Entry Myszkowski:1997:MHJ from jviscompanimation.bib

Last update: Sun Oct 15 02:32:55 MDT 2017

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BibTeX entry

@Article{Myszkowski:1997:MHJ,
  author =       "Karol Myszkowski and Oleg G. Okunev and Tosiyasu L.
                 Kunii and Masumi Ibusuki",
  title =        "Modelling of Human Jaw Motion in Sliding Contact",
  journal =      j-J-VIS-COMP-ANIMATION,
  volume =       "8",
  number =       "3",
  pages =        "147--163",
  month =        jul,
  year =         "1997",
  CODEN =        "JVCAEO",
  ISSN =         "1049-8907 (print), 1099-1778 (electronic)",
  ISSN-L =       "1049-8907",
  bibdate =      "Thu Jul 29 07:22:46 MDT 1999",
  bibsource =    "http://www.interscience.wiley.com/jpages/1049-8907;
                 http://www.math.utah.edu/pub/tex/bib/jviscompanimation.bib",
  URL =          "http://www3.interscience.wiley.com/cgi-bin/abstract?ID=14199;
                 http://www3.interscience.wiley.com/cgi-bin/fulltext?ID=14199&PLACEBO=IE.pdf",
  acknowledgement = ack-nhfb,
  classification = "A8745D (Physics of body movements); C1180
                 (Optimisation techniques); C4240C (Computational
                 complexity); C7330 (Biology and medical computing)",
  corpsource =   "Aizu Univ., Japan",
  keywords =     "approach; articulation patterns; biomechanics; bone;
                 CAD/CAM; complexity; computational complexity; contact
                 points; dental CAD/CAM; dental restoration design;
                 digital simulation; discrete motion steps; displacement
                 maximization; distance computation; geometrical
                 approach; human jaw motion modelling; linear model;
                 linear optimization task; linearisation techniques;
                 mechanical contact; medical computing; multi-point
                 collision detection; object placement; occlusal
                 surfaces; optimisation; orthodontic treatment planning;
                 patient treatment; rasterizing graphics hardware;
                 rotation angle range constraints; sliding contact;
                 sliding object orientation; sliding object position;
                 stable noninterpenetrating contact; valid object
                 configuration generation",
  pubcountry =   "UK",
  treatment =    "P Practical; T Theoretical or Mathematical",
}

