI (serial PeripheralInterface, serial peripheral Interface). 其中,如图3所示,为本发明实施例的指纹检测装置的结构示意图,100为整个指纹检测装置,其可包括指纹检测芯片110和多个子检测区120。 Wherein FIG. 3, a schematic diagram of the structure of a fingerprint detection apparatus according to embodiments of the invention, the entire fingerprint detection device 100, which may include a fingerprint detection chip 110 and the plurality of sub-sensing regions 120. 此外,移动终端可以是手机、平板电脑、个人数字助理等具有各种操作系统的硬件设备。 In addition, the mobile terminal may be mobile phones, tablet computers, personal digital assistants and other operating systems have various hardware devices.

[0023] 如图1所示,该移动终端的控制方法可以包括: [0023] As shown in FIG. 1, the mobile terminal may control method comprising:

[0024] SlOl,控制指纹检测芯片进入手势检测模式。 [0024] SlOl, control fingerprint detection chip entering a gesture detection mode.

[0025] 需要说明的是,在本发明的实施例中,指纹检测芯片可具有手势检测模式和指纹检测模式,当指纹检测芯片处于空闲状态时,可控制指纹检测芯片进入手势检测模式,该手势检测模式可对用户的手指在指纹检测芯片中操作进行检测以识别出对应的用户手势;当指纹检测芯片处于非空闲状态,如进行身份识别时,可控制指纹检测芯片进入指纹检测模式,该指纹检测模式可对用户的手指进行指纹识别以实现身份识别功能。 [0025] Incidentally, in the embodiment of the present invention, the fingerprint detection chip may have a gesture detection mode and a fingerprint detection mode, when a fingerprint detecting chip is in an idle state, the control fingerprint detection chip entering a gesture detection mode, the gesture detection mode of the user's finger operating in a fingerprint detection chip detection to identify the corresponding user gesture; when the fingerprint detecting chip in the non-idle state, such as for identification, may control the fingerprint detection device into a fingerprint detection mode, the fingerprint detection mode can be fingerprinting the user's finger to enable identification function. 具体的实现过程可参照后续描述。 Specific implementation process may be described with reference to the follow-up.

[0026] 具体地,可先判断指纹检测芯片当前是否处于空闲状态,如果判断该指纹检测芯片当前处于空闲状态,则可控制指纹检测芯片进入手势检测模式,即可将指纹检测芯片设置为手势检测模式。 [0026] Specifically, first determine whether the fingerprint detecting chip is currently idle, if it is determined that the fingerprint detecting chip is currently idle, control fingerprint detection chip can enter gesture detection mode, a fingerprint can be detected gesture detecting chip set mode.

[0027] S102,在N个检测周期内分别对多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,触发区域信息为在对应检测周期中被触发的子检测区的信息。 [0027] S102, each of the plurality of sub-sensing regions scanned in the N-th detection period to generate N detection cycles trigger area information respectively, wherein the trigger area information of the sub-detector regions corresponding to the detection cycle is triggered information.

[0028] 此外,被触发的子检测区的信息可理解为在对应检测周期中被触发的子检测区的个数及位置等信息。 [0028] Further, the sub-information detection region is understood to be triggered by the number and location of the detection zone in the corresponding sub-detection period information is triggered. 其中,被触发可理解为被用户的手指触摸到,被触发的子检测区也就可理解为被用户的手指触摸到的子检测区。 Which is understood to be triggered by the user's finger touches, it triggered a detection zone will be understood as a child touched by the user's fingers to detect sub-region.

[0029] 具体地,在指纹检测芯片处于手势检测模式时,可开启对多个子检测区的扫描,以检测在手指触摸的过程中被用户的手指触摸到的子检测区的个数及位置等。 [0029] Specifically, when the chip is in gesture detection fingerprint detection mode, a plurality of sub-scan can open detection zone to detect the number and location of finger touch during the user's finger is touched to the other sub-detection zone .

[0030] S103,根据N个检测周期分别对应的触发区域信息获取用户的手势。 [0030] S103, the user's gesture according to obtain the N periods respectively corresponding to the trigger detection region information.

[0031] 具体而言,在本发明的实施例中,根据N个检测周期对应的触发区域信息获取用户的手势的具体实现过程可如下:可先对N个检测周期对应的触发区域信息进行分析以提取触发区域信息的在N个检测周期中的变化规律,之后,可根据变化规律获取用户的手势。 [0031] Specifically, in the embodiment of the present invention, the specific implementation process according to the trigger information region corresponding to the N detection cycles acquired user's gesture may be as follows: a first trigger area information corresponding to the N detection cycles analysis trigger to extract information in a variation of the N region detection period, then, can be obtained according to changes of a user's gesture.

[0032] 也就是说,在得到每个对应检测周期中被触发的子检测区的信息之后,可分别对这些对应检测周期中被触发的子检测区的信息(如包括个数及位置)的变化情况进行分析,以得到相应的变化规律,并根据该变化规律判断相应的用户的手势。 [0032] That is, after obtaining the information of each sub-cycle corresponding to the detection region of the detector is triggered, respectively the sub-information detection region corresponding to these detection period is triggered (e.g., including the number and location) of changes are analyzed to obtain a corresponding variation, and determines the respective user's gesture according to this variation. 其中,在本发明的实施例中,用户的手势可包括但不限于单击、双击、滑动等中的一个或组合。 Wherein, in the embodiment of the present invention, the user's gesture may include, but are not limited to, click, double click, a slide or the like combination. 例如,单击后滑动或滑动后双击、连续两次滑动等。 For example, the sliding or sliding Double-click two consecutive sliding like. 其中,可以理解,在本发明的实施例中,滑动手势可包括但不限于上下左右4个方向的滑动。 Wherein, it is appreciated that in the embodiment of the present invention, the sliding gesture may include but are not limited to slide up and down in four directions.

