CN110208781B - 一种非视距的基于雷达的姿势识别系统及智能设备 - Google Patents
一种非视距的基于雷达的姿势识别系统及智能设备 Download PDFInfo
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Abstract
本申请描述用于非视距的基于雷达的姿势识别的技术和设备。通过使用本文描述的技术和设备,用户可以通过在空中的姿势控制其设备,即使在这些姿势不在其设备传感器的视距以内时也可以。因此,该技术使得用户能够在许多情况下控制其设备,在这些情况中期望控制,但是传统技术不能允许有效控制,例如当用户受到恒温器的姿势传感器的遮挡时降低室内的温度,当用户位于媒体播放器所处房间外的其它房间时调低音量,或当用户的姿势被椅子、沙发或其它障碍物遮挡时暂停电视节目。
Description
本申请是国际申请日为2015年09月18日、中国申请号为201580034536.8、发明名称为“非视距的基于雷达的姿势识别”的发明专利申请的分案申请。
优先权申请
本申请是2014年10月2日提交的名称为“Non-Line-of-Sight Radar-BasedGesture Recognition”的美国专利申请NO.62/059,099的非临时案,并且依据35U.S.C.§119(e)要求其优先权,其公开内容通过引用全文并入本文。
背景技术
由于住宅、汽车和办公室中的智能设备激增,无缝地且凭直觉地控制这些设备的需求变得越来越重要。例如,用户期望从其恰好所处的任何位置迅速且容易地控制其媒体播放器、电视机及气候设备。然而,现行的用于控制智能设备的技术无法提供无缝且凭直觉的控制,而是依赖于触摸屏、手持式遥控装置和笨拙的音频接口。
提供这一背景技术说明是用于一般性地呈现本公开的背景。除非在本文另有说明,这一部分所描述的材料不被明确地或隐含地承认为本公开内容或所附权利要求的现有技术。
发明内容
本申请描述用于非视距的基于雷达的姿势识别的技术和设备。通过使用本文描述的技术和设备,用户可以通过空中姿势控制其设备,即使在这些姿势不在其设备传感器的视距以内时也可以。因此,该技术使得用户能够在期望进行控制但传统技术不支持有效控制的许多情况下控制其设备,例如当用户受到恒温器的姿势传感器的遮挡时降低房间内的温度,当用户与媒体播放器处于不同房间时调低媒体播放器的音量,或当用户的姿势被椅子、沙发或其它障碍物遮挡时暂停电视节目。
本申请提供了一种智能设备,包括:非视距姿势识别系统,被配置为:提供雷达场;感测来自雷达场内的交互的反射;在与雷达场关联的智能设备处并且基于来自雷达场内的交互的反射识别姿势;以及确定姿势与非视距智能设备关联;以及收发器或网络接口,被配置为以非视距智能设备可用以识别姿势的格式将姿势从智能设备传递到非视距智能设备,以及效果为使得所述姿势能够控制所述非视距智能设备或建立与所述非视距智能设备的通信。
本申请提供了一种系统,包括:非视距姿势识别系统,被配置为:在房间内提供雷达场,所述雷达场包括反射雷达场,所述反射雷达场从房间的一个或多个表面反射并设置在房间的一个或多个体积中,对于所述一个或多个体积,来自所述非视距姿势识别系统的直射视距不可获得;以及接收在房间中的一个或多个体积内做出的姿势交互的反射,对于所述一个或多个体积,来自所述非视距姿势识别系统的直射视距不可获得,所述反射能够采集关于姿势交互的数据;一个或多个处理器;以及一个或多个计算机可读存储介质,其上存储有指令,所述指令响应于由所述一个或多个处理器执行而实现系统管理器,所述系统管理器被配置为:基于与姿势交互的反射关联的采集的数据确定姿势;以及将所述姿势提供给设备或应用,效果为控制所述设备或应用。
本申请提供了一种非视距姿势识别系统,被配置为:接收或采集房间的图像;接收或确定所述房间的尺寸;至少部分地基于所述图像和所述房间的尺寸确定其中不存在至非视距姿势识别系统的视距的房间的体积;以及通过将雷达传输提供到房间中来确定足以致使在所述体积的至少一部分内提供反射雷达场的一组传输路径,所述反射雷达场能够采集与所述反射雷达场的姿势交互。
提供本发明内容用以介绍涉及非视距的基于雷达的姿势识别的简化构思,其在以下的详细说明中进一步描述。这一发明内容不旨在确定要求保护的主题的必要技术特征,也不旨在用于确定要求保护的主题的范围。
附图说明
通过参考以下附图描述用于非视距的基于雷达的姿势识别的技术和设备的实施例。贯穿各附图,使用相同的附图标记指示相同的特征和部件:
