Consumer behaviour i

Climate strongly influences global wildfire activity, and recent wildfire surges may signal fire weather-induced pyrogeographic shifts. Here we use three daily global climate data sets and three fire danger indices to develop a simple annual metric of fire weather season length, and map spatio-temporal trends from 1979 to 2013. We show that fire weather seasons have lengthened across 29.6 million km2 (25.3%) of the Earth's vegetated surface, resulting in an 18.7% increase in global mean fire weather season length. We also show a doubling (108.1% increase) of global burnable area affected by long fire weather seasons (>1.0 σ above the historical mean) and an increased global frequency of long fire weather seasons across 62.4 million km2 (53.4%) during the second half of the study period. If these fire weather changes are coupled with ignition sources and available fuel, they could markedly impact global ecosystems, societies, economies and climate.

Climate-induced variations in global wildfire danger from 1979-2013

https://orbilu.uni.lu/bitstream/10993/14191/2/iga_final.pdf

Isogeometric analysis: an overview and computer implementation aspects

Adaptive finite element methods (FEM) have been widely used in applications for over 20 years now. In practice, they converge starting from coarse grids, although no mathematical theory has been able to prove this assertion. Ensuring an error reduction rate based on a posteriori error estimators, together with a reduction rate of data oscillation (information missed by the underlying averaging process), we construct a simple and efficient adaptive FEM for elliptic partial differential equations. We prove that this algorithm converges with linear rate without any preliminary mesh adaptation nor explicit knowledge of constants. Any prescribed error tolerance is thus achieved in a finite number of steps. A number of numerical experiments in two and three dimensions yield quasi-optimal meshes along with a competitive performance. Extensions to higher order elements and applications to saddle point problems are discussed as well.

Keywords: A posteriori error estimators, data oscillation, adaptive mesh refinement, convergence, Stokes, Uzawa

AMS Subject Classifications: 65N12, 65N15, 65N30, 65N50, 65Y20


Published: SIAM Review, 44 (2002) 631--658.

/pdf/convergence-of-adaptive-finite-element-methods-8byj8xkxu2.pdf

Convergence of Adaptive Finite Element Methods

Solid T-spline construction from boundary representations for genus-zero geometry

A new approach to solid modeling with trivariate T-splines based on mesh optimization

https://accedacris.ulpgc.es/jspui/bitstream/10553/45234/1/Automatic_strategy_adaptive_tetrahedral.pdf

An automatic strategy for adaptive tetrahedral mesh generation

In this paper we present an a-posteriori error estimator for the mixed formulation of a linear parabolic problem, used for designing an efficient adaptive algorithm. Our space-time discretization consists of lowest order Raviart-Thomas finite element over graded meshes and discontinuous Galerkin method with variable time step. Finally, several examples show that the proposed method is efficient and reliable.

/pdf/space-time-adaptive-algorithm-for-the-mixed-parabolic-6nbzlb7qau.pdf

Space-Time adaptive algorithm for the mixed parabolic problem

On measures of cohesiveness under dichotomous opinions: Some characterizations of approval consensus measures

The meccano method is a novel and promising mesh generation technique for simultaneously creating adaptive tetrahedral meshes and volume parameterizations of a complex solid. The method combines several former procedures: a mapping from the meccano boundary to the solid surface, a 3-D local refinement algorithm and a simultaneous mesh untangling and smoothing. In this paper we present the main advantages of our method against other standard mesh generation techniques. We show that our method constructs meshes that can be locally refined using the Kossaczky bisection rule and maintaining a high mesh quality. Finally, we generate volume T-mesh for isogeometric analysis, based on the volume parameterization obtained by the method.

/pdf/comparison-of-the-meccano-method-with-standard-mesh-15yq2d7kw7.pdf

J. M. Cascón

Papers

A new approach to solid modeling with trivariate T-splines based on mesh optimization

An automatic strategy for adaptive tetrahedral mesh generation

Space-Time adaptive algorithm for the mixed parabolic problem

On measures of cohesiveness under dichotomous opinions: Some characterizations of approval consensus measures

Comparison of the meccano method with standard mesh generation techniques