[0033] 其中,在本发明的一个具体实施例中,根据变化规律获取用户的手势的具体实现过程可如下:当被触发的子检测区的面积在N个检测周期中从呈扩散式增大变为呈收缩式减小时,确定用户的手势为单击;当被触发的子检测区的面积在N个检测周期中从呈直线型分布并延伸变为呈直线型分布并减小时,确定用户的手势为滑动;当被触发的子检测区的面积在N个检测周期中出现两次从呈扩散式增大变为呈收缩式减小时,确定用户的手势为双击,其中,一个双击手势可理解为在短时间内完成的两个单击手势。 [0033] wherein, in a particular embodiment of the present invention, the obtaining the user's gesture according to the variation of the specific implementation process is as follows: When the area of ​​the sub-area is detected in the trigger detection period from the N type diffusion was increased becomes reduced when the contraction in the formula, the gesture is determined that the user click; when the detection area of ​​the sub-zone is triggered in the period from the detection of the N linear type distribution and the distribution pattern extends linearly and becomes reduced, the user determines sliding gesture; becomes reduced when the retractable sub-area of ​​the detection zone was triggered appears twice in the N detection cycles was increased from the diffusion type, determines the user's gesture is a double tap, wherein, a tap gesture may be understood to be completed in a short time the two click gestures.

[0034] 为了使得本领域的技术人员能够更加清楚的了解本发明,下面以单击手势、滑动手势为例说明本发明的手势检测原理。 [0034] In order to enable those skilled in the art to more clearly understand the present invention, the following in tap gesture, gesture detecting a swipe gesture as an example of the principles of the present invention.

[0035] 举例而言,图4为本发明实施例的指纹检测芯片检测手指点击手势的过程示意图。 [0035] For example, FIG. 4 fingerprint detection chip detecting a finger tap gesture schematic example of embodiment of the process of the present invention. 如图4所示,该指纹检测芯片检测手指点击手势的过程可包括:步骤S41,进行一次子检测区检测(即第一个检测周期对多个子检测区进行检测),可检测到有4个子检测区被触发,且这4个子检测区呈聚集状分布;步骤S42,进行一次子检测区检测(即第二个检测周期对多个子检测区进行检测),检测到有9个子检测区被触发,这9个子检测区中包含步骤S41中的4个子检测区,且新增的5个子检测区分散于步骤S41中的4个子检测区的周边;步骤S43,进行一次子检测区检测(即第三个检测周期对多个子检测区进行检测),检测到有16个子检测区被触发,这16个子检测区包含步骤S42中的9个子检测区,且新增的7个子检测区分散于步骤S42中的9个子检测区的周边;步骤S41〜步骤S43,根据子检测区的覆盖面积及位置,判断为子检测区的接触面积呈扩散式增大,表示指纹检测装置当前有 4, the fingerprint detection chip detecting a finger tap gesture may process comprising: a step S41, the detection zone for detecting a child (i.e., the first detection cycle to a plurality of sub-detector regions detect), can be detected with a sub-4 detection zone is triggered, and this area was detected sub-4 distribution aggregated form; step S42, once detected by the detector sub-region (i.e., the second detection cycle for detecting a plurality of sub-regions is detected), detects that the detection zone is triggered sub 9 this sub detection zone 9 comprises four sub-detection region in step S41, and the new sub detection zone 5 dispersed in the peripheral four sub-step S41 the detection zone; step S43, the detection zone for a sub-detection (i.e. detecting a plurality of three sub-cycle detection zone detection), detects a sub detection zone 16 is triggered, which comprises a detection zone 16 9 sub-sub region detected in step S42, and the new sub detection area 7 in step S42 dispersed sub periphery of the detection zone 9; step S41~ step S43, the coverage area according to the position and the sub-detection region, it is determined that the sub-contact area of ​​the detection zone was increased diffusion, showing a fingerprint detection apparatus currently 一个手指正在按下;步骤S44,进行一次子检测区检测(即第四个检测周期对多个子检测区进行检测),检测到有10个子检测区被触发,和步骤S43中的子检测区相比较,减少的6个子检测区分散于这10个子检测区的周边;步骤S45,进行一次子检测区检测(即第五个检测周期对多个子检测区进行检测),检测到有6个子检测区被触发;和步骤S44中的子检测区相比较,减少的4个子检测区分散于这6个子检测区的周边;步骤S46,进行一次子检测区检测(即第六个检测周期对多个子检测区进行检测),检测到有2个子检测区被触发;和步骤S45中的子检测区相比较,减少的4个子检测区分散于这2个子检测区的周边;步骤S43〜步骤S46,根据子检测区的覆盖面积及位置,判断为子检测区的接触面积呈收缩式减小,表示指纹检测装置当前有一个手指正在抬起;以上整个过程可以判定 A finger is pressed; step S44, once detected by the detector sub-regions (i.e., fourth detection cycle for detecting a plurality of sub-regions is detected), detects a sub detection zone 10 is triggered, and in step S43 with the sub-detection zone comparing, reducing the detection zone 6 sub dispersed in the peripheral region of the 10 sub-detection; step S45, the detection zone for detecting a child (i.e., the fifth cycle detector detects a plurality of sub-detecting regions), detects a sub detection zone 6 is triggered; in step S44 and the sub-detection zone as compared to the detection zone to reduce the four sub-peripheral dispersed in six sub-detection region; step S46, the detection zone for detecting a child (i.e., the sixth cycle detector detecting a plurality of sub- zone detection), detects a detection sub-zone is triggered 2; in step S45 and the sub-detection zone as compared to the detection zone to reduce the four sub-peripheral dispersed in the two sub-detection region; step S43~ step S46, the sub accordance and position-detection coverage area, it is determined that the sub-contact area of ​​the detection zone is reduced contraction in formula, it represents a fingerprint detection apparatus currently finger is lifted; throughout the above process can be determined 一个发生在指纹检测装置上的点击动作,即获取到的用户手势为单击。 A place on the fingerprint detection device click action, namely to obtain a user to click gesture.