图1示出在其中实现非视距的基于雷达的姿势识别的一个示例性环境,其包括通过使用直射雷达场和反射雷达场。
图2更详细地示出图1中的智能设备。
图3示出示例性的透射雷达场。
图4示出利用反射雷达场实现非视距的基于雷达的姿势识别的示例性方法。
图5示出图1中的房间,其包括不具有至雷达系统的视距的体积,以及通过其在这些体积内提供反射雷达场的传输路径。
图6示出一示例性方法,其实现非视距的基于雷达的姿势识别,其效果为控制不具有至用户的视距的智能设备,或与其通信。
图7示出具有多个雷达系统的住宅的地板,该多个雷达系统中的某些不具有对在住宅中的用户的视距。
图8示出一示例性设备,其实施非视距的基于雷达的姿势识别,或者可以在其中实现能够使用该姿势识别的技术。
具体实施方式
概述
本申请描述能够实现非视距的基于雷达的姿势识别的技术和设备。这些技术和设备能够在姿势不是在智能设备的传感器的视距以内做出时,通过识别这些姿势而实现对智能设备的更大程度的控制。
例如,考虑用户在其住宅内具有多个智能设备的情况。假定为了控制这些设备,他具有多个手持式遥控装置;一个控制器用于一个设备。由于所需的遥控装置的数量,控制这些各种的智能设备是不切实际的。另外,即使用户具有能够控制多个智能设备的一个遥控装置,当他不处于所有这些各种设备的视距以内的任何时候,仍然不能控制所有多个智能设备。并且,即使在用户一次处于多个设备的视距以内的不常见的情况中,用户仍需要携带一遥控装置在身边。
考虑控制智能设备的其它传统方式,例如音频接口和视距摄像机。音频接口通常无法理解用户的意图,并且需要用户中断他或她正在进行的谈话。视距摄像机尽管允许用户在某些情况下不携带遥控装置,但是需要视距,并且无法提供稳定和一致的姿势识别。这些仅是不能提供无缝和凭直觉地控制多个示例性控制器中的三种控制器。
对比之下,考虑一种情况,在该情况中,用户站在她的厨房中,并且期望暂停位于她的卧室中的电视机,关闭她的微波炉,因为她的晚餐热过了,以及调高她的房间中的热度。假定用户的手被一些悬挂的盆或锅而相对于微波炉被阻挡,并且,她的恒温器和电视机位于其它房间内。本文所述的技术使她能够控制所有这三个设备,尽管两个在其它房间中,且第三个被各种物体阻挡。这些设备均不具有相对于她的视距、但是她可以做出姿势来无缝地并且凭直觉地控制这三个不同设备中的每一个以及任一个。
这只是可以进行非视距的基于雷达的姿势识别的一种方式。本申请现致力于一示例性环境,然后,描述非视距的姿势识别系统、示例性方法以及示例性计算系统。
示例性环境
图1是在其中可以执行实现非视距的基于雷达的姿势识别的技术的一示例环境100的图示。环境100包括房间102、智能设备104以及用户106。房间102包括障碍物108、墙壁110、地板112(示出为方形)和天花板114(在俯视图中透明,以圆圈示出),其在下文详细描述。房间102示出除了一个具有透射雷达场而另一个具有反射雷达场(如下文描述)之外相同的两个图示(102-1和102-2)。
智能设备104包括非视距姿势识别系统116(NLOS系统116),其提供直射雷达场118。直射雷达场118不具有对房间102的某些部分(此处是体积120)的视距。由于作为障碍物108之一的沙发108-1,第一体积120-1不具有对NLOS系统116的视距。由于作为另一个障碍物108的花盆108-2,第二体积120-2不具有对NLOS系统116的视距。
NLOS识别系统116还能够提供反射雷达场122,能够识别在直射视距不可获得的部分或全部体积120内的姿势。这一反射雷达场122通过雷达传输线124、通过在本文其它地方提供的对传输线的另外描述而示出。虽然雷达场118和122二者可以一起被使用,但是为了观察清楚,二者分别示出。
虽然未在图1中示出,NLOS系统116还可以提供透射雷达场。这一雷达场被构造为穿透各种材料,例如木材、棉花、尼龙或皮革,但是从人体组织反射,从而进一步地能够识别部分或全部不在视距中的、或以其它方式相对于NLOS系统116被阻挡的姿势。
更详细地,考虑图2,其示出智能设备104。智能设备104包括一个或多个计算机处理器202以及计算机可读介质204(例如记忆介质和存储介质)。实施为在计算机可读介质204上的计算机可读指令的应用和/或操作系统(未示出)可以由处理器202执行,以提供本文所述的某些功能。计算机可读介质204还包括场管理器206(在下文示出)。
