nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
1 |
Balancing general principles with fine-scale interactions in understanding the emergence of movement-driven spatial patterns
|
Lutz, Matthew J. |
|
2016 |
19 |
C |
p. 125-127 3 p. |
artikel |
2 |
Bridging physics and biology
|
Liu, Quan-Xing |
|
2016 |
19 |
C |
p. 142-146 5 p. |
artikel |
3 |
Cities' influence on spatial epidemics
|
Podobnik, Boris |
|
2016 |
19 |
C |
p. 90-92 3 p. |
artikel |
4 |
Climate change is a potential factor for the emergence of pattern transitions in spatial epidemics
|
Wu, Yong-Ping |
|
2016 |
19 |
C |
p. 98-99 2 p. |
artikel |
5 |
Disease control framework based on spatial epidemiology: Reply to comments on “Pattern transitions in spatial epidemics: Mechanisms and emergent properties”
|
Sun, Gui-Quan |
|
2016 |
19 |
C |
p. 103-106 4 p. |
artikel |
6 |
Ecological patterns emerging as a result of the density distribution of organisms
|
Vicsek, Tamas |
|
2016 |
19 |
C |
p. 139-141 3 p. |
artikel |
7 |
Editorial Board
|
|
|
2016 |
19 |
C |
p. i- 1 p. |
artikel |
8 |
Evolutionary game theory using agent-based methods
|
Adami, Christoph |
|
2016 |
19 |
C |
p. 1-26 26 p. |
artikel |
9 |
Key factors in disease spreading: Spatial heterogeneity, time dependence, and human behavior
|
Gonçalves, Sebastián |
|
2016 |
19 |
C |
p. 79-80 2 p. |
artikel |
10 |
Mathematical approaches or agent-based methods?
|
Tarnita, Corina E. |
|
2016 |
19 |
C |
p. 36-37 2 p. |
artikel |
11 |
Mechanisms and phenomenology of phase separation
|
Silverberg, Jesse L. |
|
2016 |
19 |
C |
p. 137-138 2 p. |
artikel |
12 |
Models of evolution and evolutionary game theory
|
Schuster, Peter |
|
2016 |
19 |
C |
p. 32-35 4 p. |
artikel |
13 |
Only the combination of mathematics and agent-based simulations can leverage the full potential of evolutionary modeling
|
Hilbe, Christian |
|
2016 |
19 |
C |
p. 29-31 3 p. |
artikel |
14 |
Patterned distributed populations: Beyond Turing
|
Kuperman, M.N. |
|
2016 |
19 |
C |
p. 122-124 3 p. |
artikel |
15 |
Pattern, process, scale, and model's sensitivity
|
Petrovskii, Sergei |
|
2016 |
19 |
C |
p. 131-134 4 p. |
artikel |
16 |
Pattern transition phenomena in spatial modeling of infectious diseases
|
Wang, Haiyan |
|
2016 |
19 |
C |
p. 81-82 2 p. |
artikel |
17 |
Pattern transitions in spatial epidemics: Mechanisms and emergent properties
|
Sun, Gui-Quan |
|
2016 |
19 |
C |
p. 43-73 31 p. |
artikel |
18 |
Phase separation driven by density-dependent movement: A novel mechanism for ecological patterns
|
Liu, Quan-Xing |
|
2016 |
19 |
C |
p. 107-121 15 p. |
artikel |
19 |
Predicting spatial dynamics of infectious disease: Causes and consequences
|
Bhattacharyya, Samit |
|
2016 |
19 |
C |
p. 74-75 2 p. |
artikel |
20 |
Space dynamics and stochastic features of evolutionary game dynamics
|
Bellomo, Nicola |
|
2016 |
19 |
C |
p. 27-28 2 p. |
artikel |
21 |
Spatio-temporal epidemic models and public health
|
d'Onofrio, Alberto |
|
2016 |
19 |
C |
p. 76-78 3 p. |
artikel |
22 |
The Cahn–Hilliard phase separation principle maybe the tip of an iceberg
|
Reynolds, A.M. |
|
2016 |
19 |
C |
p. 135-136 2 p. |
artikel |
23 |
The development of spatial epidemiology
|
Zhao, Dawei |
|
2016 |
19 |
C |
p. 100-102 3 p. |
artikel |
24 |
The reasonable effectiveness of agent-based simulations in evolutionary game theory
|
Adami, Christoph |
|
2016 |
19 |
C |
p. 38-42 5 p. |
artikel |
25 |
The spatial patterning potential of nonlinear diffusion
|
Maini, Philip K. |
|
2016 |
19 |
C |
p. 128-130 3 p. |
artikel |
26 |
The spreading of infectious diseases in modern socio-technical systems Comment on “Pattern transitions in spatial epidemics: Mechanisms and emergent properties” by Gui-Quan Sun et al.
|
Perra, Nicola |
|
2016 |
19 |
C |
p. 87-89 3 p. |
artikel |
27 |
Time delay induces pattern transition in spatial epidemics
|
Liu, Pan-Ping |
|
2016 |
19 |
C |
p. 85-86 2 p. |
artikel |
28 |
Towards high-resolution spatial modeling of infectious disease dynamics
|
Guo, Zun-Guang |
|
2016 |
19 |
C |
p. 93-94 2 p. |
artikel |
29 |
Transition from stationary pattern to patch invasion in infectious diseases with space
|
Li, Li |
|
2016 |
19 |
C |
p. 83-84 2 p. |
artikel |
30 |
Understanding spatial spread of emerging infectious diseases in contemporary populations
|
Li, Hui-Jia |
|
2016 |
19 |
C |
p. 95-97 3 p. |
artikel |