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Articoli di riviste sul tema "Motion data"

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Autore: Grafiati
Pubblicato: 23 giugno 2021
Ultima modifica: 11 febbraio 2022

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1

Lv, Na, Yan Huang, Zhi Quan Feng e Jing Liang Peng. "A Survey on Motion Capture Data Retrieval". Applied Mechanics and Materials 556-562 (maggio 2014): 2944–47. http://dx.doi.org/10.4028/www.scientific.net/amm.556-562.2944.

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Abstract (sommario):
With the rapid development of motion capture technology, large motion capture databases are established. How to effectively retrieve the motions from huge amounts of motion data has become a hot topic in computer animation. In this paper, we give a survey on current motion capture data retrieval methods and point out some still existing problems at the end.
2

Chiu, H. C., F. J. Wu, C. J. Lin, H. C. Huang e C. C. Liu. "Effects of rotation motions on strong-motion data". Journal of Seismology 16, n. 4 (1 aprile 2012): 829–38. http://dx.doi.org/10.1007/s10950-012-9301-z.

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3

Manns, Martin, Michael Otto e Markus Mauer. "Measuring Motion Capture Data Quality for Data Driven Human Motion Synthesis". Procedia CIRP 41 (2016): 945–50. http://dx.doi.org/10.1016/j.procir.2015.12.068.

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4

Dong, Ran, Dongsheng Cai e Soichiro Ikuno. "Motion Capture Data Analysis in the Instantaneous Frequency-Domain Using Hilbert-Huang Transform". Sensors 20, n. 22 (16 novembre 2020): 6534. http://dx.doi.org/10.3390/s20226534.

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Abstract (sommario):
Motion capture data are widely used in different research fields such as medical, entertainment, and industry. However, most motion researches using motion capture data are carried out in the time-domain. To understand human motion complexities, it is necessary to analyze motion data in the frequency-domain. In this paper, to analyze human motions, we present a framework to transform motions into the instantaneous frequency-domain using the Hilbert-Huang transform (HHT). The empirical mode decomposition (EMD) that is a part of HHT decomposes nonstationary and nonlinear signals captured from the real-world experiments into pseudo monochromatic signals, so-called intrinsic mode function (IMF). Our research reveals that the multivariate EMD can decompose complicated human motions into a finite number of nonlinear modes (IMFs) corresponding to distinct motion primitives. Analyzing these decomposed motions in Hilbert spectrum, motion characteristics can be extracted and visualized in instantaneous frequency-domain. For example, we apply our framework to (1) a jump motion, (2) a foot-injured gait, and (3) a golf swing motion.
5

Spratt, D. "SP-0030 Against the motion: Data, data, data". Radiotherapy and Oncology 158 (maggio 2021): S20. http://dx.doi.org/10.1016/s0167-8140(21)06470-7.

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6

I-Chen Lin, Jen-Yu Peng, Chao-Chih Lin e Ming-Han Tsai. "Adaptive Motion Data Representation with Repeated Motion Analysis". IEEE Transactions on Visualization and Computer Graphics 17, n. 4 (aprile 2011): 527–38. http://dx.doi.org/10.1109/tvcg.2010.87.

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7

Et.al, JIBUM JUNG. "Use of Human Motion Data to Train Wearable Robots". Turkish Journal of Computer and Mathematics Education (TURCOMAT) 12, n. 6 (11 aprile 2021): 807–11. http://dx.doi.org/10.17762/turcomat.v12i6.2100.

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Abstract (sommario):
Development of wearable robots is accelerating. Walking robots mimic human behavior and must operate without accidents. Human motion data are needed to train these robots. We developed a system for extracting human motion data and displaying them graphically.We extracted motion data using a Perception Neuron motion capture system and used the Unity engine for the simulation. Several experiments were performed to demonstrate the accuracy of the extracted motion data.Of the various methods used to collect human motion data, markerless motion capture is highly inaccurate, while optical motion capture is very expensive, requiring several high-resolution cameras and a large number of markers. Motion capture using a magnetic field sensor is subject to environmental interference. Therefore, we used an inertial motion capture system. Each movement sequence involved four and was repeated 10 times. The data were stored and standardized. The motions of three individuals were compared to those of a reference person; the similarity exceeded 90% in all cases. Our rehabilitation robot accurately simulated human movements: individually tailored wearable robots could be designed based on our data. Safe and stable robot operation can be verified in advance via simulation. Walking stability can be increased using walking robots trained via machine learning algorithms.
8

Kashima, T. "Characteristics of Ground Motions and Strong Motion Data of Buildings". Concrete Journal 50, n. 1 (2012): 19–22. http://dx.doi.org/10.3151/coj.50.19.