智能设备104还包括网络接口208,用于通过有线网络、无线网络或光网络通信数据。作为举例而非限制,网络接口208可以通过局域网络(LAN)、无线局域网络(WLAN)、个人域网络(PAN)、广域网络(WAN)、内联网、互联网、对等网络、点对点网络、网状网络等通信数据。智能设备104还可以包括显示器210,尽管其不是必需的。
智能设备104还包括或具有如上文所述的NLOS系统116的接入,其被配置为提供雷达场,通过该雷达场感测姿势。为了实现这点,NLOS系统116包括微波无线电元件212、天线元件214和信号处理器216。通常,微波无线电元件212被配置为提供具有上文所述的直射雷达场和反射雷达场的雷达场,还可以包括透射雷达场。尽管本文所示的示例通常显示每个设备具有一个NLOS系统116,但是可以使用多个,从而增加对体积(例如房间102)的覆盖,以及增加姿势识别的数量、复杂度、精确度、分辨率以及鲁棒性。
微波无线电元件212可以配置为发射一组或多组连续的调制辐射、超带宽辐射或亚毫米频率辐射。在某些情况下,微波无线电元件212配置为形成辐射束,所述辐射束辅助天线元件214和信号处理器216确定哪一束被中断,并且因此确定在雷达场内的(例如通过手)的交互的位置。更具体地,微波无线电元件212可以配置为发射在1GHz至300GHz、以及57GHz至63GHz范围内的微波辐射,以提供雷达场。该范围影响天线元件214的感测交互的能力,例如以大约2至大约25毫米的分辨率追踪两个或更多个目标的位置。微波无线电元件212连同NLOS系统116的其它实体一起,可以被配置为具有相对快速的更新速率,其可以辅助交互的分辨率。通过选择特定的频率,NLOS系统116可以操作,以提供直射雷达场,以从视距姿势反射,所反射的雷达场首先从某个物体或多个物体上反射,随后从非视距姿势上反射;和/或提供透射雷达场,以在从人体组织反射时穿透衣物以及类似材料。
天线元件214被构造为接收雷达场的反射、或感测在雷达场中的交互,并且信号处理器216被构造为处理雷达场中反射或感测的交互,其足以提供可用于确定来自感测的交互的姿势的姿势数据。天线元件214可以包括一个或多个传感器,例如辐射传感器阵列,阵列中的传感器的数量基于期望的分辨率以及雷达场是否是直射、反射还是透射的。替换地或另外地,天线元件214可以包括一个或多个天线,例如天线阵列,其直接地或以其它方式与相应的辐射传感器和/或信号处理器216耦合。
另外,天线元件214或信号处理器216可以配置为区别雷达场中的交互来自直射、透过材料、或被反射之后的雷达传输。因此,具有NLOS系统116的媒体播放器可以区别直接反射自用户手部的雷达波与首先从天花板(例如涂漆的、石膏砌墙的天花板)反射并随后从用户的手部反射出的雷达波。
由微波无线电元件212提供的雷达场可以包括一个或多个三维(3D)体积、平面或表面(例如施加在用户手部上的表面)。在这些情况的每一个中,天线元件214被配置为感测一个或多个目标(例如双手,一只或两只手的手指等)的交互,并且,信号处理器216被配置为处理感测到的交互,其足以提供可用于在三个维度上确定姿势的姿势数据。
通过提供的雷达场,例如图1中的直射雷达场118和反射雷达场124,用户可以通过中断该场的设备(例如触针)或手部来执行复杂的或简单的姿势。示例性姿势包括可通过现有的触摸传感显示器使用的姿势,例如扫掠、二指夹紧和打开、点击等。其它可用姿势是复杂或简单但是三维的姿势,示例包括各种手语姿势,例如美国手语(ASL)以及世界各地手语中的姿势。这些中的一些包括上下拳,其在ASL中意思是“是”;伸开的食指和中指移动接触伸开的拇指,其意思是“否”;平手上移动一步,其意思是“前进”;平坦和成角度的手上下移动,其意思是“下午”;紧握的手指和打开的拇指运动至打开的手指和打开的拇指,其意思是“出租车”;食指沿着基本垂直的方向向上运动,其意思是“向上”,等。这些仅是可以映射至特定的设备和应用的多种姿势中的少数一些,例如,通过非视距姿势,“前进”姿势用于跳过正在被媒体播放器播放的另一首音乐。
如上文所述,NLOS 116可以提供透射雷达场,其能够穿透某些物体和材料,并且随后从人体组织反射。这在图3中示出,其显示手302,透射雷达场304接触手302的表面306。这一透射雷达场304透过椅子308,以随后从表面306反射,并返回在NLOS系统116的天线元件214处被接收。微波无线电元件212(未示出)提供透射雷达场304,同时,天线元件214被配置为接收由手302的表面306的交互导致的反射,该反射透过并随后穿过椅子308反射回,在天线元件处,信号处理器216配置为处理接收的反射,其足以提供用于确定姿势的姿势数据。
