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    • 1. 发明申请
    • GATED STRUCTURED IMAGING
    • 镶嵌结构成像
    • WO2017009848A1
    • 2017-01-19
    • PCT/IL2016/050770
    • 2016-07-14
    • BRIGHTWAY VISION LTD.
    • GRAUER, YoavDAVID, OferLEVI, Eyal
    • G01S17/89
    • G01S17/89G01S7/4863G01S7/4865G01S17/107G01S17/46G01S17/936
    • Methods and systems are provided, which illuminate a scene with pulsed patterned light having one or more spatial patterns; detect reflections of the pulsed patterned light from one or more depth ranges in the scene, by activating a detector for detecting the reflections only after respective traveling times of the illumination pulses, which correspond to the depth ranges, have elapsed; and derive an image of the scene from the detected reflections and according to the spatial patterns. The methods and systems integrate gated imaging and structured light synergistically to provide required images which are differentiated with respect to object ranges in the scene and different patterns applied with respect to the objects and their ranges.
    • 提供了方法和系统,其利用具有一个或多个空间图案的脉冲图案光照亮场景; 通过仅在与深度范围相对应的照明脉冲的相应行进时间之后激活用于检测反射的检测器来检测来自场景中的一个或多个深度范围的脉冲图案化光的反射; 并从检测到的反射和根据空间模式导出场景的图像。 方法和系统将门控成像和结构化光协同地整合,以提供相对于场景中的对象范围区分的所需图像以及相对于对象及其范围应用的不同图案。
    • 2. 发明申请
    • PULSED LIGHT ILLUMINATOR HAVING A CONFIGURABLE SETUP
    • 脉冲发光灯具有可配置的设置
    • WO2018055611A1
    • 2018-03-29
    • PCT/IL2017/051040
    • 2017-09-14
    • BRIGHTWAY VISION LTD.
    • KRELBOIM, AlonLEVI, EyalDRANOVSKY, AlexanderGRAUER, Yoav
    • G01S17/88G01S7/486H04N13/02
    • Gated imaging system for gated imaging for generating at least one light pulse, the gated imaging system being mounted on a vehicle, including a pulsed light illuminator, a synchronization controller and at least one sensor, the pulsed light illuminator including a power supply, a light and drive unit and a system level controller, the light and drive unit including at least one semiconductor light source and an electronic driver, the synchronization controller being coupled with the pulsed light illuminator, the semiconductor light source and the sensor, the light and drive unit being coupled with the power supply, and the semiconductor light source being coupled with the electronic driver, the semiconductor light source for generating and emitting the light pulse towards a scene of observation, the electronic driver for providing a drive current to the semiconductor light source and the sensor for receiving reflections of the light pulse from the scene of observation.
    • 用于产生至少一个光脉冲的选通成像的选通成像系统,所述选通成像系统安装在包括脉冲光照明器,同步控制器和至少一个传感器的车辆上,所述脉冲光 照明器,包括电源,灯和驱动单元以及系统级控制器,所述灯和驱动单元包括至少一个半导体光源和电子驱动器,所述同步控制器与所述脉冲光照明器,所述半导体光源和 所述传感器,所述灯和所述驱动单元与所述电源耦合,并且所述半导体光源与所述电子驱动器耦合,所述半导体光源用于产生并朝向观察场景发射所述光脉冲,所述电子驱动器用于提供 驱动电流到半导体光源和传感器,用于接收来自观察场景的光脉冲的反射。 p>
    • 3. 发明申请
    • OBJECT DETECTION ENHANCEMENT OF REFLECTION-BASED IMAGING UNIT
    • 基于反射的成像单元的对象检测增强
    • WO2016092537A1
    • 2016-06-16
    • PCT/IL2015/051173
    • 2015-12-03
    • BRIGHTWAY VISION LTD.
    • GRAUER, YoavDAVID, Ofer
    • G02B27/00
    • G06K9/00805G01S17/107G01S17/89G01S17/936G02B23/12G06K9/00791G06K9/2018G06K9/4661G06K9/6293H04N5/2257H04N5/23216H04N5/332
    • Imaging system and method, the system including a main detection unit, an auxiliary detection unit, an image processor, and a controller. The main detection unit includes a light source that emits light pulses and a gated image sensor that receives reflections of the light pulses reflected from a selected depth of field in the environment and converts the reflections into a reflection-based image. The auxiliary detection unit includes a thermal sensor that detects infrared radiation emitted from the environment and generates an emission-based image. The image processor processes and detects at least one region of interest in the acquired reflection-based image and/or acquired emission-based image. The controller adaptively controls at least one detection characteristic of a detection unit based on information obtained from the other detection unit. The image processor detects at least one object of interest in the acquired reflection-based image and/or acquired emission-based image.