Related entries

angle, 2(3)82, 7(3)141, 8(2)81
approach, 1(1)18, 2(1)16, 3(1)45, 3(4)219, 5(4)225, 6(2)91, 6(2)109, 6(3)129, 6(3)155, 8(2)69, 9(4)215, 10(3)133, 10(4)225, 11(5)237, 12(1)31, 14(4)225
articulation, 1(2)73
biology, 1(1)9, 3(1)13, 4(1)3, 5(1)3, 5(3)167, 6(2)91, 7(2)79, 7(3)141, 7(3)z
biomechanics, 3(1)13, 7(4)229
body, 1(1)15, 2(3)82, 3(1)13, 4(3)153, 5(1)17, 5(2)85, 5(3)143, 5(4)225, 6(3)143, 9(4)243, 10(2)57, 11(4)197, 12(1)45
C1180, 3(1)45, 4(2)95, 5(2)85, 6(3)129, 6(3)143
C4240C, 6(3)143, 6(4)207, 7(2)111
C7330, 1(1)9, 3(1)13, 4(1)3, 5(1)3, 5(3)167, 6(2)91, 7(2)79, 7(3)141, 7(3)z
collision, 2(3)82, 4(1)13, 4(3)133, 5(1)55, 5(4)209, 5(4)225, 5(4)z, 6(3)143, 6(3)155, 10(4)181, 14(4)169
complexity, 2(4)132, 6(3)143, 6(4)207, 7(2)111
computation, 3(1)31, 3(1)45, 4(3)133, 5(3)129, 6(3)129, 6(3)143, 6(4)231, 7(3)169, 14(2)73
computational, 2(1)16, 2(2)52, 2(2)60, 2(2)68, 2(3)82, 2(3)106, 2(4)132, 3(2)65, 3(2)85, 3(4)201, 3(4)219, 4(1)25, 4(1)33, 4(1)51, 4(4)213, 5(1)55, 5(2)69, 5(4)189, 5(4)209, 5(4)z, 6(1)33, 6(3)143, 6(3)155, 6(3)173, 6(4)207, 6(4)219, 7(1)3, 7(1)43, 7(2)95, 7(2)111, 7(3)125, 8(1)3, 8(1)33, 8(2)69, 8(2)81
computing, 1(1)9, 1(1)18, 1(2)59, 2(1)26, 2(1)34, 2(2)52, 2(2)68, 3(1)13, 3(3)175, 3(4)201, 4(1)3, 4(2)113, 4(4)213, 5(1)3, 5(2)85, 5(3)143, 6(1)3, 6(1)33, 6(2)71, 6(2)91, 6(2)109, 6(3)129, 6(3)143, 6(3)155, 6(3)173, 6(4)207, 7(1)25, 7(2)79, 7(3)125, 7(3)141, 7(3)149, 7(3)159, 7(3)169, 7(3)177, 7(3)z, 7(4)229, 8(2)97, 8(2)115, 8(3)165, 11(2)69
configuration, 8(1)3
constraint, 2(3)82, 3(1)45, 4(2)113, 4(3)153, 5(3)143, 6(3)143, 7(3)125, 8(1)33, 14(1)31
contact, 4(1)25, 5(4)209, 9(4)243
design, 2(3)98, 3(4)201, 4(3)165, 4(4)213, 5(4)265, 7(4)229, 8(1)3, 8(2)115, 8(3)131
detection, 2(4)132, 3(4)219, 4(1)13, 4(1)51, 5(1)55, 7(3)169, 10(4)181, 13(1)65, 13(1)65-1, 14(4)169
digital, 1(1)9, 1(1)18, 3(1)13, 3(1)45, 3(3)183, 4(1)13, 4(2)79, 4(2)95, 4(2)113, 5(1)3, 5(1)17, 5(1)37, 5(1)55, 5(3)143, 5(4)265, 6(1)3, 6(2)71, 6(2)91, 6(3)143, 6(3)155, 6(3)173, 6(4)195, 6(4)231, 7(2)79, 7(3)177, 7(3)z, 7(4)193, 7(4)229, 8(2)97, 11(4)169
discrete, 5(1)17, 6(3)143
displacement, 1(1)18
distance, 8(1)3
generation, 1(1)26, 2(2)60, 2(4)118, 4(1)33, 5(4)247, 5(4)z, 6(1)33, 6(3)129, 10(3)159
geometrical, 1(2)49, 2(1)9, 4(2)79, 4(3)153, 4(3)165
hardware, 3(3)147, 4(4)187
human, 1(1)15, 1(2)73, 2(2)44, 2(4)123, 2(4)141, 3(1)13, 4(2)79, 5(2)85, 5(3)143, 5(4)225, 5(4)247, 5(4)z, 10(1)39, 10(2)57, 10(4)215, 11(1)3, 11(5)237, 12(1)23, 12(2)55, 12(5)287, 14(2)73
Kunii, Tosiyasu L., 1(1)22, 8(2)67, 10(2)57
linear, 2(4)118, 6(1)33, 7(1)3, 7(3)125, 13(3)147
mechanical, 1(1)9, 4(2)113, 7(4)229
medical, 1(1)9, 5(3)167, 6(2)91, 7(2)79, 7(3)141, 7(3)z, 11(1)51, 13(1)77, 13(1)77-1