姿势可以与各种智能设备关联,例如除智能设备104之外的设备。为了实现这点,姿势可以映射至预先配置的控制姿势,其与用于与这些设备中的任意设备关联的应用的控制输入相关联。因此,姿势可以被设置以基于姿势本身控制应用和/或设备,而不是首先选择意图控制哪个设备或应用。例如,多种复杂和独特的姿势可以由NLOS系统116识别,由此允许精确的和/或单一姿势的控制,甚至用于多种应用。将这些姿势映射至各种不同的设备和应用允许在明确选择或未明确选择(通常通过姿势)意图控制哪个设备的情况下控制。
智能设备104通过各种非限制性示例设备示出:智能手机104-1、冰箱104-2、微波炉104-3、膝上型电脑104-4、平板电脑104-5和电视104-6,然而,还可以使用其它设备,例如气候控制设备(例如恒温器或天花板风扇)、可穿戴设备、台式电脑、上网本、电子书、相机、车辆系统等。
NLOS系统116还包括收发器218,其配置为将姿势数据传输至远程设备,例如在NLOS系统116未与智能设备104集成的情况下。姿势数据可以设置为可用于接收设备足以通过姿势数据识别姿势的格式。
NLOS系统116可以包括一个或多个系统处理器220和系统介质222(例如一个或多个计算机可读存储介质)。系统介质222包括系统管理器224,其可以执行各种操作,包括基于来自信号处理器216的姿势数据确定姿势,将所确定的姿势映射至预先配置的控制姿势,该控制姿势与用于与远程智能设备关联的应用的控制输入相关联,以及致使收发器218发送控制输入至远程智能设备,从而能够执行对该应用或设备的控制。这仅是可以通过NLOS系统116实现上述控制的方式中的一个。还应注意,当NLOS系统116示出为与智能设备104集成时,其可以替代地是设备的部分,该设备具有很少或不具有计算能力,并且仍然允许姿势数据被识别和/或映射至控制输入。作为下文的方法400和600的一部分而更详细地提供NLOS系统116、系统管理器224和场管理器206的操作。
下文更详细地描述这些和其它能力和配置,以及图1-3的实体动作和交互的方式。这些实体可以进一步分开、组合等。图1的环境100和图2和图3的详细图示示出了多种能够使用所描述的技术的一些可能的环境和设备。
示例性方法
图4和图6示出了方法400和600。方法400实现使用反射雷达场的非视距的基于雷达的姿势识别,并且可以与方法600分开执行或整合为整体执行或作为方法600的部分。方法600实现非视距的基于雷达的姿势识别,其中,对于一个雷达系统不存在直射视距,但是通过另一雷达系统识别姿势,并且随后通过直射或非直射雷达场传递至另一雷达系统。
这些方法以被执行的操作(或动作的)的组示出,但是不必限制为在此所示的操作的组合或顺序。另外,任意一个或多个操作可以重复、组合、重组或链接,以提供大量的额外方法和/或替代方法。在以下讨论的部分中,可以参考图1的环境100,以及在图2、3、5和7中详细示出的实体和示例,对这些的参考仅用于示例。该技术并不限制于由在一个设备上操作的一个实体或多个实体执行。
在402处,确定其中不存在至雷达系统的视距的房间的体积。该技术可以通过各种方式确定这一体积,例如通过追踪运动的实体、相机、返回(例如反射)的雷达传输等。
例如,场管理器206可以通过雷达传输追踪人或动物在房间中的运动。在人或动物的部分的运动期间,如果场管理器206接收不到来自该人和动物的反射,则场管理器206可以基于人或动物投射的路径或人或动物的不再可追踪的部分(例如走到沙发后面的人的腿部)来确定房间内直射视距不可用的体积。
场管理器206还可以或替代地使用相机或其它利用雷达或其它方式的图像传感器。场管理器206使用相机采集图像,以提供从NLOS系统116的视角的房间的图像。场管理器206随后接收或确定(例如通过声呐或雷达反射)房间的尺寸(例如4米宽、7米深、3米高)。通过房间的图像和这些尺寸,可以确定未被成像但是存在的地板、墙壁、天花板区域。通过这一数据,场管理器206可以随后确定其中不存在至NLOS系统116的视距的房间的体积。
另外,场管理器206可以基于这些障碍物确定非视距体积。因此,在提供直射雷达场以接收来自房间中物体的反射时,场管理器206假定障碍物背后的区域可能是在其中做出可能姿势的体积,在任何情况下,很可能是房间的一部分并且不具有视距。作为这一确定的部分,障碍物是除地板、墙壁、房间的天花板之外的物体。某些物体反射雷达,某些是雷达可以穿透的物体。因为这点,由雷达场穿透的物体的部分可以降低所述体积的尺寸。
