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    • 11. 发明授权
    • System and method for synchronizing digital bits in a data stream
    • 用于在数据流中同步数字位的系统和方法
    • US08121238B2
    • 2012-02-21
    • US11553983
    • 2006-10-27
    • Sundar RamanJames M. Brown
    • Sundar RamanJames M. Brown
    • H04L7/00
    • H04B1/7075G01S19/24G01S19/30H04B2201/70715
    • A system and method for synchronizing a receiver of a bit stream to the bit stream include a correlator to remove the PN code modulation and to generate a stream of time sequence values (samples) from the received bits. A plurality of accumulators are included, each accumulator corresponding to an offset in a series of time intervals starting with a first time period. The accumulators add a number of values equal to a number of samples in a bit period. The values added by each accumulator is a set of values starting with the value at the offset corresponding to the accumulator. A plurality of magnitude calculators receives a sum from the corresponding accumulator and calculates a magnitude. A plurality of non-coherent summers are then used to add the magnitudes for each offset in each bit period for all of the received bits. The total sum in each non-coherent summer is then analyzed to find the highest value, such that the offset corresponding to the non-coherent summer with the highest value represents the location of the bit transition in the bit period.
    • 用于将比特流的接收机同步到比特流的系统和方法包括相关器,以去除PN码调制并从接收的比特生成时间序列值(采样)流。 包括多个累加器,每个累加器对应于从第一时间段开始的一系列时间间隔中的偏移量。 累加器在一个位周期中增加等于多个样本的值。 每个累加器添加的值是一个值,它以对应于累加器的偏移量的值开始。 多个幅度计算器从相应的累加器接收和,并计算大小。 然后使用多个非相干相加对于所有接收的比特在每个比特周期中为每个偏移增加幅度。 然后分析每个非相干夏季中的总和以找到最高值,使得与具有最高值的非相干夏季对应的偏移表示比特周期中比特转换的位置。
    • 17. 发明授权
    • Method for correcting spectral data for data due to the spectral
measurement process itself and estimating unknown property and/or
composition data of a sample using such method
    • 用于由于光谱测量过程本身校正数据的光谱数据并使用这种方法估计样品的未知特性和/或成分数据的方法
    • US5121337A
    • 1992-06-09
    • US597910
    • 1990-10-15
    • James M. Brown
    • James M. Brown
    • G01N21/27G01R23/16G01R35/00
    • G01N21/274G01N21/3504G01N21/3577
    • For correcting measured spectral data of n samples for data due to the measurement process itself, e.g. due to spectral baseline variations and/or water vapor and carbon dioxide present in the atmosphere of the spectrometer used to make the spectral measurements, the spectral being quantified at f discrete frequencies to produce a matrix X (of dimension f by n) of calibration data, matrix X is orthogonalized with respect to a correction matrix U.sub.m of dimension f by m comprising m quantified correction spectra, at the discrete frequencies f, which simulate data arising from the measurement process itself. The correction method is preferably included in a method of estimating unknown property and/or composition data of a sample under consideration, in which the n samples are calibration samples and a predictive model is developed interrelating known property and composition data of the calibration samples to their spectral data corrected for the data due to the measurement process itself. Then, the unknown property and/or composition data of the example under consideration is estimated from the predictive model on the basis of its measured spectrum.
    • 用于校正由于测量过程本身而导致的数据的n个样本的测量光谱数据,例如, 由于存在于用于进行光谱测量的光谱仪的气氛中的光谱基线变化和/或水蒸汽和二氧化碳,光谱在离散频率处被量化以产生校准数据的矩阵X(尺寸f乘以n) 在模拟由测量过程本身产生的数据的离散频率f处,矩阵X相对于包括m个量化的校正光谱的尺寸为f的校正矩阵Um正交化。 校正方法优选地包括在估计所考虑的样品的未知性质和/或组成数据的方法中,其中n个样品是校准样品,并且开发了将校准样品的已知性质和组成数据相互关联的预测模型 由于测量过程本身而对数据进行了校正的光谱数据。 然后,根据其测量的光谱从预测模型估计所考虑的示例的未知属性和/或组合数据。
    • 20. 发明授权
    • Truck loading apparatus
    • 卡车装载装置
    • US4690609A
    • 1987-09-01
    • US908314
    • 1986-09-17
    • James M. Brown
    • James M. Brown
    • B60P1/54B60P3/055B60P1/64B60P1/00
    • B60P1/5452B60P3/055
    • A beverage truck having unique unloading and loading apparatus. The apparatus, which may be mounted to an existing beverage truck, or built into one as original equipment, has a framework at the front and back of the truck body which supports a track that spans the length of the body roof along its longitudinal center line. A trolley is carried on the track and moved by a powered chain drive from one end of the body to the other. Mounted to the trolley is a pivoting telescoping arm assembly that carries at the end of the arm a fork lift assembly. By operating simple controls, the user can move the trolley, extend the arm, raise, lower, rotate and tilt the forks to cause the forks to enter into the cargo area of the body, under the roof, to unload cargo from the truck and place it, e.g., on a loading dock or on the ground.
    • 一种具有独特卸载和装载装置的饮料卡车。 可以安装到现有的饮料车上或者作为原始设备内置的装置,在卡车车体的前部和后部具有一个框架,该框架支撑沿其纵向中心线跨越车身顶部长度的轨道 。 轨道上携带手推车,并通过动力链驱动器从身体的一端移动到另一端。 安装在手推车上的是枢转的伸缩臂组件,其在臂的端部处携带叉车组件。 通过操作简单的控制,用户可以移动手推车,伸出手臂,抬起,降低,旋转和倾斜叉子,使叉子进入车身的货物区域,在屋顶下方卸下货车, 将其放在装载码头或地面上。