[0036] 又如,图5为本发明实施例的指纹检测芯片检测手指滑动手势的过程示意图。 [0036] In another example, the process of FIG. 5 of the present embodiment is a finger swipe gesture fingerprint sensor chip detects a schematic embodiment of the invention. 如图5所示,该指纹检测芯片检测手指滑动手势的过程可包括:步骤S51,进行一次子检测区检测(即第一个检测周期对多个子检测区进行检测),可检测到有4个子检测区被触发,且这4个子检测区呈直线型分布,直线的延伸方向如为方向X,下面所有提到的直线型分布中,直线的延伸方向都必须和方向X—致;步骤S52,进行一次子检测区检测(即第二个检测周期对多个子检测区进行检测),检测到有10个子检测区被触发,这10个子检测区中包含步骤S51中的4个子检测区,且新增的6个子检测区中,有6-N个子检测区呈直线型分布于步骤S51中的4个子检测区的方向D—侧,这里的方向D,和步骤S51中提到的方向X,呈垂直90度分布,其中,新增的子检测区中还可能会有N个子检测区和步骤S51中的4个子检测区呈直线型分布;步骤S53,进行一次子检测区检测(即第三个检测周期对多 5, the process of detecting the fingerprint detection chip finger swipe gesture may comprise: step S51, the detection zone for detecting a child (i.e., the first detection cycle to a plurality of sub-detector regions detect), can be detected with a sub-4 is triggered detection zone, the detection zone and the four linear sub-type distribution, such as the direction of a line extending in direction X, all of the following linear distribution mentioned, the extending direction of the straight line must be activated and X- directions; step S52, a detection zone for detecting sub (i.e., the second detection cycle for detecting a plurality of sub-regions is detected), detects a sub detection zone 10 is triggered, the 10 sub-region comprises four sub-detection areas detected in step S51, and the new 6 by the sub-detection zone, there are 6-N sub detection area was distributed in the direction of the straight line in the step S51 four sub-D- side detection zone, the direction where the direction D, and in step S51 mentioned X, was vertical distribution 90, wherein the new sub-region also may be detected N sub-step S51 the detection zone and detection zone in the four sub-linear type distribution; step S53, the detection zone for detecting a child (i.e., the third detection of multi-cycle 个子检测区进行检测),检测到有14个子检测区被触发,这14个子检测区中包含步骤S52中的10个子检测区,且新增的4个子检测区中,有4-N-N1个子检测区呈直线型分布于步骤S52中的新增的6-N个子检测区的方向Dl —侧,这里的方向D1,必须是和步骤S52中所提到的方向D相同,其中,新增的子检测区中还可能会有N个子检测区和步骤S51中的4个子检测区呈直线型分布,有NI个子检测区和步骤S52中的6-N个子检测区呈直线型分布;步骤S54,进行一次子检测区检测(即第四个检测周期对多个子检测区进行检测),检测到有18个子检测区被触发;这18个子检测区中包含步骤S53中的14个子检测区,且新增的4个子检测区中,有4-N-N1-N2个子检测区呈直线型分布于步骤S53中的新增的4-N-N1个子检测区的方向D2 —侧,这里的方向D2,必须是和步骤S52中所提到的方向D相同,其中,新增的子检 Sub detection zone detection), detects a sub detection zone 14 is triggered, which contains the detection zone 14 sub sub detection zone 10 in step S52, and the new sub detection region 4, there are sub-4-N-N1 detecting area was distributed in the linear direction in step S52 the new 6-N sub detection zone Dl - side, where the direction D1, and direction must be mentioned step S52 is the same as D, where, new sub-region also may be detected N sub-step S51 the detection zone and detection zone in the four sub-linear type distribution, with a sub-test area and NI 6-N sub step S52 the detection zone of linear type distribution; step S54, once a sub-region detected by the detector (i.e., fourth detection cycle for detecting a plurality of sub-regions is detected), detects a sub detection zone 18 is triggered; this detection zone 18 comprises sub-sub detection zone 14 in the step S53, and the new by 4 sub-detection zone, there are 4-N-N1-N2 sub detection area was distributed in the direction of the straight line in step S53 the new sub-4-N-N1 detection region D2 - side, where the direction D2, and direction must be mentioned step S52 is the same as D, where, new sub-sample 区中还可能会有N个子检测区和步骤S51中的4个子检测区呈直线型分布,有NI个子检测区和步骤S52中的6-N个子检测区呈直线型分布,有N2个子检测区和步骤S53中的4-N-N1个子检测区呈直线型分布;步骤S55,进行一次子检测区检测(即第五个检测周期对多个子检测区进行检测),检测到有18个子检测区被触发,这18个子检测区中包含步骤S54中的18-n个子检测区,且新增的η个子检测区中,有η-Ν1-Ν2-Ν3个子检测区呈直线型分布于步骤S54中的新增的4-Ν-Ν1-Ν2个子检测区的方向D3 —侧,这里的方向D3,必须是和步骤S52中所提到的方向D相同,此外,新增的子检测区中还可能会有NI个子检测区和步骤S52中的6-Ν个子检测区呈直线型分布,有Ν2个子检测区和步骤S53中的4-Ν-Ν1个子检测区呈直线型分布,有Ν3个子检测区和步骤S53中的4-Ν-Ν1-Ν2个子检测区呈直线型分布,另外,此 Zone N may be further sub-step S51 the detection zone and detection zone in the four sub-linear type distribution, with a detection zone NI sub step S52 and the 6-N sub-linear type distribution detection zone, the detection zone there sub N2 and step S53 of 4-N-N1 sub-type distribution linear detection zone; step S55, the detection zone for detecting a child (i.e., the fifth cycle detector detects a plurality of sub-detecting regions), detects a detection zone 18 sub is triggered, which comprises 18 sub-detection region 18-n sub-zone detection step S54, and the new sub [eta] detection zone, there is η-Ν1-Ν2-Ν3 linear sub detection zone in step S54 distribution direction new 4-Ν-Ν1-Ν2 sub detection zone D3 - side, where the direction D3, and direction must be mentioned step S52 is the same as D, in addition, the new sub-region may also be detected NI 6-Ν be sub-sub-detection zone and detection zone in step S52 linear type distribution, with a detection zone Ν2 sub step S53 and the sub-4-Ν-Ν1 linear pattern at the detection zone, the detection zone there sub Ν3 and step S53 of 4-Ν-Ν1-Ν2 linear sub-type distribution detection zone, Further, this 骤中减少了η个子检测区的触发,这η个子检测区必须是包含步骤S51中检测到的4个直线型分布的子检测区,及步骤S52〜步骤S54过程中新增的,和这4个子检测区呈直线型分布的所有子检测区;步骤S56,进行一次子检测区检测(即第六个检测周期对多个子检测区进行检测),检测到有8个子检测区被触发,这8个子检测区中包含步骤S55中的18-n个子检测区,此步骤中减少了η个子检测区的触发,这η个子检测区必须是包含步骤S52中检测到的新增的6-Ν个直线型分布的子检测区,及步骤S53〜步骤S55过程中新增的,和这6-Ν个子检测区呈直线型分布的所有子检测区,且这η个子检测区还必须包含,步骤S53中检测到的新增的4-Ν-Ν1个直线型分布的子检测区,及步骤S54〜步骤S55过程中新增的,和这4-Ν-Ν1个子检测区呈直线型分布的所有子检测区;以上整个过程可以判定为一 Step reduced η sub trigger detection region, which sub η detection zone must be detected to contain four linear sub-distribution detection zone in step S51, and step S54 S52~ new process step, and this 4 All sub-sub-detection zone as a linear distribution in the detection region; step S56, the detection zone for detecting a child (i.e., the sixth cycle detector detects a plurality of sub-detecting regions), detects a sub detection region 8 is triggered, this 8 sub detection zone comprising a detection zone sub 18-n in step S55, this step reduces the sub η trigger detection region, this region must be η sub detection step S52 new comprising 6-Ν detected straight line distribution of the sub-region is detected, and the process of step S55, step S53~ added, and this 6-Ν sub detection area was linear for all sub-distribution detection zone, the detection zone and this sub η must also contain, in step S53 We detected 4-Ν-Ν1 linear distribution of a new sub-detection zone, and the step of the new process S54~ step S55, and this sub-4-Ν-Ν1 detection zone linear type distribution of all the sub-detection region; the above process may be determined as a whole 个发生在指纹检测装置上的手指在方向D上的滑动动作,即用户的手势为滑动。 A fingerprint detection device takes place on a finger sliding movement in the direction D, i.e., the user's gesture is sliding.