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9

Miura, Takeshi, Takaaki Kaiga, Naho Matsumoto, Hiroaki Katsura, Takeshi Shibata, Katsubumi Tajima e Hideo Tamamoto. "Characterization of Motion Capture Data by Motion Speed Variation". IEEJ Transactions on Electronics, Information and Systems 133, n. 4 (2013): 906–7. http://dx.doi.org/10.1541/ieejeiss.133.906.

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10

Choi, Myung Geol, e Taesoo Kwon. "Motion rank: applying page rank to motion data search". Visual Computer 35, n. 2 (27 marzo 2018): 289–300. http://dx.doi.org/10.1007/s00371-018-1498-6.

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11

Southwick, Matthew, Zhu Mao e Christopher Niezrecki. "Volumetric Motion Magnification: Subtle Motion Extraction from 4D Data". Measurement 176 (maggio 2021): 109211. http://dx.doi.org/10.1016/j.measurement.2021.109211.

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12

Wang, Xiaoting, Xiangxu Meng, Chenglei Yang e Junqing Zhang. "Data Driven Avatars Roaming in Digital Museum". International Journal of Virtual Reality 8, n. 3 (1 gennaio 2009): 13–18. http://dx.doi.org/10.20870/ijvr.2009.8.3.2736.

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Abstract (sommario):
This paper describes a motion capture (mocap) data-driven digital museum roaming system with high walking reality. We focus on three main questions: the animation of avatars; the path planning; and the collision detection among avatars. We use only a few walking clips from mocap data to synthesize walking motions with natural transitions, any direction and any length. Let the avatars roam in the digital museum with its Voronoi skeleton path, shortest path or offset path. And also we use Voronoi diagram to do collision detection. Different users can set up their own avatars and roam along their own path. We modify the motion graph method by classify the original mocap data and set up their motion graph which can improve search efficiency greatly.
13

Riaz, Qaiser, Björn Krüger e Andreas Weber. "Relational databases for motion data". International Journal of Innovative Computing and Applications 7, n. 3 (2016): 119. http://dx.doi.org/10.1504/ijica.2016.078723.

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14

Benický, Peter, e Ladislav Jurišica. "Real Time Motion Data Preprocessing". Journal of Electrical Engineering 61, n. 4 (1 luglio 2010): 247–51. http://dx.doi.org/10.2478/v10187-010-0035-2.

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Abstract (sommario):
Real Time Motion Data PreprocessingThere is a lot of redundant data for image processing in an image, in motion picture as well. The more data for image processing we have, the more time is needed for preprocessing it. That is why we need to work with important data only. In order to identify or classify motion, data processing in real time is needed.
15

Lee, W. H. K., e T. C. Shin. "Strong-Motion Instrumentation and Data". Earthquake Spectra 17, n. 1_suppl (aprile 2001): 5–18. http://dx.doi.org/10.1193/1.1586190.

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16

Ozturk, C., J. A. Derbyshire e E. R. McVeigh. "Estimating motion from MRI data". Proceedings of the IEEE 91, n. 10 (ottobre 2003): 1627–48. http://dx.doi.org/10.1109/jproc.2003.817872.

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17

L., Jagath J., Shalij P. R e Haris Naduthodi. "Motion Picture Data Management System". International Journal of Business Innovation and Research 1, n. 1 (2020): 1. http://dx.doi.org/10.1504/ijbir.2020.10034213.

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18

Bae, Tae Young, e Young Seog Kim. "Generation and Animation of Optimal Robot Joint Motion data using Captured Human Motion data". Journal of manufacturing engineering & technology 22, n. 3_1spc (15 giugno 2013): 558–65. http://dx.doi.org/10.7735/ksmte.2013.22.3.558.

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19

Cousins, Jim, e Graeme H. McVerry. "Overview of strong-motion data from the Darfield earthquake". Bulletin of the New Zealand Society for Earthquake Engineering 43, n. 4 (31 dicembre 2010): 222–27. http://dx.doi.org/10.5459/bnzsee.43.4.222-227.

