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"discrete time model"¿¡ ´ëÇÑ °Ë»ö °á°úÀÔ´Ï´Ù. °Ë»ö °á°ú º¸´Â µµÁß¿¡ Tab ۸¦ ´©¸£½Ã¸é °Ë»ö âÀÌ ¼±Åõ˴ϴÙ.
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  • ¿µ¹®
    ÇѱÛ
  • psychodynamic experiential model
    Á¤½Å¿ªµ¿°æÇè¸ðÇü
  • reserve model
    ¿¹ºñ¸ðÇü
  • role model
    ¿ªÇÒÇ¥º»Çü, ¿ªÇÒ¸ðµ¨
  • social service model
    »çȸ¼­ºñ½º¸ðµ¨
  • statistical model
    Åë°è¸ðÇü
  • symmetry model
    ´ëĪÇü, ´ëμ³
  • sequential model
    ¼øÂ÷¸ðµ¨
  • single major gene locus model
    ´ÜÀÏÁÖ¿äÀ¯ÀüÀÚÀÚ¸®¸ðÇü
  • viscoelastic model
    Á¡µµÅº·Â¸ðÇü
  • working model
    ÀÛ¾÷¸ðÇü
  • wax model
    ¹Ð¶ø¸ðÇü
  • arm-to-retina circulation time
    ÆÈ¸Á¸·¼øÈ¯½Ã°£
  • atrioventricular conduction time
    ¹æ½ÇÀüµµ½Ã°£
  • acquisition time
    ȹµæ½Ã°£
  • activated coagulation time
    Ȱ¼ºÇ÷¾×ÀÀ°í½Ã°£
´ëÇÑÀÇÇù Çʼö ÀÇÇпë¾îÁý »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 4 ÆäÀÌÁö: 3
  • ¿µ¹®
    ÇѱÛ
  • thrombin time
    Æ®·Òºó½Ã°£
  • transit time
    ÀüÀ̽ð£, Åë°ú½Ã°£
  • voiding time
    ¹è´¢½Ã°£
  • real time ultrasonography
    ½Ç½ÃÃÊÀ½ÆÄÃÔ¿µ¼ú
¿¾ ´ëÇÑÀÇÇù ÀÇÇпë¾î »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
  • ¿µ¹®
    ÇѱÛ
  • mutiplicative model
    °ö¼À¸ðÇü
  • organic model
    À¯±â¸ðÇü
  • plaster model
    ¼®°í¸ðÇü
  • proportional hazards model
    ºñ·ÊÀ§Çè¸ðÇü
  • psychodynamic experiential model
    Á¤½Å¿ªµ¿°æÇè¸ðÇü
  • reserve model
    ¿¹ºñ¸ðÇü
  • role model
    ¿ªÇÒÇ¥º»Çü
  • sequential model
    ¼øÂ÷¸ðµ¨
  • single major gene locus model
    ´ÜÀÏÁÖ¿äÀ¯ÀüÀÚÀÚ¸®¸ðÇü
  • social service model
    m. »çȸ¼­ºñ½º¸ðµ¨
  • statistical model
    Åë°è¸ðÇü
  • symmetry model
    ´ëĪÇü, ´ëμ³
  • viscoelastic model
    Á¡µµÅº·Â¸ðÇü
  • wax model
    ¹Ð¶ø¸ðÇü
  • working model
    ÀÛ¾÷¸ðÇü
¿¾ ´ëÇÑÀÇÇù 2 ÀÇÇпë¾î »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
  • ¿µ¹®
    ÇѱÛ
  • arm-to-retina circulation time
    ÆÈ¸Á¸·¼øÈ¯½Ã°£, ¿Ï-¸Á¸·¼øÈ¯½Ã°£
  • gastric emptying time
    À§(êÖ)(³»¿ë(Ò®é»))¹èÃâ½Ã°£(ÛÉõóãÁÊà).
  • gastric emptying time
    À§(³»¿ë)¹èÃâ½Ã°£.
  • generation time =doubling t.