在404处,一组传输路径足以致使在所述体积的至少一部分内提供反射雷达场,所述体积通过提供从雷达系统到房间中的雷达传输而确定。如上文部分地所述,确定视距不可用的体积可以包括雷达反射,其中,某些传输路径是已知的。然而在许多情况下,所述体积已知,但是导致反射雷达场的传输路径不是已知的。
为了确定这些传输路径,场管理器206可以反复地提供雷达传输,并且接受来自所提供的雷达传输的反射。这些雷达传输中的某些可以穿过所确定的体积,因此不是必需的。然而,其它一些雷达传输穿过所确定的体积中的一个体积,并且随后与该体积关联。在另一情况中,人或动物穿过所确定的体积,并且,雷达传输反复地提供,并且在从人或动物反射时关联至所述体积。在这一操作中,可以使用各种类型和频率的雷达传输,包括窄束传输和反射。
作为示例,考虑图5,其示出图1的房间102,其包括智能设备104、用户106、障碍物108、墙110、地板112、天花板114、NLOS系统116、体积120-1和120-2。两个传输路径被示出,墙壁和物体反射路径502,以及天花板和地板路径504。这些仅示出能够提供反射雷达场122的多个不同的传输路径中的两个(如图1所示,并且在图5中为了清楚而省略)。
墙壁和物体反射路径502包括八个部分,每个部分从物体或墙壁反射或来自于反射。因此,路径502从NLOS系统116行进至墙壁110中的一个、随后又从另一墙壁110反射、随后从沙发108-1的背后反射、返回至另一墙壁110、至沙发108-1、至另一墙壁110、随后从花盆108-2反射,并且随后返回至NLOS系统116。某些传输路径不导致反射返回,因此可以被摒弃,而另一些仅在具有NLOS系统116的视距的体积内通过,因此也可以被摒弃。路径504从NLOS系统116行进至天花板114(示出在圆圈处反射),随后至墙壁110中的一个,从地板112反射(示出在方形处反射),从天花板114反射,并且随后返回至NLOS系统116。这两个路径502、504仅提供了两个示例性传输路径,借此,NLOS系统116和场管理器206可以提供在NLOS系统116的视距不可用的体积中的反射雷达场(例如图1的122)。如上所述,这一反射雷达场使得在所有或某些体积120内做出的姿势被拒绝。
在406处,在房间的一个或多个体积内提供雷达场,该雷达场至少包括反射雷达场。在某些情况下,雷达场还包括本文所述的直射雷达场或透射雷达场。通过如此操作,可以提供可用于识别姿势的雷达场以用于不具有自雷达场系统的直射视距的姿势。
在408处,在房间内的雷达场内做出的姿势交互的反射被接收。这一反射能够采集关于姿势交互的数据,该数据随后被用于确定正在被做出的姿势。这一反射可以在如上所述的反射、直射或透射雷达场内。
在410处,基于与该姿势交互的反射相关联的采集的数据确定姿势。所确定的姿势可以是如上所述的多种姿势中的一个,包括直接映射至设备或应用和控制命令的姿势,例如将电视机静音。
在412处,所确定的姿势被提供至设备或应用,效果为控制该设备或应用。作为该提供的一部分,场管理器206可以确定将该控制发送至哪一设备或应用,例如通过分析至各个设备和应用的姿势映射图。
图6示出方法600,其使得非视距的基于雷达的姿势识别能够有效地控制不具有至用户的视距的智能设备,或与其通信。
在602处,提供雷达场,例如具有一个或多个直射、反射、或透射雷达场的场,如上文所述。这一雷达场可以由雷达系统提供,其具有或不具有至做出姿势的用户的视距。
在604处,来自该雷达场内的交互的反射由雷达系统感测。这一雷达系统被假定为具有视距,或能够对不具有视距进行补偿,效果为接收来自用户的反射。然而,另一智能设备,其可以具有或不具有雷达系统,其不具有至用户的视距,并且不能补偿。因此,这两种设备可以不具有至用户的视距,但是这些设备中的一个能够感测反射,例如通过透射或反射雷达场。
作为示例,考虑图7,其示出房屋的地板702。这一房屋包括四个房间704,包括媒体室704-1、钢琴室704-2、起居室704-3、以及厨房/餐厅704-4。如所示,存在五个雷达系统706,媒体播放器708的雷达系统706-1、恒温器710的雷达系统706-2、电视712的雷达系统706-3、烤箱714的雷达系统706-4、以及微波炉716的雷达系统706-5。图7示出了多种情况,其中,该技术支持姿势识别,而无需至一意图被控制的智能设备的视距,例如当用户708在厨房704-4中时想要控制电视712时。为了实现这点,场管理器206在不与用户718处于同一房间中的雷达系统706中的一个的NLOS系统116处接收来自用户718的反射。