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Abstract (sommario):
The Darfield earthquake of 3rd September 2010 UT and its aftershocks have yielded New Zealand’s richest set of strong-motion data since recording began in the early 1960s. Main-shock accelerograms were returned by 130 sites, ten of which had peak horizontal accelerations in the range 0.3 to 0.82g. One near-fault record, from Greendale, had a peak vertical acceleration of 1.26g. Eighteen records showed peak ground velocities exceeding 0.5 m/s, with three of them exceeding 1 m/s. The records included some with strong long-period directivity pulses, some with other long-period components that were related to a mixture of source and site effects, and some that exhibited the effects of liquefaction at their sites. There were marked differences between records on the deep alluvium of Christchurch City and the Canterbury Plains, and those on shallow stiff soil sites. The strong-motion records provide the opportunity to assess the effects of the earthquake in terms of the ground motions and their relationship to design motions. They also provide an invaluable set of near-source motions for seismological studies. Our report presents an overview of the records and some preliminary findings derived from them.
20

Li, Bo, Chao Zhang, Cheng Han e Baoxing Bai. "Gesture Recognition Based on Kinect v2 and Leap Motion Data Fusion". International Journal of Pattern Recognition and Artificial Intelligence 33, n. 05 (8 aprile 2019): 1955005. http://dx.doi.org/10.1142/s021800141955005x.

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This study proposed a method for multiple motion-sensitive devices (i.e. one Kinect v2 and two Leap Motions) to integrate gesture data in Unity. Other depth cameras could replace the Kinect. The general steps in integrating gesture data for motion-sensitive devices were introduced as follows. (1) A method was proposed to recognize the fingertip from depth images for the Kinect v2. (2) Coordinates observed by three motion-sensitive devices were aligned in space in three steps. First, preliminary coordinate conversion parameters were obtained through joint calibration of the three devices. Second, two types of devices were approached to the observed value of the standard Leap Motion by the least squares method twice (i.e. one Kinect and one Leap Motion on the first round, then two Leap Motions on the second round). (3) Data of the three devices were aligned with time by using Unity while applying the data plan. On this basis, a human hand interacted with a virtual object in Unity. Experimental results demonstrated that the proposed method had a small recognition error of hand joints and realized the natural interaction between the human hand and virtual objects.
21

Wei, Xiaopeng, Boxiang Xiao e Qiang Zhang. "A retrieval method for human Mocap data based on biomimetic pattern recognition". Computer Science and Information Systems 7, n. 1 (2010): 99–109. http://dx.doi.org/10.2298/csis1001099w.

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Abstract (sommario):
A retrieval method for human Mocap (Motion Capture) data based on biomimetic pattern recognition is presented in this paper. BVH rotation channels are extracted as features of motion for both the retrieval instance and the motion data. Several hyper sausage neurons are constructed according to the retrieval instance, and the trained domain covered by these hyper sausage neurons can be considered as the distribution range of a same kind of motions. By use of CMU free motion database, the retrieval algorithm has been implemented and examined, and the experimental results are illustrated. At the same time, the main contributions and limitations are discussed.
22

YAMANE, KATSU, JESSICA K. HODGINS e H. BENJAMIN BROWN. "CONTROLLING A MOTORIZED MARIONETTE WITH HUMAN MOTION CAPTURE DATA". International Journal of Humanoid Robotics 01, n. 04 (dicembre 2004): 651–69. http://dx.doi.org/10.1142/s0219843604000319.

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Abstract (sommario):
In this paper, we present a method for controlling a motorized, string-driven marionette using motion capture data from human actors and from a traditional marionette operated by a professional puppeteer. We are interested in using motion capture data of a human actor to control the motorized marionette as a way of easily creating new performances. We use data from the hand-operated marionette both as a way of assessing the performance of the motorized marionette and to explore whether this technology could be used to preserve marionette performances. The human motion data must be extensively adapted for the marionette because its kinematic and dynamic properties differ from those of the human actor in degrees of freedom, limb length, workspace, mass distribution, sensors, and actuators. The motion from the hand-operated marionette requires less adaptation because the controls and dynamics are a closer match. Both data sets are adapted using an inverse kinematics algorithm that takes into account marker positions, joint motion ranges, string constraints, and potential energy. We also apply a feedforward controller to prevent extraneous swings of the hands. Experimental results show that our approach enables the marionette to perform motions that are qualitatively similar to the original human motion capture data.
23

Igarashi, Ko, e Seiichiro Katsura. "Motion-Data Processing and Reproduction Based on Motion-Copying System". IEEJ Journal of Industry Applications 4, n. 5 (2015): 543–49. http://dx.doi.org/10.1541/ieejjia.4.543.