    ¼¼´ë½Ã°£(á¦ÓÛãÁÊà), ¹èÀ§½Ã°£(ÛÃêÈãÁÊà), ¼¼´ë±â(á¦ÓÛÑ¢).
  • half survival time
    ¹Ý°¨ÀÜ»ý¼ö¸í(ËÑ˧ ËÛËÎ).
  • half survival time
    ¹Ý°¨ÀÜ»ý¼ö¸í(ÚâÊõíÑßæáøÙ¤).
  • half time for saturation
    ¹ÝÆ÷È­±â(ÚâøéûúÑ¢).
  • hardening time
    °æÈ­½Ã°£(¡­ãÁÊà).
  • inertia time
    Ÿ¼º½Ã°£(öçàõãÁÊà)
  • influx time
    À¯ÀԽð£(êüìýãÁÊà).
  • inspiratory pause time
    Èí±âÈÄÈÞÁö½Ã°£.
  • inspiratory phase time
    Èí±â»ó½Ã°£.
  • inspiratory triggering response time
    Èí±âÀ¯¹ß¹ÝÀÀ½Ã°£.
  • persistence time
    Áö¼Ó½Ã°£(ò¥áÙãÁÊà).
  • phonation time
    ¹ß¼ºÁö¼Ó½Ã°£
¿¾ ´ëÇÑÀÇÇù 3 ÀÇÇпë¾î »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
  • ¿µ¹®
    ÇѱÛ
  • multitarget multihit model
    ´ÙÇ¥Àû´ÙÀûÁß
  • multitarget single hit model
    ´ÙÇ¥Àû´ÜÀÏÀûÁß
  • nuclear model
    (¿øÀÚ)ÇÙ¸ðÇü(ê«í­ú·Ù¼úþ).
  • organic model
    À¯±â¸ðÇü(¡­Ù¼úþ).
  • plaster model
    ±é½º Çü(¡­úþ), ¼®°í ¸ðÇü.
  • psychodynamic experiential model
    Á¤½Å¿ªµ¿Àû °æÇè¸ðµ¨
  • reserve model
    ¿¹ºñ¸ðÇü(çãÝáÙ¼úþ).
  • role model
    ¿ªÇÒÇ¥º»Çü(Ëç̰̰ËÓÌ´).
  • sequential model
    ¼øÂ÷¸ðµ¨.
  • single major gene(locus) model
    ´ÜÀÏ ÁÖ¿äÀ¯ÀüÀÚ(À¯ÀüÁÂÀ§) ¸ðµ¨
  • single target multi-hit model
    ´ÜÀÏÇ¥Àû´Ù¹ßÀûÁß ¸ðµ¨
  • social service model
    »çȸ¼­ºñ½º¸ðµ¨
  • stress and coping model
    ½ºÆ®·¹½º¿Í ´ëó(Óßô¥)¸ðµ¨.
  • symmetry model
    ´ëĪÇü(Óßöàúþ), ´ëμ³(Óß öàæò).
  • viscoelastic model
    Á¡Åº¼º¸ðÇü.