    • 成像系统和方法,该系统包括主检测单元,辅助检测单元,图像处理器和控制器。 主检测单元包括发射光脉冲的光源和门控图像传感器,其接收从环境中的所选景深反射的光脉冲的反射,并将反射转换成基于反射的图像。 辅助检测单元包括检测从环境发出的红外线辐射并产生基于发射的图像的热传感器。 图像处理器处理并检测所获取的基于反射的图像和/或获取的基于发射的图像中的至少一个感兴趣区域。 控制器基于从其他检测单元获得的信息自适应地控制检测单元的至少一个检测特性。 图像处理器在所获取的基于反射的图像和/或获取的基于发射的图像中检测至少一个感兴趣对象。
    • 4. 发明申请
    • GATED SENSOR BASED IMAGING SYSTEM WITH MINIMIZED DELAY TIME BETWEEN SENSOR EXPOSURES
    • 基于传感器的传感器成像系统,在传感器曝光之间具有最小的延迟时间
    • WO2015198300A1
    • 2015-12-30
    • PCT/IL2015/050526
    • 2015-05-18
    • BRIGHTWAY VISION LTD.
    • GRAUER, YoavDAVID, OferLEVI, Eyal
    • G01S17/89G01S7/483
    • G01S17/89G01S7/483G01S7/4865G01S7/4868G01S11/12G01S17/107H04N5/35536H04N5/35572
    • Active or passive gated-sensor imaging system characterized by a minimized time period between successive sensor exposures. In the active imaging system, a light source emits light pulses toward a region of interest, and an image sensor receives reflections of the pulses reflected from objects located in a DOF to be imaged and converts the reflections into an image. Each frame of the image includes a plurality of gating cycles. Each gating cycle includes the emission of a respective light pulse and the reception of reflections of the respective pulse. A delay-time (T DELAY ) is defined as the duration between the sensor exposure periods of successive gating cycles. A controller controls the operation of the light source and the image sensor, to minimize the delay-time for at least one gating cycle of an image frame, where the delay-time is adaptively determined in accordance with at least one system parameter or environmental condition.
    • 主动或被动门控传感器成像系统的特征在于连续传感器曝光之间的最小化时间周期。 在有源成像系统中,光源朝向感兴趣区域发射光脉冲,并且图像传感器接收从位于待成像的DOF中的物体反射的脉冲的反射,并将反射转换为图像。 图像的每个帧包括多个门控周期。 每个门控周期包括发出相应的光脉冲和接收相应脉冲的反射。 延迟时间(TDELAY)被定义为连续门控周期的传感器曝光周期之间的持续时间。 控制器控制光源和图像传感器的操作,以使图像帧的至少一个门控周期的延迟时间最小化,其中延迟时间根据至少一个系统参数或环境条件自适应地确定 。
    • 6. 发明申请
    • GATED IMAGING APPARATUS, SYSTEM AND METHOD
    • 门控成像装置,系统和方法
    • WO2017149370A1
    • 2017-09-08
    • PCT/IB2016/057853
    • 2016-12-21
    • BRIGHTWAY VISION LTD.
    • SONN, EzriOVED, AmitLEVI, EyalGRAUER, YoavDAVID, Ofer
    • G01S17/10G01S17/89G01S17/93
    • A method for depth mapping of objects in a scene by a system of a moving/movable platform is disclosed, comprising actively illuminating the scene with pulsed light that is generated by at least one pulsed light illuminator; receiving, responsive to illuminating the scene, reflections on at least one image sensor that comprises a plurality of pixel elements; gating at least one of the plurality of pixel elements of the at least one image sensor for converting the reflections into pixel values for generating reflection-based images that have at least two depth-of-field ranges and an overlapping DOF region; and determining, based on at least one first pixel value of a first DOF in the overlapping DOF region, and based on at least one second pixel value of a second DOF in the overlapping DOF region, depth information of one or more objects located in the overlapping DOF region of the scene.
