Philip Maini mathematician
Maini, Philip K.
Maini, Philip K., 1959-....
VIAF ID: 221837257 (Personal)
Permalink: http://viaf.org/viaf/221837257
Preferred Forms
- 200 _ | ‡a Maini ‡b Philip K. ‡f 1959-....
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- 100 1 _ ‡a Maini, Philip K
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- 100 1 _ ‡a Maini, Philip K.
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- 100 1 _ ‡a Maini, Philip K.
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- 100 1 _ ‡a Maini, Philip K.
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- 100 1 _ ‡a Maini, Philip K., ‡d 1959-....
- 100 0 _ ‡a Philip Maini ‡c mathematician
4xx's: Alternate Name Forms (16)
5xx's: Related Names (1)
- 510 2 _ ‡a Mathematical Institute ‡g Oxford ‡4 affi ‡4 https://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
Works
Title | Sources |
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Achieving coexistence—Comment on “Modelling rain forest diversity: The role of competition” by Bampfylde et al. (2005) | |
Cellular automaton modeling of biological pattern formation : characterization, applications, and analysis | |
Dispersal, individual movement and spatial ecology : a mathematical perspective | |
Embryonic patterning of the avian skin : mathematical modelling of embryonic dynamics | |
Experimental and theoretical advances in biological pattern formation, c1993: | |
Formation des motifs cutanés aviaires : modélisation mathématique de dynamiques embryonnaires. | |
Mathematical biosciences subseries | |
Mathematics inspired by biology : lectures given at the 1st session of the Centro Internazionale Matematico Estivo (C.I.M.E.) held in Martina Franca, Italy, June 13-20, 1997 | |
Mechanochemical models for generating biological pattern and form in development | |
Mode transitions in a model reaction-diffusion system driven by domain growth and noise. | |
Multiscale mechanisms of cell migration during development: theory and experiment | |
Multisite Phosphorylation Modulates the T Cell Receptor ζ-Chain Potency but not the Switchlike Response | |
Neural crest cells bulldoze through the microenvironment using Aquaporin 1 to stabilize filopodia | |
Neurogenesis regulation and homeostasis : role of Pax6 signalling and mathematical modelling | |
Nonlinear diffusion of a growth inhibitory factor in multicell spheroids. | |
Obituary: Hans Meinhardt (1938-2016) | |
On the mathematical modeling of wound healing angiogenesis in skin as a reaction-transport process | |
On the proportion of cancer stem cells in a tumour. | |
On the Spatial Spread of the Grey Squirrel in Britain | |
Oscillatory dynamics in a model of vascular tumour growth--implications for chemotherapy | |
Patterns of non-normality in networked systems | |
Post-buckling behaviour of a growing elastic rod | |
Predicting the Influence of Microvascular Structure On Tumor Response to Radiotherapy | |
Prey Switching with a Linear Preference Trade-Off | |
Quiescence as a mechanism for cyclical hypoxia and acidosis. | |
Reaction-diffusion finite element model of lateral line primordium migration to explore cell leadership | |
Recasting the cancer stem cell hypothesis: unification using a continuum model of microenvironmental forces | |
Reptile scale paradigm: Evo-Devo, pattern formation and regeneration | |
Response kinetics of tethered bacteria to stepwise changes in nutrient concentration | |
Rethinking Models of Pattern Formation in Somitogenesis | |
Rhythmic firing patterns in suprachiasmatic nucleus (SCN): the rôle of circuit interactions. | |
The role of acidity in solid tumour growth and invasion | |
Role of fibroblast migration in collagen fiber formation during fetal and adult dermal wound healing. | |
The role of mechanics in the growth and homeostasis of the intestinal crypt | |
Self-organizing and stochastic behaviors during the regeneration of hair stem cells | |
Self-organizing hair peg-like structures from dissociated skin progenitor cells: New insights for human hair follicle organoid engineering and Turing patterning in an asymmetric morphogenetic field | |
Semblance of Heterogeneity in Collective Cell Migration. | |
Simple versus sophisticated models of breath alcohol exhalation profiles. | |
Spatial Metrics of Tumour Vascular Organisation Predict Radiation Efficacy in a Computational Model. | |
The spatial patterning potential of nonlinear diffusion: Comment on "Phase separation driven by density-dependent movement: A novel mechanism for ecological patterns" by Quan-Xing Liu et al. | |
Spatially varying equilibria of mechanical models: application to dermal wound contraction. | |
Spatio-temporal patterns in a mechanical model for mesenchymal morphogenesis. | |
Spatiotemporal modelling of CheY complexes in Escherichia coli chemotaxis. | |
Special Collection: Celebrating J.D. Murray’s Contributions to Mathematical Biology | |
Speed of reaction diffusion in embryogenesis. | |
Spots and stripes: pleomorphic patterning of stem cells via p-ERK-dependent cell chemotaxis shown by feather morphogenesis and mathematical simulation | |
Stability analysis of non-autonomous reaction-diffusion systems: the effects of growing domains. | |
Stability of spikes in the shadow Gierer-Meinhardt system with Robin boundary conditions. | |
Steering Evolution with Sequential Therapy to Prevent the Emergence of Bacterial Antibiotic Resistance | |
Stochastic growth pattern of untreated human glioblastomas predicts the survival time for patients | |
Stochastic reaction and diffusion on growing domains: understanding the breakdown of robust pattern formation. | |
STOCHSIMGPU: parallel stochastic simulation for the Systems Biology Toolbox 2 for MATLAB. | |
Stripe formation in juvenile Pomacanthus explained by a generalized turing mechanism with chemotaxis | |
Structural Features of Microvascular Networks Trigger Blood Flow Oscillations | |
Suicide substrate reaction--diffusion equations: varying the source. | |
Superposition of modes in a caricature of a model for morphogenesis. | |
Systems biology and cancer | |
Systems model of T cell receptor proximal signaling reveals emergent ultrasensitivity | |
Theoretical insights into bacterial chemotaxis | |
Theoretical Insights into the Retinal Dynamics of Vascular Endothelial Growth Factor in Patients Treated with Ranibizumab, Based on an Ocular Pharmacokinetic/Pharmacodynamic Model | |
Towards whole-organ modelling of tumour growth. | |
Traveling wave model to interpret a wound-healing cell migration assay for human peritoneal mesothelial cells. | |
Travelling gradients in interacting morphogen systems. | |
Travelling-wave analysis of a model of tumour invasion with degenerate, cross-dependent diffusion | |
Travelling waves in a tissue interaction model for skin pattern formation. | |
Tumour angiogenesis: the gap between theory and experiments | |
Tumour–stromal interactions in acid-mediated invasion: A mathematical model | |
Tuneable superradiant thermal emitter assembly | |
Turbulent Luminance in Impassioned van Gogh Paintings | |
Turing instabilities in general systems. | |
Turing patterns in fish skin? | |
Turing patterns with pentagonal symmetry | |
Turing's model for biological pattern formation and the robustness problem. | |
Turnover modulates the need for a cost of resistance in adaptive therapy | |
VEGF signals induce trailblazer cell identity that drives neural crest migration. | |
Visualizing mesoderm and neural crest cell dynamics during chick head morphogenesis | |
Waves and patterning in developmental biology: vertebrate segmentation and feather bud formation as case studies | |
What has mathematics done for biology? | |
Wound Healing in the Corneal Epithelium: Biological Mechanisms and Mathematical Models | |
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