作为一具体示例,假定用户718处于厨房/餐厅704-4中,并且想要通过控制恒温器710降低室内热度,恒温器710位于钢琴室704-2中。为此,用户718做出姿势以降低热度,同时站在厨房/餐厅704-4中,其在操作604处,在烤箱714的雷达系统706-4中操作的NLOS系统116接收姿势。通过在NLOS系统116的天线处接收用户718在雷达场720内的反射而接收姿势。
在606处,基于所接收到的反射识别姿势。这可以在与雷达系统关联的智能设备处执行,在该雷达系统处接收反射,或者用于该反射的姿势数据可以在意图被控制的智能设备处被接收。因此,场管理器206或系统管理器224可以接收反射,并将用于反射的姿势数据传输至另一智能设备,例如至房屋或办公室中的其它所有雷达系统和/或设备。在这一情况中,基于从姿势数据所确定的姿势,智能设备可以确定该控制是否意图用于它们,例如已经接收了在先的姿势,其选择控制这一设备,或接收与该智能设备相关联的姿势。
在608处,姿势被确定与非视距智能设备关联或不关联。通常,场管理器206可以通过将该姿势映射至预先配置的姿势而确定姿势与非视距智能设备关联,以建立与该非视距设备的通信。在某些情况中,这一预先配置的姿势建立与非视距智能设备的通信,效果为使得在智能设备处确定的将来的姿势能够控制该非视距智能设备。在某些情况下,场管理器206可以通过将该姿势映射至一特定姿势而确定该姿势与非视距智能设备关联。这一特定姿势可以具有一组特定姿势,其特定地映射至某一集合的智能设备组中的每一组,例如图7中的地板702上的智能设备。
继续参考图7的示例,假定在烤箱714的雷达系统706-4的NLOS系统116处操作的场管理器206识别由用户718做出的姿势。这一姿势可以随后被确定为指示恒温器710的控制,在其之后,基于指示意图控制恒温器710的在先姿势,另一姿势被识别并随后被确定与恒温器710关联。例如,假定一特定的复杂姿势,其具有上下运动的合拢的手部和展开的拇指,该姿势与恒温器710关联。第二姿势,在此假定为非特定幅度的顺时针和逆时针运动的杯形手姿势,其分别指示调高或调低某物。因为在指示意图控制恒温器710的第一姿势之后这一第二姿势被立即接收,随后通过重复方法600的步骤并随后传递(在操作610处)至恒温器710,效果为调高或调低热度。图6的虚线箭头显示这一重复。
类似地,如果第一姿势与媒体播放器708的控制关联,指示调高或调低的第二姿势将会替代地调高或调低媒体播放器708的音量,所有都不具有意图的智能设备的视距。
在610处,姿势传递至非视距智能设备。因此,姿势可以从一个智能设备传递至另一智能设备,效果为使得该姿势能够控制该非视距智能设备或建立与该非视距智能设备的通信。
前述的讨论描述涉及非视距的基于雷达的姿势识别的方法。这些方法的各方面可以在硬件(例如固定的逻辑电路)、固件、软件、人为操作、或其组合中而实现。这些技术可以在图1-3、5、7、8中示出的实体的一个或多个中实施(计算系统800参考以下的图8描述),其可以被进一步分开、组合等。因此,这些视图示出能够使用所描述的技术的各种可能的系统或设备中的某些。这些视图的实体通常代表软件、固件、硬件、整个设备或网络、或其组合。
示例性计算系统
图8示出示例性计算系统800的各种部件,其可以实现为参考之前图1-7所述的任意类型的客户端、服务器和/或智能设备,以实现非视距基于雷达的姿势识别。在实施例中,计算系统800可以实现为有线和/或无线的可穿戴设备、片上系统(SoC)中的一个或组合,和/或实现为另一类型的设备或其部分。计算系统800还可以与用户(例如个人)和/或操作该设备的实体关联,例如描述逻辑设备的设备,其包括用户、软件、固件和/或设备的组合。
计算系统800包括通信设备802,其允许设备数据804(例如接收的数据、正在被接收的数据、被预定用于广播的数据、数据的数据包等)的有线和/或无线的通信。设备数据804或其它设备内容可包括设备的配置设定、存储在设备上的媒体内容和/或与设备的用户关联的信息。存储在计算系统800上的媒体内容可以包括任意类型的音频、视频和/或图像数据。计算系统800包括一个或多个数据输入806,经由该输入,任意类型的数据、媒体内容、和/或输入可以被接收,例如人类语言、与雷达场的交互、用户可选择的输入(明确的或不明确的)、信息、音乐、电视媒体内容、录制的视频内容、以及从任意内容和/或数据源接收的任意其它类型的音频、视频和/或图形数据。