[0037] S104,根据用户的手势对移动终端进行控制。 [0037] S104, the mobile terminal is controlled according to a user's gesture.

[0038] 具体而言,在本发明的实施例中,根据用户的手势对移动终端进行控制的具体实现过程可如下:可根据用户的手势控制移动终端进入休眠、唤醒或关机状态等。 [0038] Specifically, in the embodiment of the present invention, the specific implementation process is controlled according to a user's gesture to the mobile terminal follows: may control the mobile terminal enter a sleep, wake-up or power-off state and the like according to a user's gesture. 更具体地,在获取到用户的手势之后,可将该用户的手势与预设的手势(该预设的手势可具有多种)进行比对,若获取到的用户的手势与某个预设的手势相同,则可通知移动终端进入休眠、唤醒、关机、开机、重启或飞行模式等状态。 More specifically, after obtaining the user's gesture, the user's gesture may be a gesture with a preset (the predetermined gesture may have more) for comparison, if the acquired user's gesture with a preset same gestures, the mobile terminal may be notified enter a sleep, wake up, shutdown, power, reset or the like state of flight mode. 可以理解,根据用户的手势还可控制移动终端进入其他状态或其他模式,在此不做具体限定。 It will be appreciated, the mobile terminal may also control the user's gesture according to some other state or the other mode, which is not particularly limited.

[0039] 进一步的,在本发明的一个实施例中,当移动终端进行身份识别时,该移动终端控制方法还可包括:控制指纹检测芯片进入指纹检测模式;根据用户的指纹对移动终端进行控制。 [0039] Further, in one embodiment of the present invention, when the mobile terminal identification to the mobile terminal control method further comprising: controlling a fingerprint detection device into a fingerprint detection mode; controlling the mobile terminal based on user fingerprints . 例如,当移动终端进入身份识别时,可控制指纹检测芯片进入指纹检测模式,并获取在指纹检测装置中的用户的指纹,之后可根据该用户的指纹对移动终端进行控制,如当检测的用户指纹与预设的用户指纹相吻合时,可解锁移动终端的屏幕并进入移动终端的主界面。 For example, when the mobile terminal enters the identification, may control the fingerprint detection device into a fingerprint detection mode, and acquires the user's fingerprint in the fingerprint detection device, then may control the mobile terminal according to the user's fingerprint, such as when the detected user fingerprint with a preset fingerprint coincidence of the user, the mobile terminal can unlock the screen and enter the main interface of the mobile terminal. 由此,不仅可以根据通过指纹检测装置获取到的用户的手势来控制移动终端,还可根据通过指纹检测装置获取到的用户的指纹来控制移动终端,即扩展了指纹检测装置的功能。 Thereby, not only the mobile terminal may be controlled according to the obtained by the fingerprint detection device user's gesture, also be controlled in accordance with the mobile terminal acquired by the fingerprint detection device user's fingerprint, that extends the functionality of the fingerprint detection device.

[0040] 根据本发明实施例的移动终端的控制方法,可先控制指纹检测芯片进入手势检测模式,之后,在N个检测周期内分别对多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,触发区域信息为在对应检测周期中被触发的子检测区的信息,并根据N个检测周期分别对应的触发区域信息获取用户的手势,以及根据用户的手势对移动终端进行控制,即扩展了指纹检测装置的功能,而且由于控制指纹检测芯片在多个检测模式下切换,不会对彼此的检测功能产生影响,实现了一个硬件兼顾多种功能的效果,并且在手势检测的过程中,不会对整个指纹检测芯片进行扫描,从而有效地减小了系统功耗。 [0040] The control method of a mobile terminal according to an embodiment of the present invention, the first control fingerprint detection chip entering a gesture detection mode, then, each of the plurality of sub-sensing regions scanned in the N-th detection period to generate N detection cycles correspond trigger area information, wherein the trigger area information is information sub-detection zone in the corresponding detection period is triggered and acquires the user's gesture based on the N detection periods respectively corresponding to the trigger area information, and the user's gesture to the mobile terminal control, i.e., extends the functionality of the fingerprint detection device, fingerprint detection and because the control switch in the plurality of chip detection mode, does not affect the detection of each other, achieving the effect of a variety of functions of both hardware and gesture during detection, not to scan the entire fingerprint detection chip, thus effectively reducing the power consumption of the system.

[0041] 为了实现上述实施例,本发明还提出了一种移动终端的控制装置。 [0041] In order to achieve the above-described embodiments, the present invention also proposes a control device of a mobile terminal.

