ライフサイエンスコーパス: systems theory

1 sub-system proteostasis and complex adaptive systems theory.

2 We approach this by drawing on dynamical systems theory.

3 ia the boundary element method and dynamical systems theory.

4 best described in the language of dynamical systems theory.

5 of developmental patterns, based on dynamic systems theory.

6 , metabolic control analysis, or biochemical systems theory.

7 forest fires, a central metaphor in complex systems theory.

8 w models within the framework of Biochemical Systems Theory.

9 signal can be described as following linear systems theory.

10 dern approaches to improvement, which lie in systems theory.

11 ts by using methods from nonlinear dynamical systems theory.

12 ystematic strategies provided by biochemical systems theory.

13 systematic structure underlying biochemical systems theory.

14 data transformation technique from dynamical systems theory.

15 e present a fresh look inspired by dynamical systems theory.

16 ork neuroscience and experience in dynamical systems theory.

17 furcations (or critical points) in dynamical systems theory.

18 at navigates these issues using methods from systems theory.

19 the amplitude scaling assumption for linear systems theory across cortical depth holds for luminance

20 By integrating dynamical systems theory, AI-based surrogate modeling, and adaptiv

21 sonalized neuropsychiatry based on dynamical systems theory and AI.

22 tart with a mathematical primer on dynamical systems theory and analytical tools necessary to apply t

23 ol engineering problem grounded in dynamical systems theory and artificial intelligence (AI).

24 Agreement between predictions from linear systems theory and experimental data supports the notion

25 er the brain from the viewpoint of dynamical systems theory and hypothesize that the unique feature o

26 A new study showcases the usefulness of systems theory and network analyses for understanding ho

27 s disciplinary boundaries, including dynamic systems theory and network theory.

28 mall battery of metrics drawn from dynamical systems theory and predicts the impact of consciousness-

29 Drawing upon dynamical systems theory and the concepts of attractors and repell

30 portance of multilevel selection and complex systems theory, and utopic versus dystopic scenarios for

31 sted within the framework of complex dynamic systems theory, and we propose that the dorsal posterior

32 earby saddle-node bifurcation from dynamical systems theory, and which provides a novel policy opport

33 We focus on the specifics of systems theories as applied to families, and the researc

34 e import phase-delay time plots from chaotic systems theory as a dynamic data visualization device an

35 ue can be viewed in the context of dynamical systems theory as the attempt to move a dynamical system

36 Biochemical Systems Theory (BST) is the mathematical basis of a well

37 onical system representations of Biochemical Systems Theory (BST).

38 the development of statistics and dynamical systems theory, but recent analytical advances, coupled

39 In this paper, we illustrate how dynamical systems theory can provide a unifying conceptual framewo

40 Our analysis, which is derived from systems theory, carries out a particular view of the res

41 Complementary Learning Systems Theory (CLST) suggests that new memories can be

42 This Primer examines five core dynamical systems theory concepts and their applications to patter

43 quirements can be inferred from quantitative systems theory considerations, informed by knowledge of

44 Using the Ecological Systems Theory (EST) as a model, we sought to examine th

45 system, thus enabling the user to use linear systems theory for analysis and control of the system; (

46 Our stability analysis, based on dynamical systems theory, guarantees global convergence to steady

47 While monotone systems theory has been used previously for systems biol

48 lems tends to accelerate progress--as linear systems theory has done, for example.

49 ral early warning signals (EWS) from complex systems theory have been introduced to detect impending

50 the amplitude scaling assumption for linear systems theory holds across cortical depth.

51 Systems theories, including network analysis and machine

52 Concepts from dynamical systems theory, including multi-stability, oscillations,

53 Dynamic systems theory is a metatheoretical framework for studyi

54 Dynamical systems theory is widely used to explain tipping points,

55 However, at the foundation of dynamical systems theory lies a definition of what constitutes the

56 Coevolutionary theories and developmental systems theories may eventually give rise to unification

57 research highlights how tools from dynamical systems theory may inform our understanding of patternin

58 em structures and changes, such as dynamical systems theory, network theory, instability mechanisms,

59 d executive systems posited by a dual neural systems theory of adolescent development.

60 ns of each cell type in the neural dynamical systems theory of Izhikevich.

61 Non-linear systems theory offers the possibility of studying import

62 s and analyses in the framework of dynamical systems theories on epithelial-to-mesenchymal transition

63 Dynamical systems theory provides a powerful quantitative, visual

64 of adversity to Bronfenbrenner's ecological systems theory provides a strategic approach to improvin

65 equations depending on parameters; dynamical systems theory provides, through the appropriate normal

66 e problem as a more general one in dynamical systems theory, providing simple criteria for open-ended

67 purposes of this review, our use of the term systems theory references the body of interdisciplinary

68 Analyses of the model based on dynamical systems theory show that perceptual awareness in simulat

69 putational modeling, insights from dynamical systems theory, sophisticated stimulus designs, and stud

70 Dynamical systems theory suggests that this interplay between aspe

71 than these, it draws on previous advances in Systems Theory, Systems Biology, and Hierarchy Theory.

72 ding to the classical Complementary Learning Systems theory, the hippocampus (HPC) rapidly changes it

73 According to dynamical systems theory, these responses are self-organised, emer

74 spread to cortex, extending multiple memory systems theories to encompass cognitive task learning.

75 mework builds on Bronfenbrenner's ecological systems theory to conceptualize adversities at intrapers

76 reaction-diffusion simulation, and dynamical systems theory to demonstrate that MCS can indeed be a f

77 Here, we apply stochastic dynamical systems theory to derive general statistical scaling rel

78 n by employing metrics issued from dynamical systems theory to describe the atmospheric circulation a

79 hors apply the analogy of a "black box" from systems theory to epidemiologic problems.

80 In this paper, we apply a result from systems theory to explain the observations of bird V-for

81 Here we employ monotone systems theory to formulate a theorem stating necessary

82 The application of complex systems theory to physiology and medicine has provided m

83 Finally, by applying linear systems theory to the models considered, we provide some

84 in spin-1/2 and apply ab initio open quantum systems theory to their full molecular electronic wavefu

85 e well-established techniques from dynamical systems theory to uncover and classify ranges of auxin p

86 Using tools from dynamical systems theory, we analyze the role of these emergent si

87 tion with biophysical modeling and dynamical systems theory, we analyzed, for the first time, the mec

88 framing this interpretation within dynamical systems theory, we arrive at a surprising prediction: a

89 Using techniques from control and dynamical systems theory, we demonstrate that integral control is

90 behavioral states characterized by dynamical systems theory, which includes discrete stages of period

91 ensively studied in the context of dynamical systems theory, with many empirical phenomena described