计算系统800还包括通信接口808,其可以实现为串行和/或并行接口、无线接口、任意类型的网路接口、调制解调器中的任意一个或多个,以及实现为任意其它类型的通信接口。通信接口808提供计算系统800和通信网络之间的连接和/或通信链路,其它电子设备、计算设备和通信设备通过该通信接口与计算系统800通信数据。
计算系统800包括一个或多个处理器810(例如,任何微型处理器、控制器等),其处理各种计算机可执行的指令以控制计算系统800的操作,并且实现用于非视距的基于雷达的姿势识别的技术,或在其中可以实施该技术。替代地或另外地,计算系统800可以通过硬件、固件、或固定逻辑电路中的一个或组合实现,所述固定逻辑电路实现为连接在812处一般性示出的处理和控制电路。尽管未示出,但是计算系统800可以包括系统总线或数据传输系统,其联接设备内的各种部件。系统总线可以包括不同总线结构的任一种或组合,例如存储器总线或存储器控制器、外围总线、通用串行总线、和/或处理器或局域总线,其使用各种总线架构中的任意类型。
计算系统800还包括计算机可读介质814,例如一个或多个存储器设备,其允许永久性的和/或非暂时性的数据存储(即与仅仅是信号传输相反),其示例包括随机访问存储器(RAM)、非易失性存储器(例如只读存储器(ROM)、闪存、EPROM,EEPROM等中的任意一个或多个)以及磁盘存储设备。磁盘存储设备可以实现为任意类型的磁学或光学存储设备,例如硬盘驱动器、可录制和/或可重写的光盘(CD)、任意类型的数据多样化数位光碟(DVD)等。计算系统800还可以包括质量存储介质设备816。
计算机可读介质814提供数据存储机制,以存储设备数据804,以及各种设备应用818以及任意其它类型的信息和/或与计算系统800的操作方面相关的数据。例如,操作系统820可以通过计算机可读介质814保持为计算机应用,并且在处理器810上执行。设备应用818可以包括设备管理器,例如任意形式的控制应用、软件应用、信号处理和控制模块、在特定设备本地的代码、用于特定设备的硬件抽象层等。
设备应用818还包括任意的系统部件、引擎、或管理器,以实现非视距的基于雷达的姿势识别。在这一示例中,设备应用818包括场管理器206和系统管理器224。
结论
尽管已经具体于特征和/或方法的文字而描述了使用非视距的基于雷达的姿势识别的技术和实现非视距的基于雷达的姿势识别的设备的实施例,但是将理解,所附权利要求书的主题不必需地限制至所描述的具体特征或方法。而是,具体的特征和方法作为实现非视距的基于雷达的姿势识别的示例性实施例而公开。
Claims (20)
1.一种智能设备,包括:
非视距姿势识别系统,被配置为:
提供雷达场,所述雷达场包括反射雷达场,所述反射雷达场设置在房间的一个或多个体积中,对于所述一个或多个体积,来自所述非视距姿势识别系统的直射视距不可获得;
感测来自反射雷达场内的交互的反射,来自所述反射雷达场内的交互的反射从所述房间的表面反射并且在所述非视距姿势识别系统的天线处被接收;
在与反射雷达场关联的智能设备处并且基于来自反射雷达场内的交互的反射识别姿势;以及
确定姿势与非视距智能设备关联;以及
收发器或网络接口,被配置为以非视距智能设备可用以识别姿势的格式将姿势从智能设备传递到非视距智能设备,以及效果为使得所述姿势能够控制所述非视距智能设备或建立与所述非视距智能设备的通信。
2.根据权利要求1所述的智能设备,其中,所述非视距姿势识别系统还被配置为:提供具有直射雷达场和反射雷达场的雷达场,以及其中所述交互在所述反射雷达场内,并且从所述反射雷达场内的交互感测所述反射。
3.根据权利要求2所述的智能设备,其中,所述非视距姿势识别系统被配置为感测来自所述反射雷达场内的交互的反射。
4.根据权利要求1-3中任一项所述的智能设备,其中,所述非视距姿势识别系统还被配置为:提供具有直射雷达场和透射雷达场的雷达场,所述透射雷达场设置在房间的一个或多个体积中,对于所述一个或多个体积,来自所述非视距姿势识别系统的直射视距不可获得,以及其中所述交互在所述透射雷达场内,并且从所述透射雷达场内的交互感测所述反射。