[0042]图6是根据本发明一个实施例的移动终端的控制装置的结构示意图。 [0042] FIG. 6 is a diagram showing the configuration of a mobile terminal control apparatus according to one embodiment of the present invention. 需要说明的是,在本发明的实施例中,移动终端可包括指纹检测装置,该指纹检测装置具有指纹检测芯片和多个子检测区。 Incidentally, in the embodiment of the present invention, the mobile terminal may include a fingerprint detection apparatus, which detects a fingerprint detection device the fingerprint chip and having a plurality of sub-sensing regions. 如图2所示,为本发明实施例的指纹检测装置用于在移动终端上的示意图,整体表示移动终端,100表示指纹检测装置,该指纹检测装置可以设置在移动终端的正面,也可以设置在移动终端的背面,该指纹检测装置可通过SPI与移动终端相连接。 2, a schematic diagram of a fingerprint detection device according to the embodiment of the invention, a mobile terminal, the mobile terminal indicated as a whole, showing a fingerprint detection device 100, the fingerprint detection means may be provided in front of the mobile terminal may be provided in the rear of the mobile terminal, the fingerprint detection device can be connected to the mobile terminal via SPI. 其中,如图3所示,为本发明实施例的指纹检测装置的结构示意图,100为整个指纹检测装置,其可包括指纹检测芯片110和多个子检测区120。 Wherein FIG. 3, a schematic diagram of the structure of a fingerprint detection apparatus according to embodiments of the invention, the entire fingerprint detection device 100, which may include a fingerprint detection chip 110 and the plurality of sub-sensing regions 120. 此外,移动终端可以是手机、平板电脑、个人数字助理等具有各种操作系统的硬件设备。 In addition, the mobile terminal may be mobile phones, tablet computers, personal digital assistants and other operating systems have various hardware devices.

[0043] 如图6所示,该移动终端的控制装置可以包括:第一控制模块10、生成模块20、获取模块30和第二控制模块40。 [0043] As shown in FIG 6, the control means of the mobile terminal may include: a first control module 10, generating module 20, an obtaining module 30 and a second control module 40.

[0044] 具体地,第一控制模块10可用于控制指纹检测芯片进入手势检测模式。 [0044] Specifically, the first control module 10 may be used to control fingerprint detection chip entering a gesture detection mode. 需要说明的是,在本发明的实施例中,指纹检测芯片可具有手势检测模式和指纹检测模式,当指纹检测芯片处于空闲状态时,可控制指纹检测芯片进入手势检测模式,该手势检测模式可对用户的手指在指纹检测芯片中操作进行检测以识别出对应的用户手势;当指纹检测芯片处于非空闲状态,如进行身份识别时,可控制指纹检测芯片进入指纹检测模式,该指纹检测模式可对用户的手指进行指纹识别以实现身份识别功能。 Incidentally, in the embodiment of the present invention, the fingerprint detection chip may have a gesture detection mode and a fingerprint detection mode, when a fingerprint detecting chip is in an idle state, the control fingerprint detection chip entering a gesture detection mode, the gesture detection mode the user's finger operating in a fingerprint detection chip detection to identify the corresponding user gesture; when the fingerprint detecting chip in the non-idle state, such as for identification, may control the fingerprint detection device into a fingerprint detection mode, the fingerprint detection mode the user's finger fingerprint identification to enable identification function. 具体的实现过程可参照后续描述。 Specific implementation process may be described with reference to the follow-up.

[0045] 更具体地,第一控制模块10可先判断指纹检测芯片当前是否处于空闲状态,如果判断该指纹检测芯片当前处于空闲状态,则可控制指纹检测芯片进入手势检测模式,即可将指纹检测芯片设置为手势检测模式。 [0045] More specifically, the first control module 10 may first determine whether the current fingerprint sensor chip is idle, if it is determined that the fingerprint detecting chip is currently idle, control fingerprint detection chip can enter gesture detection mode to a fingerprint detecting chip set to the gesture detection mode.

[0046] 生成模块20可用于在N个检测周期内分别对多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,触发区域信息为在对应检测周期中被触发的子检测区的信息。 [0046] The generating module 20 may be used in the N-th detection periods, respectively, a plurality of sub-sensing regions scanned to generate N detection cycles trigger area information respectively, wherein the trigger area information of the child in the corresponding detection period being triggered information detection zone. 此外,被触发的子检测区的信息可理解为在对应检测周期中被触发的子检测区的个数及位置等信息。 Further, the sub-information detection region is understood to be triggered by the number and location of the detection zone in the corresponding sub-detection period information is triggered. 其中,被触发可理解为被用户的手指触摸到,被触发的子检测区也就可理解为被用户的手指触摸到的子检测区。 Which is understood to be triggered by the user's finger touches, it triggered a detection zone will be understood as a child touched by the user's fingers to detect sub-region.

[0047] 更具体地,生成模块20在指纹检测芯片处于手势检测模式时,可开启对多个子检测区的扫描,以检测在手指触摸的过程中被用户的手指触摸到的子检测区的个数及位置等。 When [0047] More specifically, generating module 20 is a fingerprint detecting chip in the gesture detection mode, you can switch on scanning for a plurality of sub-sensing regions, to detect a during a finger touch is being touched by the user's finger to the sub-detection zone the number and location.

[0048] 获取模块30可用于根据N个检测周期分别对应的触发区域信息获取用户的手势。 [0048] The acquisition module 30 may be configured to obtain a user's gesture according to the N periods respectively corresponding to the trigger detection region information. 具体而言,在本发明的一个实施例中,如图7所示,该获取模块30可包括提取单元31和获取单元32。 Specifically, in one embodiment of the present invention as shown in FIG 7, the acquisition module 30 may include an extraction unit 31 and obtaining unit 32. 具体地,提取单元31可用于对N个检测周期对应的触发区域信息进行分析以提取触发区域信息的在N个检测周期中的变化规律。 Specifically, the extracting unit 31 may be used to trigger the area information corresponding to the N detection periods is analyzed to extract information varying law in the N region detection period. 获取单元32可用于根据变化规律获取用户的手势。 Acquisition unit 32 for acquiring a user gesture in accordance with the variation. 其中,在本发明的实施例中,用户的手机可包括但不限于单击、双击、滑动等中的一个或组合。 Wherein, in the embodiment of the present invention, the user's mobile phone may include, but are not limited to, click, double click, a slide or the like combination.