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24

Gu, Qin, Jingliang Peng e Zhigang Deng. "Compression of Human Motion Capture Data Using Motion Pattern Indexing". Computer Graphics Forum 28, n. 1 (marzo 2009): 1–12. http://dx.doi.org/10.1111/j.1467-8659.2008.01309.x.

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25

Wang, Huifang, John B. Weaver, Marvin M. Doyley, Francis E. Kennedy e Keith D. Paulsen. "Optimized motion estimation for MRE data with reduced motion encodes". Physics in Medicine and Biology 53, n. 8 (3 aprile 2008): 2181–96. http://dx.doi.org/10.1088/0031-9155/53/8/012.

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26

YASUDA, H., R. KAIHARA, S. SAITO e M. NAKAJIMA. "Motion Belts: Visualization of Human Motion Data on a Timeline". IEICE Transactions on Information and Systems E91-D, n. 4 (1 aprile 2008): 1159–67. http://dx.doi.org/10.1093/ietisy/e91-d.4.1159.

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27

Yi, P., Q. Zhang e X. Wei. "Laplacian coordinates-based motion transition for data-driven motion synthesis". IET Image Processing 6, n. 9 (1 dicembre 2012): 1331–37. http://dx.doi.org/10.1049/iet-ipr.2012.0186.

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28

Zhang, Xintian, Wenjun Xie, Shujie Li e Xiaoping Liu. "Convolutional Neural Networks Based Motion Data Optimization Networks forLeap Motion". Journal of Computer-Aided Design & Computer Graphics 33, n. 3 (1 marzo 2021): 439–47. http://dx.doi.org/10.3724/sp.j.1089.2021.18425.

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29

Panzhin, Andrei, e Nataliia Panzhina. "Applying primary data from permanent stations for geodynamic zoning". Izvestiya vysshikh uchebnykh zavedenii. Gornyi zhurnal, n. 1 (17 febbraio 2021): 54–62. http://dx.doi.org/10.21440/0536-1028-2021-1-54-62.

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Abstract (sommario):
Introduction. The article focuses on present-day geodynamic motion in order to carry out geodynamic zoning of territories. Geodynamic monitoring may be both regional, for instance, of the Russian Federation, Ural region, geological rock mass, and it may also be local, i.e. covering a deposit and enclosing rock mass. Permanent stations of Global Navigation Satellite System (GNSS) have been used as a source of data for deformation monitoring. Methodology included the method of visualizing geodynamic motions according to the results of cyclic geodetic measurements which makes it possible to single out active geological structures, blocks, and tectonic faults on reasonable grounds. Results. It has been shown that it is advisable to use not modules of observation station displacement vector values but their velocities reduced to an annual cycle as a key source of information on geodynamic motion at large spatial-temporal bases. It has been indicated that an important characteristic of geodynamic motion vector field is divergence which characterizes the degree of convergence or divergence of a vector flux. Summary. Basic theses have been identified of the method of present-day geodynamic motions monitoring and visualization in the form of a vector field according to the results of cyclic geodetic measurements. Based on experimental data, it has been determined that the present-day geodynamic motion is vortical being the indicator of active tectonic faulting.
30

Ebel, John E., e David J. Wald. "Bayesian Estimations of Peak Ground Acceleration and 5% Damped Spectral Acceleration from Modified Mercalli Intensity Data". Earthquake Spectra 19, n. 3 (agosto 2003): 511–29. http://dx.doi.org/10.1193/1.1596549.

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We describe a new probabilistic method that uses observations of modified Mercalli intensity (MMI) from past earthquakes to make quantitative estimates of ground shaking parameters (i.e., peak ground acceleration, peak ground velocity, 5% damped spectral acceleration values, etc.). The method uses a Bayesian approach to make quantitative estimates of the probabilities of different levels of ground motions from intensity data given an earthquake of known location and magnitude. The method utilizes probability distributions from an intensity/ground motion data set along with a ground motion attenuation relation to estimate the ground motion from intensity. The ground motions with the highest probabilities are the ones most likely experienced at the site of the MMI observation. We test the method using MMI/ground motion data from California and published ground motion attenuation relations to estimate the ground motions for several earthquakes: 1999 Hector Mine, California (M7.1); 1988 Saguenay, Quebec (M5.9); and 1982 Gaza, New Hampshire (M4.4). In an example where the method is applied to a historic earthquake, we estimate that the peak ground accelerations associated with the 1727 (M∼5.2) earthquake at Newbury, Massachusetts, ranged from 0.23 g at Newbury to 0.06 g at Boston.
31

Butil, John Carlo M., Ma Lei Frances Magsisi, John Hart Pua, Prince Kevin Se e Ria Sagum. "The Application of Genetic Algorithm in Motion Detection for Data Storage Optimization". International Journal of Computer and Communication Engineering 3, n. 3 (2014): 199–202. http://dx.doi.org/10.7763/ijcce.2014.v3.319.

