Practical implementation and on the field test results of an enhanced algorithm for polarization optimization of the line length corrector of ALMA central local oscillator

机译：改进的ALMA中央本振振荡器线长校正器极化优化算法的实际实现和现场测试结果

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

This paper describes the practical implementation and on the field test results of an Enhanced algorithm, based on Jones matrix Eigen analysis, to find the minimal polarization change points for the ALMA's line length corrector fiber stretcher. These points are complicated to find because they can be located at any point of the Poincare sphere and they also change after manipulation of fibers and with time, so the optimization of the fibers stretcher needs to be systematically checked and redone. The execution time of the original algorithm takes up to 20 minutes depending on the starting polarization state. This enhanced algorithm reduces this time in most of cases to less than a minute, with no intrinsic dependency on the starting point.© (2012) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.

机译：本文介绍了基于琼斯矩阵本征分析的增强型算法的实际实现和现场测试结果，以找到ALMA的线长校正器光纤拉伸机的最小偏振变化点。这些点很难找到，因为它们可以位于Poincare球体的任意点，并且在操纵纤维后随着时间的推移它们也会发生变化，因此需要系统地检查并重做纤维担架的优化。原始算法的执行时间最多需要20分钟，具体取决于起始极化状态。这种增强的算法在大多数情况下可将此时间减少到不到一分钟，而对起点没有内在的依赖。©（2012）COPYRIGHT光电仪器工程师协会（SPIE）。摘要的下载仅允许个人使用。

著录项

来源
《Conference on millimeter, submillimeter, and far-infrared detectors and instrumentation for astronomy VI》|2012年|p.2N.1-2N.7|共7页
会议地点
作者
J. A. Castillo;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类红外技术及仪器;红外技术及仪器;
关键词

相似文献

外文文献
中文文献
专利

1. An enhanced ensemble-based method for computing CNOPs using an efficient localization implementation scheme and a two-step optimization strategy: formulation and preliminary tests [J] . Tian Xiangjun, Feng Xiaobing, Zhang Hongqin, Quarterly Journal of the Royal Meteorological Society . 2016,第695aPta2期

机译：使用高效的本地化实施方案和两步优化策略（基于公式化和初步测试）的基于集成的增强型CNOP计算方法
2. Enhancement of quality of modal test results of an unmanned aerial vehicle wing by implementing a multi-objective genetic algorithm optimization [J] . Pedramasl Nima, Sahin Melin, Acar Erdem Aerospace science and technology . 2017,第deca期

机译：通过实现多目标遗传算法优化来提高无人机机翼模态测试结果的质量
3. Testing the correctness of the sequential algorithm for simulating Gaussian random fields [J] . X. Emery Stochastic environmental research and risk assessment . 2004,第6期

机译：测试用于模拟高斯随机场的顺序算法的正确性
4. Practical implementation and on the field test results of an enhanced algorithm for polarization optimization of the line length corrector of ALMA central local oscillator [C] . J. A. Castillo Conference on millimeter, submillimeter, and far-infrared detectors and instrumentation for astronomy . 2012

机译：实际实施以及ALMA中央局部振荡器线长校正器偏振优化增强算法的现场测试结果
5. Implementing Active/Passive Atmospheric Profiling Observations to Enhance Dual Polarization Radar Hydrometeor Classification Algorithms for Winter Precipitation [D] . Leach, Christina G. A. 2017

机译：实施主动/被动大气廓线观测，以增强冬季降水的双极化雷达水汽分类算法
6. Utilization of Field Enhancement in Plasmonic Waveguides for Subwavelength Light-Guiding Polarization Handling Heating and Optical Sensing [O] . Daoxin Dai, Hao Wu, Wei Zhang 2015

机译：等离子波导管中场增强技术在亚波长光导偏振处理加热和光学传感中的应用
7. We develop a model of scientific creativity and test it in the field of rare diseases. Our model is based on the results of an in-depth case study of the Rett syndrome. Archival analysis, bibliometric techniques and expert surveys are combined with network analysis to identify the most creative scientists. First, alternative measures of generative and combinatorial creativity are compared. Then, we generalize our results and present a stochastic model of socio-semantic network evolution. The model predictions are tested with multiple networks of rare disease specialties. We find that new scientific collaborations among experts in a field enhance combinatorial creativity. Instead, high entry rates of novices are negatively related to generative creativity. By extending the set of useful concepts, creative scientists gain in centrality. At the same time, by increasing their centrality in the scientific community, scientists can replicate and generalize their results, thus contributing to a scientific paradigm. [O] . Massimo Riccaboni, Maria Laura Frigotto 100

机译：我们开发了一种科学创造力模型，并在稀有疾病领域进行测试。我们的模型基于对Rett综合征的深入案例研究的结果。档案分析，文献计量技术和专家调查与网络分析相结合，以确定最具创造力的科学家。首先，比较生成和组合创造力的替代措施。然后，我们推广了我们的结果，并提出了社会语义网络演化的随机模型。模型预测用多个罕见疾病专业网络进行测试。我们发现，一个领域的专家之间的新的科学合作增强了组合创造力。相反，新手的高入门率与生成创造力负相关。通过扩展这组有用的概念，创造性的科学家获得了中心地位。同时，通过增加科学界的中心地位，科学家们可以复制和推广他们的结果，从而促进科学范式的发展。
8. Collaborative Research in Tunneling and Field Emission Pumped Surface Wave Local Oscillators and Amplifiers for Infrared and Submillimeter Wavelengths under Director's Discretionary Fund [R] . Gustafson, T. K. 1982

机译：在董事酌情基金下的隧道和场发射泵浦表面波局部振荡器和红外和亚毫米波长放大器的协同研究

Practical implementation and on the field test results of an enhanced algorithm for polarization optimization of the line length corrector of ALMA central local oscillator

摘要

著录项

相似文献

相关主题

期刊订阅