´ëÇÑ»ýÈ­ÇкÐÀÚ»ý¹°ÇÐȸ ¿ë¾î »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
  • ¿µ¹®
    ÇѱÛ
  • bilayer model
    À̺ÐÀÚÃþ(ì£ÝÂí­öµ) ¸ðµ¨
  • breakage and reunion model
    Àý´ÜÀç°áÇÕ(ï·Ó¨î¢Ì¿ùê)¸ðµ¨
  • Britten-Davidson model
    ºê¸®Æ°-´ëºñ½¼ ¸ðµ¨
  • Cairns model
    Äɸ¥½º ¸ðµ¨
  • Campbell model
    Ä·º§ ¸ðµ¨
  • cloverleaf model
    Ŭ·Î¹öÀÙ ¸ðµ¨
  • concerted model
    Çùµ¿(úðÔÒ) ¸ðµ¨
  • CPK model
    CPK ¸ðµ¨
  • crystallographic model
    °áÁ¤(Ì¿ïÜ) ¸ðµ¨
  • Danielli-Davson model
    ´Ù´Ï¿¤¸®-´ëºê¼Õ ¸ðµ¨
  • Danielli-Davson-Robertson model
    "= unit membrane hypothesis, ´Ù´Ï¿¤¸®-´ëºê¼Õ-·Î¹öÆ®¼Õ ¸ðµ¨"
  • distorted bond model
    ¿Ö°î°áÇÕ(èàÍØÌ¿ùê) ¸ðµ¨
  • doughnut model
    µµ¿ì³Ó ¸ðµ¨
  • Dreiding model
    µå¶óÀ̵ù ¸ðµ¨
  • erosion model
    ¹Ì¶õ(Ú¼Õ´) ¸ðµ¨
KI ÀÇÇпë¾î »çÀü °Ë»ö À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
  • ¿µ¹®
    ÇѱÛ
  • real time study
    ½Ç½Ã°£°Ë»ç
  • real time system
    ½Ç½Ã°£Ã¼°è
  • recovery time
    ȸº¹±â°£, ȸº¹ ½Ã°£
  • relaxation time
    À̿Ͻð£
  • repetition time [=TR]
    ¹Ýº¹½Ã°£
  • ring down time
    ¿©¿î½Ã°£
  • rise time
    »ó½Â½Ã°£
  • rising time
    »ó½Â½Ã°£
  • scan time
    ÁÖ»ç½Ã°£
  • spin lattice relaxation time (T1)
    ½ºÇɰÝÀÚÀ̿Ͻð£(T1)
  • spin spin relaxation time
    ½ºÇɽºÇÉÀ̿Ͻð£
  • T.G.C [=time gain compensation]
    ½Ã°£°ÔÀκ¸»ó
  • T1 relaxation time
    T1À̿Ͻð£
  • T2 (spin spin) relaxation time
    T2(½ºÇɽºÇÉ)À̿Ͻð£
  • T2 relaxation time
    T2À̿Ͻð£
KMLE ÀÇÇоà¾î »çÀü À¯»ç °Ë»ö °á°ú : 5 ÆäÀÌÁö: 3
ET educational therapy; effective temperature; ejection time; embryo transfer; endothelin; endotoxin; e...
MRT magnetic resonance tomography; maximum relaxation time; median range score; median reaction time; me...
PST pancreatic suppression test; paroxysmal supraventricular tachycardia; penicillin, streptomycin, and ...
RT radiologic technologist; radiotelemetry; radiotherapy; radium therapy; rapid tranquilization; reacti...
TE echo-time; expiratory time; tennis elbow; test ear; tetanus; tetracycline; threshold energy; thrombo...
KMLE ÀÚµ¿ÃßÃâ ÀÇÇоà¾î »çÀü À¯»ç °Ë»ö °á°ú : 5 ÆäÀÌÁö: 3
HBM Health Belief Model
HMM Hidden Markov Model
HOMA Homeostasis Model Assessment
Nonmem Non-Linear Mixed Effects Model
POHEM POpulation HEalth Model
°æºÏ´ë Ä¡°ú´ëÇÐ ±¸°­³»°ú ±³½Ç »çÀü À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
  • ¿µ¹®
    ÇѱÛ
    ¼³¸í
  • chair time
    Áø·á ½Ã°£, Ä¡·á ½Ã°£
    ȯÀÚ°¡ Áø´Ü ¹× Ä¡·á ¹Þ±â À§ÇÑ ½Ã°£.
  • change over time
    ½Ã°£¿¡ µû¸¥ º¯È­
  • coagulation time
    ÀÀ°í ½Ã°£
  • contact time
    Á¢ÃË ½Ã°£
  • correlation time
    »ó°ü ½Ã°£
  • doubling time
    ¹è°¡ ½Ã°£
  • echo time
    ¿¡ÄÚ ½Ã°£
  • exposure time per session
    ´ÜÀ§´ç ³ëÃ⠽ð£
  • fast time constant circuit
    °í¼Ó ½Ã°£ °íÁ¤ ȸ·Î
  • first-time dental patient
    óÀ½ ³»¿øÇÑ È¯ÀÚ
  • hardening time
    °æÈ­ ½Ã°£
    Ä¡°ú¿ë ÀλóÀç ¶Ç´Â ¼®°í°¡ µüµüÇÏ°Ô ±»´Âµ¥ °É¸®´Â ½Ã°£.