    • 公开了一种用于通过移动/可移动平台的系统对场景中的对象进行深度映射的方法,包括利用由至少一个脉冲光照明器产生的脉冲光主动地照亮场景; 响应于照亮场景,接收对包括多个像素元件的至少一个图像传感器的反射; 门控所述至少一个图像传感器的所述多个像素元件中的至少一个,用于将所述反射转换成像素值,以用于生成具有至少两个景深范围和重叠的DOF区域的基于反射的图像; 以及基于重叠的DOF区域中的第一DOF的至少一个第一像素值并基于重叠的DOF区域中的第二DOF的至少一个第二像素值来确定位于所述重叠DOF区域中的一个或多个对象的深度信息 重叠场景的DOF区域。
    • 7. 发明申请
    • METHOD AND SYSTEM FOR PATTERN DETECTION, CLASSIFICATION AND TRACKING
    • 用于模式检测,分类和跟踪的方法和系统
    • WO2015189851A1
    • 2015-12-17
    • PCT/IL2015/050595
    • 2015-06-11
    • BRIGHTWAY VISION LTD.
    • GRAUER, YoavDAVID, Ofer
    • G06K9/00
    • G06K9/00798G06K9/2027G06K9/4604G06K9/4661H04N5/2256H04N7/183
    • A method for pattern detection, classification and tracking is provided herein. The method may include: illuminating a scene according to specified illumination parameters; capturing image frames of the scene by exposing a capturing device, wherein the exposures are synchronized with reflections originated by the illuminating, according to specified synchronization parameters; obtaining one or more pattern to be detected; and detecting the one or more pattern to be detected in the captured images, based on a database of a plurality of patterns, wherein the specified illumination parameters and the specified synchronization parameters are selected such that the at least one pattern to be detected is more detectable at the captured image frames.
    • 本文提供了一种用于模式检测,分类和跟踪的方法。 该方法可以包括:根据指定的照明参数照亮场景; 通过暴露捕获装置来捕获场景的图像帧,其中根据指定的同步参数,曝光与由照明产生的反射同步; 获得要检测的一个或多个图案; 以及基于多个模式的数据库来检测所捕获的图像中要检测的一个或多个图案,其中所述指定的照明参数和所述指定的同步参数被选择为使得所述至少一个要检测的图案更可检测 在捕获的图像帧。
    • 9. 发明申请
    • SELF-PRESSURE REGULATOR TIRE MECHANISM
    • 自压调节器轮胎机构
    • WO2014076692A1
    • 2014-05-22
    • PCT/IL2013/050928
    • 2013-11-12
    • BRIGHTWAY VISION LTD.
    • GRAUER, YoavDAVID, OferLEVI, EyalHARAMATI, Amit
    • B60C23/00B60C23/12
    • B60C23/12B60C23/10F04B35/06F04B37/10F04B39/12F04B53/10F04B53/14
    • An apparatus for regulating air pressure level in a tire is provided herein. The apparatus includes a housing attached to the tire; a piston located inside the housing, coupled to the housing via a spring; a one-way valve; and locking elements located at a specified location along said housing, wherein the piston is configured to move towards a first end of the housing responsive to an imbalance between centrifugal force applied to the piston due to angular speed of the tire and force applied thereto by the spring means, wherein the locking elements are configured to lock the piston at the specified location whenever the tire reaches a predefined angular speed, and release the piston once the angular speed of the tire crosses a predefined threshold, so that said piston moves towards a second end of the sleeve producing an air pulse, conveyed by the one-way valve into the tire.
    • 本发明提供一种用于调节轮胎气压水平的装置。 该装置包括附接到轮胎的壳体; 位于所述壳体内的活塞经由弹簧联接到所述壳体; 单向阀; 以及沿着所述壳体位于指定位置处的锁定元件,其中所述活塞构造成响应于由于轮胎的角速度而施加到所述活塞的离心力和由其施加的力之间的不平衡而朝向所述壳体的第一端移动 弹簧装置,其中所述锁定元件构造成在轮胎达到预定角速度时将活塞锁定在指定位置,并且一旦轮胎的角速度超过预定阈值就释放活塞,使得所述活塞向第二 套筒的端部产生空气脉冲,由单向阀输送到轮胎中。