物理分辨率

  • 网络physical resolution;Native Resolution
物理分辨率物理分辨率
  1. 剖析DSP课程中的物理分辨率与计算分辨率

    Study on physical resolution and calculation resolution of DSP

  2. 在平板显示器的工业应用领域中,通常情况下输入的视频或者图像的分辨率是变化的,为了获得最佳的显示效果并达到工业生产的标准化要求,平板显示器的物理分辨率是固定不变的。

    In application of Flat Panel Display ( FPD ), the image or video resolution of data source is variable . In order to meet the need of industry product standard and get the best display effect , the physical resolution of FPD is fixed .

  3. 地球物理测井高分辨率处理技术

    High-resolution processing technique for geophysical logging data

  4. 物理过程和分辨率对西南涡演变的中尺度模拟影响

    Influence of physical processes and resolution of MM 4 on mesoscale simulation of the evolution of the SW vortex

  5. 用中国科学院大气物理研究所高分辨率、自由表面热带海洋环流模式对厄尼诺/南方涛动(El/SouthernOscillation)循环中另一重要位相La事件进行了数值模拟研究。

    Free surface tropical Pacific ocean GCM with high resolution developed at the Institute of Atmospheric Physics is used to simulate the La Nina event , one of the important phase try the EI Nino / Southern Oscillation ( ENSO ) cycle .

  6. 阐述了小波变换的基本理论,包括连续小波变换的概念和算法实现,离散小波变换的物理意义,多分辨率分析及Mallet快速算法。

    Depict the basic theory of wavelet transform , including concept and algorithm realization of continuous wavelet transform , physical meaning of discrete wavelet transform , multi-resolution analysis and Mallet algorithm .

  7. 色谱文件是决定地球物理影像质量与分辨率的重要因素。

    The rationality of color spectrum files is an important factor to ensure the quality and resolution of geophysical images .

  8. 使用16位采样卡测试了系统对温度和应变这两个物理量测试的分辨率,并验证了系统的分布式解调功能。

    The system resolutions of the two measurands-temperature and strain-have been obtained by using a 16-byte sampling card . The distributed demodulation function is also testified .

  9. 地球物理勘探中,分辨率一直以来都是一个重要的课题,如何提高各种勘探方法的分辨率就成了各国研究学者热门的研究的对象。

    The resolution has always been a very important issue in Geophysical exploration , how to improve the resolution of kinds of exploration methods became a popular research object of the researchers .

  10. 窗函数的衰减系数和采样间隔究竟对地球物理信号时频分辨率造成多大的影响,如何才能更好地消除这种影响,是该文的主要出发点。

    In this paper , it is described that the time-frequency resolution of geophysical signals is affected by the time window function attenuation coefficient and sampling interval and how such effects are eliminated effectively .