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    • 6. 发明申请
    • METHOD AND APPARATUS FOR OBTAINING 3-DIMENSIONAL DATA WITH A PORTABLE DEVICE
    • 用于获取具有便携式设备的三维数据的方法和装置
    • US20110001983A1
    • 2011-01-06
    • US12497089
    • 2009-07-02
    • Jan BeckerSoeren KammelBenjamin PitzerBadri Raghunathan
    • Jan BeckerSoeren KammelBenjamin PitzerBadri Raghunathan
    • G01B11/25
    • G01B11/2518G01S17/42G01S17/89G01S17/93H04M1/0272H04M1/21H04M2250/12H04M2250/52
    • In one embodiment, a three dimensional imaging system includes a portable housing configured to be carried by a user, microelectrical mechanical system (MEMS) projector supported by the housing. sensor supported by the housing and configured to detect signals emitted by the MEMS projector, a memory including program instructions for generating an encoded signal with the MEMS projector, emitting the encoded signal, detecting the emitted signal after the emitted signal is reflected by a body, associating the detected signal with the emitted signal, comparing the detected signal with the associated emitted signal, determining an x-axis dimension, a y-axis dimension, and a z-axis dimension of the body based upon the comparison, and storing the determined x-axis dimension, y-axis dimension, and z-axis dimension of the body, and a processor operably connected to the memory, to the sensor, and to the MEMS projector for executing the program instructions.
    • 在一个实施例中,三维成像系统包括被配置为由用户承载的便携式外壳,由壳体支撑的微电机械系统(MEMS)投影仪。 传感器,其被壳体支持并且被配置为检测由MEMS投影仪发射的信号;存储器,包括用于利用MEMS投影仪生成编码信号的程序指令,发射编码信号,在发射信号被身体反射之后检测发射信号, 将检测到的信号与发射信号相关联,将检测到的信号与相关联的发射信号进行比较,基于比较确定身体的x轴尺寸,y轴尺寸和z轴尺寸,并存储确定的 主体的x轴尺寸,y轴尺寸和z轴尺寸,以及可操作地连接到存储器,传感器和用于执行程序指令的MEMS投影仪的处理器。
    • 7. 发明授权
    • Method and apparatus for vehicle with adaptive lighting system
    • 具有自适应照明系统的车辆的方法和装置
    • US08935055B2
    • 2015-01-13
    • US12358488
    • 2009-01-23
    • Badri RaghunathanEnylton M. CoelhoJan Becker
    • Badri RaghunathanEnylton M. CoelhoJan Becker
    • B60Q1/08
    • B60Q1/085B60Q2300/32B60Q2300/42B60Q2300/45B60Q2400/50
    • In one embodiment, an adaptive external vehicle lighting system includes a vehicle communication network, a memory including program instructions for generating a model of a vehicle and the environment outside of the vehicle, identifying an object of interest based upon the generated model, analyzing rendering criteria associated with the identified object of interest, and rendering object of interest data based upon the analysis, a processor operably connected to the vehicle communication network and to the memory for executing the program instructions, and at least one rendering system operably connected to the processor through the vehicle communication network for rendering the object of interest data using an associated external lighting system of the vehicle.
    • 在一个实施例中,自适应外部车辆照明系统包括车辆通信网络,包括用于生成车辆模型的程序指令和车辆外部的环境的存储器,基于生成的模型识别感兴趣的对象,分析呈现标准 与所识别的感兴趣的对象相关联,以及基于分析呈现感兴趣的对象数据,可操作地连接到车辆通信网络的处理器和用于执行程序指令的存储器,以及至少一个可操作地连接到处理器的渲染系统, 用于使用车辆的相关联的外部照明系统呈现感兴趣对象数据的车辆通信网络。
    • 8. 发明授权
    • Dead spot mitigation methods for media applications in vehicular environments
    • 车辆环境中媒体应用的死点缓解方法
    • US08762482B2
    • 2014-06-24
    • US12683463
    • 2010-01-07
    • Badri RaghunathanVivek Jain
    • Badri RaghunathanVivek Jain
    • G06F15/16
    • H04W36/02G01C21/34
    • A wireless communication method has computer-implemented steps including identifying a location of a dead spot region within an expected route of a vehicle. The vehicle has a loss of wireless connectivity within the dead spot region. Lengths of time before the vehicle will arrive at the dead spot region and before the vehicle will exit the dead spot region are estimated. Audio content and/or video content are accessed from at least one source inside the vehicle and/or at least one source outside the vehicle such that playing of the content is uninterrupted while the vehicle is within the dead spot region, the accessing being dependent upon the estimated lengths of time.
    • 无线通信方法具有计算机执行的步骤,包括识别车辆的预期路线内的死点区域的位置。 该车辆在死点区域内的无线连接丢失。 估计在车辆到达死点区域之前和车辆将离开死点区域之前的时间长度。 音频内容和/或视频内容从车辆内部的至少一个源和/或车辆外部的至少一个源访问,使得在车辆在死点区域内播放内容不间断,访问取决于 估计时间长短。
    • 10. 发明授权
    • Method and apparatus for obtaining 3-dimensional data with a portable device
    • 用便携式设备获得3维数据的方法和装置
    • US08274507B2
    • 2012-09-25
    • US12497089
    • 2009-07-02
    • Jan BeckerSoeren KammelBenjamin PitzerBadri Raghunathan
    • Jan BeckerSoeren KammelBenjamin PitzerBadri Raghunathan
    • G06T15/00
    • G01B11/2518G01S17/42G01S17/89G01S17/93H04M1/0272H04M1/21H04M2250/12H04M2250/52
    • In one embodiment, a three dimensional imaging system includes a portable housing configured to be carried by a user, microelectrical mechanical system (MEMS) projector supported by the housing sensor supported by the housing and configured to detect signals emitted by the MEMS projector, a memory including program instructions for generating an encoded signal with the MEMS projector, emitting the encoded signal, detecting the emitted signal after the emitted signal is reflected by a body, associating the detected signal with the emitted signal, comparing the detected signal with the associated emitted signal, determining an x-axis dimension, a y-axis dimension, and a z-axis dimension of the body based upon the comparison, and storing the determined x-axis dimension, y-axis dimension, and z-axis dimension of the body, and a processor operably connected to the memory, to the sensor, and to the MEMS projector for executing the program instructions.
    • 在一个实施例中,三维成像系统包括被配置为由用户携带的便携式外壳,由壳体支撑的壳体传感器支撑并被配置为检测由MEMS投影仪发射的信号的微机电系统(MEMS)投影仪, 包括用于利用MEMS投影仪生成编码信号的程序指令,发射编码信号,在发射的信号被身体反射之后检测发射信号,将检测到的信号与发射的信号相关联,将检测到的信号与相关的发射信号进行比较 ,基于比较确定身体的x轴尺寸,y轴尺寸和z轴尺寸,并且存储确定的身体的x轴尺寸,y轴尺寸和z轴尺寸 以及可操作地连接到存储器,传感器和用于执行程序指令的MEMS投影仪的处理器。