model, 1(1)18, 1(1)26, 1(1)33, 1(2)73, 2(1)9, 2(1)26, 2(2)68, 2(3)92, 2(3)106, 2(4)123, 2(4)129, 3(1)23, 4(2)79, 4(3)133, 4(3)153, 4(3)165, 4(4)233, 5(1)3, 5(2)69, 5(3)143, 5(4)209, 5(4)225, 5(4)z, 6(1)11, 6(2)71, 6(2)91, 6(3)155, 6(3)173, 6(4)195, 6(4)207, 7(1)3, 7(2)79, 7(2)111, 7(3)149, 7(3)177, 7(4)211, 8(1)3, 8(1)17, 8(2)81, 8(2)97, 8(4)201, 9(4)185, 10(4)193, 10(4)215, 11(3)145, 11(4)197, 12(2)55, 12(3)107, 13(1)53, 13(1)53-1, 13(3)169, 13(3)187, 14(2)73, 14(4)197
modelling, 1(1)9, 1(1)33, 1(2)44, 1(2)49, 1(2)66, 1(2)73, 2(1)9, 2(2)60, 2(3)82, 2(4)123, 2(4)141, 3(2)91, 3(4)201, 4(2)95, 4(4)187, 4(4)199, 4(4)213, 5(2)69, 5(4)189, 5(4)209, 5(4)z, 6(1)3, 6(2)91, 6(3)173, 6(4)195, 6(4)219, 6(4)231, 7(1)43, 7(2)79, 7(2)95, 7(2)111, 7(3)169, 7(3)177, 7(3)z, 8(1)3, 8(1)33, 8(3)131, 11(1)27, 13(3)187, 13(4)199, 13(4)225, 14(1)21
motion, 1(1)9, 1(1)15, 2(4)129, 2(4)141, 3(1)31, 4(2)63, 4(2)79, 4(4)233, 5(2)85, 5(3)143, 5(4)225, 5(4)247, 5(4)z, 6(1)49, 6(2)109, 6(3)129, 6(3)143, 7(2)61, 7(4)229, 9(2)65, 9(2)95, 11(5)223, 11(5)237, 12(2)55, 12(3)117, 13(5)275, 14(1)31
movement, 2(4)118, 3(3)183, 5(2)85, 6(1)11, 6(4)195, 13(5)287, 14(5)253
object, 1(1)18, 1(1)22, 1(1)26, 2(2)60, 2(4)132, 3(1)23, 3(3)183, 3(4)219, 4(1)25, 4(2)113, 4(3)165, 4(4)187, 4(4)213, 5(4)209, 6(2)71, 6(3)143, 7(2)111, 8(1)3, 8(1)33, 8(2)81, 8(3)131, 9(1)17, 9(3)113, 9(4)215, 9(4)259, 11(1)17, 11(4)185, 12(1)1, 13(4)237, 14(1)1, 14(2)61, 14(4)211
optimisation, 3(1)45, 4(2)95, 5(2)85, 6(3)129, 6(3)143
optimization, 5(2)85, 6(3)143
orientation, 6(1)49, 7(2)95
patient, 14(5)269
pattern, 1(1)26, 3(2)105, 3(2)129, 5(1)3, 7(1)3, 9(4)215
physics, 2(1)34, 2(2)68, 3(3)175, 4(4)213, 5(3)143, 6(3)143, 6(3)155, 7(3)159, 7(3)169, 12(4)215
planning, 2(2)74, 4(2)79, 5(2)85, 5(4)225, 5(4)z, 6(3)129, 12(3)117
point, 3(2)65, 4(1)25, 5(1)17, 5(3)167, 5(4)225, 6(1)33, 7(1)43, 7(3)125, 7(3)159, 8(1)17, 8(2)81
position, 1(1)26, 2(4)118, 2(4)132, 2(4)135, 4(2)79, 4(4)233, 5(1)55, 5(4)225, 6(1)49, 7(3)141, 8(2)115
range, 2(4)129, 3(1)1, 7(2)79, 14(4)183
rotation, 8(2)81
simulation, 1(1)9, 1(1)18, 2(2)68, 2(3)114, 3(1)13, 3(1)45, 3(3)147, 4(1)13, 4(1)51, 4(2)79, 4(2)95, 4(2)113, 4(3)133, 5(1)3, 5(1)17, 5(1)37, 5(1)55, 5(3)143, 5(4)225, 5(4)265, 6(1)3, 6(1)33, 6(2)71, 6(2)91, 6(3)129, 6(3)143, 6(3)155, 6(3)173, 6(4)195, 6(4)231, 7(2)79, 7(3)177, 7(4)229, 9(4)185, 10(1)27, 11(4)197, 14(2)73
steps, 5(3)143
surface, 1(1)2, 1(1)26, 2(2)52, 3(1)23, 3(2)65, 3(2)105, 3(2)129, 4(1)25, 4(1)33, 5(4)189, 6(1)11, 6(3)155, 6(4)195, 6(4)219, 6(4)231, 7(1)3, 7(3)177, 8(1)3, 8(2)69, 10(1)15, 10(3)143, 11(1)39, 11(3)115, 11(4)209
task, 2(2)74, 5(2)85, 6(3)143, 13(5)313