Fuzzy c-Shape: A new algorithm for clustering finite time series waveforms.

This article develops two novel clustering algorithms for time series data that are extensions of a crisp c-shapes algorithm. The two new algorithms are heuristic derivatives of fuzzy c-means (FCM). ... All four indices agree that for these finite waveform data sets, FCS++ gives a small improvement over FCS+, and in turn, FCS+ is better than the original crisp c-shapes method. ... Our interest is confined to three algorithms for clustering finite time series in the special case when each x k ∈ X is a vector of length p that represents a finite portion of a waveform or time series ...

arXiv:1608.01072v1 fatcat:yyfd65p6nnevdcwfrwxsukdvia

Hierarchical clustering techniques proceed by either a series of successive merges or a series of successive divisions. ... Router(config)# policy-map shape-cbwfq Router(config-pmap)# class cust1 Router(config-pmap-c)# shape average 384000 Router(config-pmap-c)# capacity 256 Router(config-pmap)# class cust2 Router(config-pmap-c ... It is physical process that of propagation is electromagnetworksic wave makes for mutual action with medium. Expression for Model of UWB signal: We get Power spectral density function: ...

doi:10.5539/cis.v1n4p0 fatcat:j5oetg3ex5fxboaobvd3erc6tu

Szczepanski

Acknowledgements This research was supported by NIH grant NS086082 and a GSU Brains and Behavior Seed Grant (DNC), N.H. is a Brains and Behavior and Honeycutt Fellow; A.A.P. is a 2CI Neurogenomics and ... Gutzen for fruitful discussions. ... Hippocampal formation is a C-shaped structure present on the medial aspect of the cerebral hemispheres [1] . ...

doi:10.1186/s12868-018-0452-x pmid:30373544 pmcid:PMC6205781 fatcat:xv7pgbp76zbdfksl545xof2vzy

DOAJ

This paper provides a comprehensive review of the instrumentation aspect of the T2K experiment and a summary of the vital information for each subsystem. ... The experiment uses an intense proton beam generated by the J-PARC accelerator in Tokai, Japan, and is composed of a neutrino beamline, a near detector complex (ND280), and a far detector (Super-Kamiokande ... Acknowledgments The authors thank the Japanese Ministry of Education, Culture, Sports, Science and Technology (MEXT) for their support for T2K. ...