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32

Wielen, Roland. "A Comprehensive Astrometric Data Base: An Instrument for Combining Earth-Bound Observations With Hipparcos Data". Symposium - International Astronomical Union 141 (1990): 483–88. http://dx.doi.org/10.1017/s0074180900087386.

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The astrometric data bank ARIGFH will contain all relevant astrometric data on stellar positions and proper motions of stars from ground-based observations and space missions. For each star in the ARIGFH, the best available position and proper motion shall be derived. We rediscuss the accuracy of proper motions and positions of fundamental stars, resulting from a combination of data in the FK5 with the expected results from a revised HIPPARCOS mission. The FK5 data could be significantly improved even by rather degraded positions from a revised HIPPARCOS mission.
33

Gelbard, Roy, e Israel Spiegler. "Representation and Storage of Motion Data". Journal of Database Management 13, n. 3 (luglio 2002): 46–63. http://dx.doi.org/10.4018/jdm.2002070104.

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34

Harada, Kensuke, Natsuki Yamanobe, Weiwei Wan, Kazuyuki Nagata, Ixchel G. Ramirez-Alpizar e Tokuo Tsuji. "Motion-Data Driven Grasp/Assembly Planner". Journal of Robotics, Networking and Artificial Life 5, n. 4 (2019): 232. http://dx.doi.org/10.2991/jrnal.k.190220.005.

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35

Makarov, Valeri V., e Alexey Goldin. "VARIABILITY-INDUCED MOTION IN KEPLER DATA". Astrophysical Journal Supplement Series 224, n. 2 (2 giugno 2016): 19. http://dx.doi.org/10.3847/0067-0049/224/2/19.

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36

Liang, Peter, Yingzhen Yang e Yang Cai. "Pattern mining from saccadic motion data". Procedia Computer Science 1, n. 1 (maggio 2010): 2529–38. http://dx.doi.org/10.1016/j.procs.2010.04.286.

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37

Guang Jiang, Hung-Tat Tsui e Long Quan. "Circular motion geometry using minimal data". IEEE Transactions on Pattern Analysis and Machine Intelligence 26, n. 6 (giugno 2004): 721–31. http://dx.doi.org/10.1109/tpami.2004.4.

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38

Li, Zhuorong, Hongchuan Yu, Hai Dang Kieu, Tung Long Vuong e Jian Jun Zhang. "PCA-Based Robust Motion Data Recovery". IEEE Access 8 (2020): 76980–90. http://dx.doi.org/10.1109/access.2020.2989744.

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39

Ramsay, J. O., K. G. Munhall, V. L. Gracco e D. J. Ostry. "Functional data analyses of lip motion". Journal of the Acoustical Society of America 97, n. 5 (maggio 1995): 3402. http://dx.doi.org/10.1121/1.412516.

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40

Tautges, Jochen, Arno Zinke, Björn Krüger, Jan Baumann, Andreas Weber, Thomas Helten, Meinard Müller, Hans-Peter Seidel e Bernd Eberhardt. "Motion reconstruction using sparse accelerometer data". ACM Transactions on Graphics 30, n. 3 (maggio 2011): 1–12. http://dx.doi.org/10.1145/1966394.1966397.

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41

Takebayashi, Yusuke, Koji Nishio e Ken-ichi Kobori. "Similarity Retrieval for Motion Capture Data". Journal of The Institute of Image Information and Television Engineers 62, n. 9 (2008): 1420–26. http://dx.doi.org/10.3169/itej.62.1420.

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42

Harada, Kensuke, Natsuki Yamanobe, Weiwei Wan, Kazuyuki Nagata, Ixchel G. Ramirez-Alpizar e Tokuo Tsuji. "Motion-Data Driven Grasp/Assembly Planner". Proceedings of International Conference on Artificial Life and Robotics 24 (10 gennaio 2019): 1–4. http://dx.doi.org/10.5954/icarob.2019.ps-1.