  • heating and cooling temperature-place-time profile
    °¡¿­ ¹× ³Ã°¢ ¿Âµµ-À§Ä¡-½Ã°£ Çü
  • inversion time
    ¿ªÀü ½Ã°£
  • left ventricular ejection time
    Á ½É½Ç ±¸Ç÷ ±â°£
  • mixing time
    ±³¹Ý ½Ã°£, È¥ÇÕ ½Ã°£
    µÎ °¡Áö ÀÌ»óÀÇ Àç·á¸¦ È¥ÇÕÇÒ ¶§ ¼Ò¿äµÇ°Å³ª ÁöÄÑ¾ß ÇÏ´Â ½Ã°£À¸·Î, Ä¡°ú ¿µ¿ª¿¡¼­´Â ¼®°í Àç·á, ½Ã¸àÆ®, ¼öÁö, ÀλóÀç, ¸Å¸ôÀç µî¿¡¼­ ÁؼöµÇ¾î¾ß ÇÒ ½Ã°£. Àç·áÀÇ ¹°¸®Àû ¼ºÁú¿¡ ¿µÇâÀ» ÁØ´Ù.
CancerWEB ¿µ¿µ ÀÇÇлçÀü À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 3
seir model <epidemiology> A class of compartmental prevalence models, with compartments Susceptible, Latent (Exposed), Infectious and Recovered. Takes its name from a common notation. In the notation used in the course, this would be an XHYZ model. Many permutations possible.
(05 Dec 1998)
sliding filament model <cell biology> Generally accepted model for the way in which contraction occurs in the sarcomere of striated muscle, by the sliding of the thick filaments relative to the thin filaments.
(18 Nov 1997)
spawner-recruit model Biological model that relates the number of recruits or mature spawners in one generation to the number of spawners in the previous generation.
(09 Oct 1997)
statistical model A formal representation for a class of processes that allows a means of analyzing results from experimental studies, such as the Poisson model or the general linear model; it need not propose a process literally interpretable in the context of the individual case.
(05 Mar 2000)
stochastic model <epidemiology> A mathematical model which takes into consideration the presence of some randomness in one or more of its parameters or variables. The predictions of the model therefore do not give a single point estimate but a probability distribution of possible estimates. Contrast with deterministic.
We might distinguish demographic stochasticity which arises from the discreteness of individuals and individual events such as birth, and environmental stochasticity arising from more-or-less unpredictable interactions with the outside world.
(05 Dec 1998)
nursing model A set of abstract and general statements about the concepts that serve to provide a framework for organizing ideas about clients, their environment, health and nursing.
(05 Mar 2000)
surface envelope model <biology> A way of treating the hydrodynamics of a ciliary field by considering the whole surface of the ciliate to have an undulating surface. The undulations arise because of metachronism.
(18 Nov 1997)
deterministic model <epidemiology> A mathematical model in which the parameters and variables are not subject to random fluctuations, so that the system is at any time entirely defined by the initial conditions chosen. Contrast with a stochastic model.
(05 Dec 1998)
induced fit model A model to suggest a mode of action of enzymes in which the substrate binds to the active site of the protein, causing a conformational change in the protein.
Synonym: Koshland-Nemethy-Filmer model.
(05 Mar 2000)
transition probability model A model to account for the apparently random variation in cell cycle time between individual animal tissue cells in culture that postulates that transition from G1 to s phase is probabilistic. Contrasts with hypotheses that require the accumulation of critical levels of particular proteins.
(18 Nov 1997)
KNF model <abbreviation> Koshland-Nemethy-Filmer model.
(05 Mar 2000)
Koshland-Nemethy-Filmer model <biochemistry, chemistry> A model to explain the allosteric form of cooperativity; in this model, in the absence of ligands, the protein exists in only one conformation; upon binding, the ligand induces a conformational change that may be transmitted to other subunits.