doi:10.1016/j.nima.2011.06.067 fatcat:4uvh4ocvh5f6di5o32c5b2flki

Open Access Multiple Versions

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K. Abe, N. Abgrall, H. Aihara, Y. Ajima, J.B. Albert, D. Allan, P.-A. Amaudruz, C. Andreopoulos, B. Andrieu, M.D. Anerella, C. Angelsen, S. Aoki, O. Araoka, J. Argyriades, A. Ariga, T. Ariga, S. Assylbekov, J.P.A.M. de André, D. Autiero, A. Badertscher, O. Ballester, M. Barbi, G.J. Barker, P. Baron, G. Barr, L. Bartoszek, M. Batkiewicz, F. Bay, S. Bentham, V. Berardi, B.E. Berger, H. Berns, I. Bertram, M. Besnier, J. Beucher, D. Beznosko, S. Bhadra, P. Birney, D. Bishop, E. Blackmore, F.d.M. Blaszczyk, J. Blocki, A. Blondel, A. Bodek, C. Bojechko, J. Bouchez, T. Boussuge, S.B. Boyd, M. Boyer, N. Braam, R. Bradford, A. Bravar, K. Briggs, J.D. Brinson, C. Bronner, D.G. Brook-Roberge, M. Bryant, N. Buchanan, H. Budd, M. Cadabeschi, R.G. Calland, D. Calvet, J. Caravaca Rodríguez, J. Carroll, S.L. Cartwright, A. Carver, R. Castillo, M.G. Catanesi, C. Cavata, A. Cazes, A. Cervera, J.P. Charrier, C. Chavez, S. Choi, S. Chollet, G. Christodoulou, P. Colas, J. Coleman, W. Coleman, G. Collazuol, K. Connolly, P. Cooke, A. Curioni, A. Dabrowska, I. Danko, R. Das, G.S. Davies, S. Davis, M. Day, X. De La Broise, P. de Perio, G. De Rosa, T. Dealtry, A. Debraine, E. Delagnes, A. Delbart, C. Densham, F. Di Lodovico, S. Di Luise, P. Dinh Tran, J. Dobson, J. Doornbos, U. Dore, O. Drapier, F. Druillole, F. Dufour, J. Dumarchez, T. Durkin, S. Dytman, M. Dziewiecki, M. Dziomba, B. Ellison, S. Emery, A. Ereditato, J.E. Escallier, L. Escudero, L.S. Esposito, W. Faszer, M. Fechner, A. Ferrero, A. Finch, C. Fisher, M. Fitton, R. Flight, D. Forbush, E. Frank, K. Fransham, Y. Fujii, Y. Fukuda, M. Gallop, V. Galymov, G.L. Ganetis, F.C. Gannaway, A. Gaudin, J. Gaweda, A. Gendotti, M. George, S. Giffin, C. Giganti, K. Gilje, I. Giomataris, J. Giraud, A.K. Ghosh, T. Golan, M. Goldhaber, J.J. Gomez-Cadenas, S. Gomi, M. Gonin, M. Goyette, A. Grant, N. Grant, F. Grañena, S. Greenwood, P. Gumplinger, P. Guzowski, M.D. Haigh, K. Hamano, C. Hansen, T. Hara, P.F. Harrison, B. Hartfiel, M. Hartz, T. Haruyama, R. Hasanen, T. Hasegawa, N.C. Hastings, S. Hastings, A. Hatzikoutelis, K. Hayashi, Y. Hayato, T.D.J. Haycock, C. Hearty, R.L. Helmer, R. Henderson, S. Herlant, N. Higashi, J. Hignight, K. Hiraide, E. Hirose, J. Holeczek, N. Honkanen, S. Horikawa, A. Hyndman, A.K. Ichikawa, K. Ieki, M. Ieva, M. Iida, M. Ikeda, J. Ilic, J. Imber, T. Ishida, C. Ishihara, T. Ishii, S.J. Ives, M. Iwasaki, K. Iyogi, A. Izmaylov, B. Jamieson, R.A. Johnson, K.K. Joo, G. Jover-Manas, C.K. Jung, H. Kaji, T. Kajita, H. Kakuno, J. Kameda, K. Kaneyuki, D. Karlen, K. Kasami, V. Kasey, I. Kato, H. Kawamuko, E. Kearns, L. Kellet, M. Khabibullin, M. Khaleeq, N. Khan, A. Khotjantsev, D. Kielczewska, T. Kikawa, J.Y. Kim, S.-B. Kim, N. Kimura, B. Kirby, J. Kisiel, P. Kitching, T. Kobayashi, G. Kogan, S. Koike, T. Komorowski, A. Konaka, L.L. Kormos, A. Korzenev, K. Koseki, Y. Koshio, Y. Kouzuma, K. Kowalik, V. Kravtsov, I. Kreslo, W. Kropp, H. Kubo, J. Kubota, Y. Kudenko, N. Kulkarni, L. Kurchaninov, Y. Kurimoto, R. Kurjata, Y. Kurosawa, T. Kutter, J. Lagoda, K. Laihem, R. Langstaff, M. Laveder, T.B. Lawson, P.T. Le, A. Le Coguie, M. Le Ross, K.P. Lee, M. Lenckowski, C. Licciardi, I.T. Lim, T. Lindner, R.P. Litchfield, A. Longhin, G.D. Lopez, P. Lu, L. Ludovici, T. Lux, M. Macaire, L. Magaletti, K. Mahn, Y. Makida, C.J. Malafis, M. Malek, S. Manly, A. Marchionni, C. Mark, A.D. Marino, A.J. Marone, J. Marteau, J.F. Martin, T. Maruyama, T. Maryon, J. Marzec, P. Masliah, E.L. Mathie, C. Matsumura, K. Matsuoka, V. Matveev, K. Mavrokoridis, E. Mazzucato, N. McCauley, K.S. McFarland, C. McGrew, T. McLachlan, I. Mercer, M. Messina, W. Metcalf, C. Metelko, M. Mezzetto, P. Mijakowski, C.A. Miller, A. Minamino, O. Mineev, S. Mine, R.E. Minvielle, G. Mituka, M. Miura, K. Mizouchi, J.-P. Mols, L. Monfregola, E. Monmarthe, F. Moreau, B. Morgan, S. Moriyama, D. Morris, A. Muir, A. Murakami, J.F. Muratore, M. Murdoch, S. Murphy, J. Myslik, G. Nagashima, T. Nakadaira, M. Nakahata, T. 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A new speckle imaging technique called zero-and-add is introduced and described. ... A variation of shift-and-add is proposed in which any bright, unresolved star serves as a reference object for the formation of a shift-and-add image of fainter detail within the same isoplanatic patch ... , rectangle 0 Gaussian (b), and Gaussian (c) shape. ...

doi:10.26021/3148 fatcat:yaf2kcrmjjg2tjb65xllunf6di

An accurate flux prediction for this off-axis beam is crucial to achieve the sensitivity required for the goals of T2K. ... T2K is a long-baseline neutrino oscillation experiment. ... Each C-shaped yoke element consists of 16 C-shaped steel layers in a radial arrangement (such that the inner layers are smaller in the x and y directions than the outer layers). ...

doi:10.25560/17787 fatcat:x4nayf4etbbvjpobdygegirz5e

Fuzzy c-Shape: A new algorithm for clustering finite time series waveforms [article]

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