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43

Kawata, D., J. A. S. Hunt, R. J. J. Grand, A. Siebert, S. Pasetto e M. Cropper. "Stellar Motion around Spiral Arms:GaiaMock Data". EAS Publications Series 67-68 (2014): 247–50. http://dx.doi.org/10.1051/eas/1567044.

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44

Ramsay, J. O., K. G. Munhall, V. L. Gracco e D. J. Ostry. "Functional data analyses of lip motion". Journal of the Acoustical Society of America 99, n. 6 (giugno 1996): 3718–27. http://dx.doi.org/10.1121/1.414986.

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45

Peterson, James. "Introducing Rotational Motion with EXIF Data". Physics Teacher 49, n. 7 (ottobre 2011): 440–41. http://dx.doi.org/10.1119/1.3639156.

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46

Balazia, Michal, e Petr Sojka. "Gait Recognition from Motion Capture Data". ACM Transactions on Multimedia Computing, Communications, and Applications 14, n. 1s (2 aprile 2018): 1–18. http://dx.doi.org/10.1145/3152124.

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47

Etemadpour, Ronak, e Angus Graeme Forbes. "Density-based motion". Information Visualization 16, n. 1 (26 luglio 2016): 3–20. http://dx.doi.org/10.1177/1473871615606187.

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Abstract (sommario):
A common strategy for encoding multidimensional data for visual analysis is to use dimensionality reduction techniques that project data from higher dimensions onto a lower-dimensional space. This article examines the use of motion to retain an accurate representation of the point density of clusters that might otherwise be lost when a multidimensional dataset is projected into a two-dimensional space. Specifically, we consider different types of density-based motion, where the magnitude of the motion is directly related to the density of the clusters. We investigate how users interpret motion in two-dimensional scatterplots and whether or not they are able to effectively interpret the point density of the clusters through motion. We conducted a series of user studies with both synthetic and real-world datasets to explore how motion can help users in completing various multidimensional data analysis tasks. Our findings indicate that for some tasks, motion outperforms the static scatterplots; circular path motions in particular give significantly better results compared to the other motions. We also found that users were easily able to distinguish clusters with different densities as long the magnitudes of motion were above a particular threshold. Our results indicate that incorporating density-based motion into visualization analytics systems effectively enables the exploration and analysis of multidimensional datasets.
48

Cha, Moo-Hyun, e Soon-Hung Han. "A Data Driven Motion Generation for Driving Simulators Using Motion Texture". Transactions of the Korean Society of Mechanical Engineers A 31, n. 7 (1 luglio 2007): 747–55. http://dx.doi.org/10.3795/ksme-a.2007.31.7.747.

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49

Sedmidubsky, Jan, Petr Elias e Pavel Zezula. "Searching for variable-speed motions in long sequences of motion capture data". Information Systems 80 (febbraio 2019): 148–58. http://dx.doi.org/10.1016/j.is.2018.04.002.

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50

Li, Hai, Hwa Jen Yap e Selina Khoo. "Motion Classification and Features Recognition of a Traditional Chinese Sport (Baduanjin) Using Sampled-Based Methods". Applied Sciences 11, n. 16 (19 agosto 2021): 7630. http://dx.doi.org/10.3390/app11167630.

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Abstract (sommario):
This study recognized the motions and assessed the motion accuracy of a traditional Chinese sport (Baduanjin), using the data from the inertial sensor measurement system (IMU) and sampled-based methods. Fifty-three participants were recruited in two batches to participate in the study. Motion data of participants practicing Baduanjin were captured by IMU. By extracting features from motion data and benchmarking with the teacher’s assessment of motion accuracy, this study verifies the effectiveness of assessment on different classifiers for motion accuracy of Baduanjin. Moreover, based on the extracted features, the effectiveness of Baduanjin motion recognition on different classifiers was verified. The k-Nearest Neighbor (k-NN), as a classifier, has advantages in accuracy (more than 85%) and a short average processing time (0.008 s) during assessment. In terms of recognizing motions, the classifier One-dimensional Convolutional Neural Network (1D-CNN) has the highest accuracy among all verified classifiers (99.74%). The results show, using the extracted features of the motion data captained by IMU, that selecting an appropriate classifier can effectively recognize the motions and, hence, assess the motion accuracy of Baduanjin.
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