[0049] 也就是说,在生成模块20得到每个对应检测周期中被触发的子检测区的信息之后,提取单元31可分别对这些对应检测周期中被触发的子检测区的信息(如包括个数及位置)的变化情况进行分析,以得到相应的变化规律,获取单元32根据该变化规律判断相应的用户的手势。 [0049] That is, after generating the corresponding detection module to obtain information of each sub-cycle is triggered detection zone 20, the extracting unit 31 may be respectively detected sub-information area corresponding to the detection period is triggered (e.g., including the number and location) changes analyzed to give the corresponding variation, acquiring a corresponding user 32 is determined based on the variation of the gesture unit. 其中,在本发明的实施例中,用户的手势可包括但不限于单击、双击、滑动等中的一个或组合。 Wherein, in the embodiment of the present invention, the user's gesture may include, but are not limited to, click, double click, a slide or the like combination. 例如,单击后滑动或滑动后双击、连续两次滑动等。 For example, the sliding or sliding Double-click two consecutive sliding like. 其中,可以理解,在本发明的实施例中,滑动手势可包括但不限于上下左右4个方向的滑动。 Wherein, it is appreciated that in the embodiment of the present invention, the sliding gesture may include but are not limited to slide up and down in four directions.

[0050] 其中,在本发明的一个具体实施例中,获取单元32根据变化规律获取用户的手势的具体实现过程可如下:当被触发的子检测区的面积在N个检测周期中从呈扩散式增大变为呈收缩式减小时,确定用户的手势为单击;当被触发的子检测区的面积在N个检测周期中从呈直线型分布并延伸变为呈直线型分布并减小时,确定用户的手势为滑动;当被触发的子检测区的面积在N个检测周期中出现两次从呈扩散式增大变为呈收缩式减小时,确定用户的手势为双击,其中,一个双击手势可理解为在短时间内完成的两个单击手势。 [0050] wherein, in the present invention embodiments, the acquisition unit 32 acquires a user's gesture according to the variation of the specific implementation process is as follows: When the area of ​​the sub-detection area is triggered by the form from the N detection cycles diffusion when the sub-area of ​​the detection zone is triggered from the N detection cycles and extending linear type distribution becomes linear type distribution and reduced; formula becomes increasing reduced contraction in formula, determines the user's gesture is click determining the user's gesture is sliding; sub area when the detection zone is triggered appears twice from increasing as a diffusion becomes reduced contraction in the N-type detection period, to determine the user's gesture is a double tap, wherein, a Double-click the two-click gesture understood as a gesture done in a short time.

[0051] 举例而言,本发明的手势检测原理可参照上述图4和图5的详细描述,上述图4和图5的示例也适合本发明实施例的手势检测,在此不再赘述。 [0051] For example, a gesture detection principle described in the present invention in detail in FIG. 4 and FIG. 5 can be referred to the example in FIG. 4 and FIG. 5 is also suitable for detecting a gesture Example embodiments of the present invention, are not repeated here.

[0052] 第二控制模块40可用于根据用户的手势对移动终端进行控制。 [0052] The second control module 40 for controlling a mobile terminal according to a user's gesture. 具体而言,在本发明的实施例中,第二控制模块40可具体用于:根据用户的手势控制移动终端进入休眠、唤醒或关机状态等。 Specifically, in the embodiment of the present invention, the second control module 40 may be specifically configured to: control the user's gesture according to the mobile terminal into sleep, wake-up or shutdown status. 更具体地,在获取模块30获取到用户的手势之后,第二控制模块40可将该用户的手势与预设的手势(该预设的手势可具有多种)进行比对,若获取到的用户的手势与某个预设的手势相同,则可通知移动终端进入休眠、唤醒、关机、或飞行模式等状态。 More specifically, after obtaining 30 acquires the user's gesture module, the user 40 can be a second control module with a preset gesture gesture (the predetermined gesture may have more) for comparison, if the acquired user gesture with a preset gesture the same, you can notify the mobile terminal goes to sleep, wake up, shutdown, or status flight mode. 可以理解,根据用户的手势还可控制移动终端进入其他状态或其他模式,在此不做具体限定。 It will be appreciated, the mobile terminal may also control the user's gesture according to some other state or the other mode, which is not particularly limited.

[0053] 进一步的,在本发明的一个实施例中,第一控制模块10还可用于在移动终端进行身份识别时,控制指纹检测芯片进入指纹检测模式。 When [0053] Further, in one embodiment of the present invention, the first control module 10 may also be used for identification in a mobile terminal, control fingerprint detection device into a fingerprint detection mode. 第二控制模块40还可用于根据用户的指纹对移动终端进行控制。 The second control module 40 may also be used for controlling the mobile terminal according to a user's fingerprint. 例如,当移动终端进入身份识别时,第一控制模块10可控制指纹检测芯片进入指纹检测模式,第二控制模块40获取在指纹检测装置中的用户的指纹,并根据该用户的指纹对移动终端进行控制,如当检测的用户指纹与预设的用户指纹相吻合时,可解锁移动终端的屏幕并进入移动终端的主界面。 For example, when the mobile terminal enters the identification, first control module 10 may control the fingerprint detection device into a fingerprint detection mode, the second control module 40 acquires the user's fingerprint in the fingerprint detection device, according to the user's fingerprint and the mobile terminal control, such as when the detected user's fingerprint with a preset fingerprint coincidence of the user, to unlock the screen of the mobile terminal and the mobile terminal into the main interface. 由此,不仅可以根据通过指纹检测装置获取到的用户的手势来控制移动终端,还可根据通过指纹检测装置获取到的用户的指纹来控制移动终端,即扩展了指纹检测装置的功能。 Thereby, not only the mobile terminal may be controlled according to the obtained by the fingerprint detection device user's gesture, also be controlled in accordance with the mobile terminal acquired by the fingerprint detection device user's fingerprint, that extends the functionality of the fingerprint detection device.