Synonym: Adair-Koshland-Nemethy-Filmer model, induced fit model.
(05 Mar 2000)
fluid bilayer model Generally accepted model for membranes in cells. In its original form, the model held that proteins floated in a sea of phospholipids arranged as a bilayer with a central hydrophobic domain. Although it is now recognised that some proteins are restrained by interactions with cytoskeletal elements and that the phospholipid annulus around a protein may contain only specific types of lipid, the model is still considered broadly correct.
(18 Nov 1997)
fluid mosaic model A model used to conceptualise cell membranes, in it, the membranesare described as a structually and functionally asymmetric lipidbilayer studded with embedded proteins that aid in cross-membrane transport.
(09 Oct 1997)
lock-and-key model A model used to suggest the mode of operation of an enzyme in which the substrate fits into the active site of the protein like a key into a lock.
(05 Mar 2000)
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  • ¿µ¹®
    ÇѱÛ
  • mark time
    Á¦ÀÚ¸® °ÉÀ½ÇÏ´Ù
  • on time
    Á¤°¢¿¡
  • once upon a time
    ¿¾³¯¿¡
  • some other time
    ¾ðÁ¨°¡ µý³¯¿¡(=some other day)
  • some time
    ¾ðÁ¨°¡,Àá½Ã
  • time
    ½Ã°£,°èÀý,(º¹¼ö)½Ã´ë,-ȸ(¹è)
  • Central (Standard) Time
    ÁߺΠǥÁؽÃ(G.M.T.º¸´Ù 6½Ã°£ ´ÊÀ½)
  • Double Summer Time
    ÀÌÁß ¼­¸ÓŸÀÓ(Ç¥Áؽ𣺸´Ù 2½Ã°£ ºü¸§)
  • Eastern Standard time
    µ¿ºÎ Ç¥ÁؽÃ(ij³ª´Ù µ¿ºÎ,¹Ì±¹ µ¿ºÎ,¿À½ºÆ®·¹Àϸ®¾Æ µ¿¹«)
  • Father Time
    ½Ã°£ ÇҾƹöÁö
  • Greenwich (Mean(Civil)time
    ±×¸®´ÏÄ¡ Ç¥ÁؽÃ
  • Greenwich Mean Time
    ±×¸®´ÏÄ¡ Ç¥ÁؽÃ
  • Hawaii time
    =Hawaiian Standard TimeÇÏ¿ÍÀÌ Ç¥ÁؽÃ(GMEº¸´Ù 10½Ã°£ ´Ê°í ½Ã°£´ë´Â Alaska Time¿Í °°À½
  • Pacific(Standard) Time
    (¹Ì±¹ÀÇ) ÅÂÆò¾ç Ç¥ÁؽÃ
  • T-time
    ·ÎÄÏ ¹ß»ç ½Ã°£
ÀÌ ¾Æ·¡ ºÎÅÍ´Â °á°ú°¡ ¾ø½À´Ï´Ù.
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  • Á¦Ç°¸í
    ¼ººÐ/ÇÔ·®
    ±¸ºÐ/º¸Çè±Þ¿©
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    ¼ººÐ/ÇÔ·®
    ±¸ºÐ/º¸Çè±Þ¿©
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KMLE ÀÚµ¿ÃßÃâ ÀÇÇоà¾î »çÀü ¸ÂÃã °Ë»ö °á°ú : 0 ÆäÀÌÁö: 3
ÀÇÇÐ³í¹® ¾àÀÚ(Pubmed/Entrez) °Ë»ö ¸ÂÃã °Ë»ö °á°ú : 0 ÆäÀÌÁö: 3
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CancerWEB ¿µ¿µ ÀÇÇлçÀü ¸ÂÃã °Ë»ö °á°ú : 0 ÆäÀÌÁö: 3
MeSH(Medical Subject Headings) ¸ÂÃã °Ë»ö (http://www.nlm.nih.gov) °á°ú : 0 ÆäÀÌÁö: 3
MeSH(Medical Subject Headings) À¯»ç °Ë»ö (http://www.nlm.nih.gov) °á°ú : 0 ÆäÀÌÁö: 3
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