5.根据权利要求4所述的智能设备,其中,配置所述非视距姿势识别系统以感测来自所述透射雷达场内的交互的反射在所述非视距姿势识别系统的天线处被接收,并且穿过遮蔽透射雷达场内的交互的物体。
6.根据权利要求1所述的智能设备,其中,所述非视距姿势识别系统还被配置为:从第二非视距姿势识别系统接收第二姿势,所述第二非视距姿势识别系统与所述非视距智能设备关联,所述第二姿势与所述智能设备关联,以及其中所述非视距姿势识别系统还被配置为基于第二姿势控制所述智能设备。
7.根据权利要求1所述的智能设备,其中,所述姿势与非视距智能设备关联的确定将所述姿势映射至预先配置的与用于关联于所述非视距智能设备的应用的控制输入关联的控制姿势。
8.根据权利要求1所述的智能设备,其中,所述姿势与非视距智能设备关联的确定将所述姿势映射至预先配置的与所述非视距智能设备关联的通信建立姿势。
9.根据权利要求1所述的智能设备,其中,所述收发器或网络接口还被配置为:响应于确定姿势与建立通信关联而建立与非视距智能设备的通信,所述建立通信的效果为能够通过将来的姿势进行控制,该将来的姿势在智能设备处确定并且通过所述智能设备的非视距姿势识别系统感测。
10.根据权利要求1所述的智能设备,其中,姿势与非视距智能设备关联的确定将所述姿势映射至特定于一组智能设备中的每一个智能设备的一组特定姿势中的一个特定姿势。
11.一种用于非视距姿势识别的系统,包括:
非视距姿势识别系统,被配置为:
在房间内提供雷达场,所述雷达场包括反射雷达场,所述反射雷达场从房间的一个或多个表面反射并设置在房间的一个或多个体积中,对于所述一个或多个体积,来自所述非视距姿势识别系统的直射视距不可获得;以及
接收在房间中的一个或多个体积内做出的姿势交互的反射,对于所述一个或多个体积,来自所述非视距姿势识别系统的直射视距不可获得,所述反射能够采集关于姿势交互的数据;
一个或多个处理器;以及
一个或多个计算机可读存储介质,其上存储有指令,所述指令响应于由所述一个或多个处理器执行而实现系统管理器,所述系统管理器被配置为:
基于与姿势交互的反射关联的采集的数据确定姿势;以及
将所述姿势提供给设备或应用,效果为控制所述设备或应用。
12.根据权利要求11所述的系统,其中,姿势交互的反射在所述反射雷达场中的一个反射雷达场内做出,并且所述反射由所述非视距姿势识别系统的天线接收,来自从所述房间的一个或多个表面中的一个表面的第二反射。
13.根据权利要求11-12中任一项所述的系统,其中,在所述房间内提供雷达场还在所述房间的一个或多个体积的部分内提供透射雷达场,其中,来自所述非视距姿势识别系统的直射视距不可获得。
14.根据权利要求13所述的系统,其中,所述姿势交互的反射在所述透射雷达场中的一个透射雷达场内做出。
15.一种非视距姿势识别系统,被配置为:
接收或采集房间的图像;
接收或确定所述房间的尺寸;
至少部分地基于所述图像和所述房间的尺寸确定所述房间的体积,在所述体积中不存在至所述非视距姿势识别系统的视距;以及
通过将雷达传输提供到房间中来确定足以致使在所述体积的至少一部分内提供反射雷达场的一组传输路径,所述反射雷达场能够采集与所述反射雷达场的姿势交互。
16.根据权利要求15所述的非视距姿势识别系统,其中,确定所述房间的体积包括通过雷达传输追踪人或动物在所述房间中的运动,并且,在所述运动的一部分期间,没有接收来自该人或动物或该人或动物的一部分的反射。
17.根据权利要求15-16中任一项所述的非视距姿势识别系统,其中,确定所述房间的体积还包括:
提供雷达场,效果为接收来自房间中的物体的反射;以及
确定不存在至所述非视距姿势识别系统的视距的房间的体积为相对于所述非视距姿势识别系统在所述物体的背后。
18.根据权利要求15所述的非视距姿势识别系统,其中,所述一组传输路径的确定重复地提供雷达传输,并且关联来自重复地提供的雷达传输的反射。
19.根据权利要求15所述的非视距姿势识别系统,还被配置为:
在所述体积内提供反射雷达场;
接收在所述体积内做出的姿势交互的反射;
基于所述姿势交互的反射确定在所述体积内做出的姿势;以及
使得基于确定的姿势控制设备或应用。
20.根据权利要求15所述的非视距姿势识别系统,还被配置为:基于所述房间的尺寸和所述房间的图像确定未成像但存在的地板、墙壁或天花板区域,以及其中部分地基于所述未成像但存在的地板、墙壁或天花板区域而确定所述房间的体积,在该体积中不存在至所述非视距姿势识别系统的视距。
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