[0054] 根据本发明实施例的移动终端的控制装置,可通过第一控制模块控制指纹检测芯片进入手势检测模式,生成模块在N个检测周期内分别对多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,触发区域信息为在对应检测周期中被触发的子检测区的信息,获取模块根据N个检测周期分别对应的触发区域信息获取用户的手势,第二控制模块根据用户的手势对移动终端进行控制,即扩展了指纹检测装置的功能,而且由于控制指纹检测芯片在多个检测模式下切换,不会对彼此的检测功能产生影响,实现了一个硬件兼顾多种功能的效果,并且在手势检测的过程中,不会对整个指纹检测芯片进行扫描,从而有效地减小了系统功耗。 [0054] The control device of a mobile terminal according to an embodiment of the present invention, may be controlled by a first control module detects a fingerprint detection device enters a gesture mode, generating a plurality of sub-modules respectively scan the detection region in the N-th detection period to generate N trigger detection period corresponding region information, wherein the trigger information of the sub information detection region in a corresponding region detection period is triggered, the trigger acquisition module according to the area information corresponding to each of the N acquired user's gesture detection period, the second control module according to the user's gesture to the mobile terminal control, i.e., extends the functionality of the fingerprint detection device, fingerprint detection and because the control switch in the plurality of chip detection mode, does not affect the detection of one another, to achieve a balance between a hardware multi- effect functions, and in the course of the gesture detection, not to scan the entire fingerprint detection chip, thus effectively reducing the power consumption of the system.

[0055] 在本发明的描述中,需要理解的是,术语“第一”、“第二”仅用于描述目的,而不能理解为指示或暗示相对重要性或者隐含指明所指示的技术特征的数量。 [0055] In the description of the present invention, it is to be understood that the terms "first", "second" are for illustrative purposes only, and not intended to indicate or imply relative importance or implicitly indicated technical features specified in quantity. 由此,限定有“第一”、“第二”的特征可以明示或者隐含地包括至少一个该特征。 Thus, there is defined "first", "second" features may be explicitly or implicitly include at least one of the feature. 在本发明的描述中,“多个”的含义是至少两个,例如两个,三个等,除非另有明确具体的限定。 In the description of the present invention, the meaning of the "plurality" is at least two, e.g. two, three, etc., unless explicitly specifically limited.

[0056] 在本发明中,除非另有明确的规定和限定,术语“安装”、“相连”、“连接”、“固定”等术语应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或成一体;可以是机械连接,也可以是电连接;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通或两个元件的相互作用关系,除非另有明确的限定。 [0056] In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "connected," "fixed" and like terms are to be broadly understood, for example, may be a fixed connection, may be detachable connection, or integrally; may be a mechanical connector may be electrically connected; may be directly connected, can also be connected indirectly through intervening structures, it may be interaction between the two internal communicating elements or two elements, unless otherwise expressly limited. 对于本领域的普通技术人员而言,可以根据具体情况理解上述术语在本发明中的具体含义。 Those of ordinary skill in the art, to be understood that the specific meanings in the present invention depending on the circumstances.

[0057] 在本说明书的描述中,参考术语“一个实施例”、“一些实施例”、“示例”、“具体示例”、或“一些示例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本发明的至少一个实施例或示例中。 [0057] In the description of the present specification, reference to the term "one embodiment," "some embodiments", "an example", "a specific example", or "some examples" means that a description of the exemplary embodiment or embodiments described a particular feature, structure, material, or characteristic is included in at least one embodiment of the present invention, embodiments or examples. 在本说明书中,对上述术语的示意性表述不必须针对的是相同的实施例或示例。 In the present specification, a schematic representation of the above terms must not be the same for the embodiment or exemplary embodiments. 而且,描述的具体特征、结构、材料或者特点可以在任一个或多个实施例或示例中以合适的方式结合。 Furthermore, the particular features, structures, materials, or characteristics described may be in any one or more embodiments or examples combined in suitable manner. 此外,在不相互矛盾的情况下,本领域的技术人员可以将本说明书中描述的不同实施例或示例以及不同实施例或示例的特征进行结合和组合。 Furthermore, different embodiments or examples and embodiments or features of different exemplary embodiments without conflicting, those skilled in the art described in this specification can be combined and the combination thereof.

[0058] 尽管上面已经示出和描述了本发明的实施例,可以理解的是,上述实施例是示例性的,不能理解为对本发明的限制,本领域的普通技术人员在本发明的范围内可以对上述实施例进行变化、修改、替换和变型。 [0058] Although the above has been illustrated and described embodiments of the present invention, it is understood that the above embodiments are exemplary and are not to be construed as limiting the present invention, within the scope of the invention to those of ordinary skill in the art It may be variations of the above embodiments, modifications, alternatives, and modifications.

Claims (12)

