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Evolution-Based Methods for Selecting Point Data for Object Localization:Applications to Computer-Assisted Surgery

机译：基于进化的物体定位点数据选择方法：计算机辅助手术的应用

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Object localization has applications in many areas of engineering and science.The goal is to spatially locate an arbitrarily-shaped object. In many applications, it is desirable to minimize the number of measurements collected for this purpose, while ensuring sufficient localization accuracy. In surgery, for example, collecting a large number of localization measurements may either extend the time required to perform a surgical procedure, or increase the radiation dosage to which a patient is exposed. Localization accuracy is a function of the spatial distribution of discrete measurements over an object when measurement noise is present. In Simon et al., 1995a, metrics were presented to evaluate the information available from a set of discrete object measurements. In this study, new approaches to the discrete point data selection problem are described. These include hillclimbing, genetic algorithms (GAs), and Population-Based Incremental Learning (PBIL). Extensions of the standard GA and PBIL methods, which employ multiple parallel populations, are explored. The results of extensive empirical testing are provided. The results suggest that a combination of PBIL and hillclimbing result in the best overall performance. A computer-assisted surgical system which incorporates some of the methods presented in this paper is currently being evaluated in cadaver trials. Shumeet Baluja was supported by a National Science Foundation Graduate Student Fellowship and a Graduate Student Fellowship from the National Aeronautics and Space Administration, administered by the Lyndon B. Johnson Space Center, Houston, TX. David Simon was partially supported by a National Science Foundation National Challenge grant (award IRI-9422734).

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Baluja, S.; Simon, D. A.;
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年度 1996
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总页数 24
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Computer aided design; Computer applications; Medical services; Surgery; Computerized tomography; Medical computer applications; Test and evaluation; Algorithms; Spatial distribution; Measurement; Students; Accuracy; Population; Three dimensional; Enginee;

机译：计算机辅助设计;计算机应用;医疗服务;外科;计算机断层扫描;医学计算机应用;测试和评估;算法;空间分布;测量;学生;准确性;人口;三维;工程;

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专利

1. Evolution-based methods for selecting point data for object localization: Applications to computer-assisted surgery [J] . Baluja S., Simon D. Applied Intelligence: The International Journal of Artificial Intelligence, Neural Networks, and Complex Problem-Solving Technologies . 1998,第1期

机译：基于进化的选择点数据进行对象定位的方法：在计算机辅助手术中的应用
2. Fusion of cooperative localization data with dynamic object information using data communication for preventative vehicle safety applications [J] . Kloeden H., Schwarz D., Rasshofer R. H., Advances in Radio Science . 2013,第9期

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3. A comparison of selected parametric and imputation methods for estimating snag density and snag quality attributes. (Special Issue: Emerging methods for handling missing data in forest ecology and management applications.) [J] . Eskelson B. N. I., Temesgen H., Hagar J. C. Forest Ecology and Management . 2012,第Null期

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4. User-Selected Object Data Augmentation for 6DOF CNN Localization [C] . Ken Miyamoto, Takeru Shiraga, Yohei Okato IEEE International Conference on Consumer Electronics . 2020

机译：用户选择的6DOF CNN本地化对象数据增强
5. Inferential and Computational Methods for Object Data with Applications [D] . Wang, Yunfan. 2020

机译：具有应用程序的对象数据的推论和计算方法
6. Comparative Study of SVM Methods Combined with Voxel Selection for Object Category Classification on fMRI Data [O] . Sutao Song, Zhichao Zhan, Zhiying Long, 2009

机译：支持向量机方法与体素选择相结合对fMRI数据进行对象类别分类的比较研究
7. Computer-Assisted Spine Surgery:A Technique for Accurate Transpedicular Screw Fixation Using CT Data and a 3-D Optical Localizer [O] . S. Lavallée, P. Sautot, J. Troccaz, 1995

机译：计算机辅助脊柱外科：一种使用CT数据和3-D光学定位器精确的横向螺钉固定技术

Evolution-Based Methods for Selecting Point Data for Object Localization:Applications to Computer-Assisted Surgery

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