  1. 1.一种移动终端的控制方法,其特征在于,所述移动终端包括指纹检测装置,所述指纹检测装置具有指纹检测芯片和多个子检测区,其中,所述方法包括以下步骤: 控制所述指纹检测芯片进入手势检测模式; 在N个检测周期内分别对所述多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,所述触发区域信息为在对应检测周期中被触发的子检测区的信息; 根据所述N个检测周期分别对应的触发区域信息获取用户的手势;以及根据所述用户的手势对所述移动终端进行控制。 1. A method of controlling a mobile terminal, wherein the mobile terminal comprises a fingerprint detection device, fingerprint detection device having a fingerprint sensor chip and a plurality of sub-sensing regions, wherein said method comprises the steps of: controlling the a fingerprint detection device enters a gesture detection mode; detection on each of the plurality of sub-regions is scanned to generate N periodic trigger detection region information corresponding to each of the N detectors in a cycle, wherein the trigger information in the corresponding region detection period sub information detection region is triggered; area respectively corresponding to the trigger information acquiring a user's gesture according to the N detection cycles; and controlling the mobile terminal according to the user's gesture.
  2. 2.如权利要求1所述的移动终端的控制方法,其特征在于,所述根据所述用户的手势对所述移动终端进行控制具体包括: 根据所述用户的手势控制所述移动终端进入休眠、唤醒或关机状态。 2. The method of controlling a mobile terminal according to claim 1, wherein said controlling the mobile terminal according to the user's gesture comprises: entering a sleep control according to the user's gesture to the mobile terminal , wake-up or shutdown state.
  3. 3.如权利要求1所述的移动终端的控制方法,其特征在于,当所述移动终端进行身份识别时,所述控制方法还包括: 控制所述指纹检测芯片进入指纹检测模式; 根据用户的指纹对所述移动终端进行控制。 3. The control method of mobile terminal according to claim 1, wherein, when the mobile terminal identification to the control method further comprising: controlling the fingerprint detection device into a fingerprint detection mode; according to a user's fingerprint controlling the mobile terminal.
  4. 4.如权利要求1所述的移动终端的控制方法,其特征在于,所述根据所述N个检测周期分别对应的触发区域信息获取用户的手势具体包括: 对所述N个检测周期对应的触发区域信息进行分析以提取所述触发区域信息的在所述N个检测周期中的变化规律;以及根据所述变化规律获取所述用户的手势。 The control method of mobile terminal according to claim 1, wherein the obtaining the user's gesture according to the N detection periods respectively corresponding to the trigger information area comprises: detecting the period corresponding to the N trigger region information is analyzed to extract the triggering information in a variation region of the N detection cycles; and obtaining the user's gesture according to the variation.
  5. 5.如权利要求4所述的移动终端的控制方法,其特征在于,所述根据所述变化规律获取所述用户的手势具体包括: 当被触发的子检测区的面积在所述N个检测周期中从呈扩散式增大变为呈收缩式减小时,确定所述用户的手势为单击; 当被触发的子检测区的面积在所述N个检测周期中从呈直线型分布并延伸变为呈直线型分布并减小时,确定所述用户的手势为滑动; 当被触发的子检测区的面积在所述N个检测周期中出现两次从呈扩散式增大变为呈收缩式减小时,确定所述用户的手势为双击。 5. The control method according to claim mobile terminal, wherein the obtaining the user's gesture according to the variation comprises: detecting when the area of ​​the sub-zone is triggered detection of the N when the period was increased diffusion becomes reduced contraction in formula, determines the user's gesture as a click; sub area when the detection area is triggered in the period from the detection of the N linear type distribution and extending when the linear type distribution and becomes reduced, determines the user's gesture is sliding; sub area when the detection area is triggered twice in the N detection cycles was increased from the diffusion equation becomes contraction in formula when reduced, the user determines the gesture is a double tap.
  6. 6.如权利要求1所述的移动终端的控制方法,其特征在于,所述用户的手势包括单击、双击、滑动中的一个或组合。 The method of controlling a mobile terminal according to claim 6, wherein the user gesture includes click, double click, or a combination of sliding.
  7. 7.一种移动终端的控制装置,其特征在于,所述移动终端包括指纹检测装置,所述指纹检测装置具有指纹检测芯片和多个子检测区,其中,所述控制装置包括: 第一控制模块,用于控制所述指纹检测芯片进入手势检测模式; 生成模块,用于在N个检测周期内分别对所述多个子检测区进行扫描以生成N个检测周期分别对应的触发区域信息,其中,所述触发区域信息为在对应检测周期中被触发的子检测区的信息; 获取模块,用于根据所述N个检测周期分别对应的触发区域信息获取用户的手势;以及第二控制模块,用于根据所述用户的手势对所述移动终端进行控制。 A control apparatus of a mobile terminal, wherein the mobile terminal comprises a fingerprint detection device, fingerprint detection device having a fingerprint sensor chip and a plurality of sub-sensing regions, wherein said control means comprises: a first control module for controlling the fingerprint detection device into a gesture detection mode; generating means for detection over N periods of each of the plurality of sub-sensing regions scanned to generate N detection periods respectively corresponding to the trigger information area, wherein, the trigger detection region information of the sub information in the corresponding region detection period being triggered; obtaining module, configured to obtain a user's gesture according to the N periods respectively corresponding to the trigger detecting region information; and a second control module, with in controlling the mobile terminal according to the user's gesture.
  8. 8.如权利要求7所述的移动终端的控制装置,其特征在于,所述第二控制模块具体用于:根据所述用户的手势控制所述移动终端进入休眠、唤醒或关机状态。 8. The control device of a mobile terminal as claimed in claim 7, wherein the second control module is configured to: according to the user's gesture controlling the mobile terminal enter a sleep, wake-up or shutdown state.
  9. 9.如权利要求7所述的移动终端的控制装置,其特征在于, 所述第一控制模块还用于在所述移动终端进行身份识别时,控制所述指纹检测芯片进入指纹检测模式; 所述第二控制模块还用于根据用户的指纹对所述移动终端进行控制。 9. The mobile terminal control apparatus as claimed in claim 7, wherein the first control module is further used for identification to the mobile terminal, controlling the fingerprint detection device into a fingerprint detection mode; the said second control module is further configured to control the mobile terminal according to a user's fingerprint.
  10. 10.如权利要求7所述的移动终端的控制装置,其特征在于,所述获取模块包括: 提取单元,用于对所述N个检测周期对应的触发区域信息进行分析以提取所述触发区域信息的在所述N个检测周期中的变化规律;以及获取单元,用于根据所述变化规律获取所述用户的手势。 10. The mobile terminal control apparatus as claimed in claim 7, wherein the obtaining module comprises: an extraction unit configured to trigger the area information corresponding to the N detection periods is analyzed to extract the trigger region variation information detected in the N period; and an acquisition unit configured to acquire the user's gesture according to the variation.
  11. 11.如权利要求10所述的移动终端的控制装置,其特征在于,所述获取单元具体用于: 当被触发的子检测区的面积在所述N个检测周期中从呈扩散式增大变为呈收缩式减小时,确定所述用户的手势为单击; 当被触发的子检测区的面积在所述N个检测周期中从呈直线型分布并延伸变为呈直线型分布并减小时,确定所述用户的手势为滑动; 当被触发的子检测区的面积在所述N个检测周期中出现两次从呈扩散式增大变为呈收缩式减小时,确定所述用户的手势为双击。 11. The control apparatus of a mobile terminal according to claim 10, wherein said obtaining unit is specifically configured to: detect when the area of ​​the sub-zone is triggered in the detection period of the N type diffusion was increased from the It becomes reduced when the contraction in the formula, the determination that the gesture is a user click; detecting when the area of ​​the sub-zone is triggered in the period from the detection of the N linear type distribution becomes linear and extends distribution and Save hours, determining the user's gesture is sliding; when the area of ​​the sub-zone is triggered detection occurs in the N detection period becomes reduced as a collapsible type diffusion was increased from twice to determine the user gesture to double-click.
  12. 12.如权利要求7所述的移动终端的控制装置,其特征在于,所述用户的手势包括单击、双击、滑动中的一个或组合。 12. The mobile terminal control apparatus as claimed in claim 7, wherein the user gesture includes click, double click, or a combination of sliding.
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