Assessing Extremes in Hydroclimatology: A Review on Probabilistic Methods

Detection of terrain features (ridges, spurs, cliffs, and peaks) is a basic research topic in digital elevation model (DEM) analysis and is essential for learning about factors that influence terrain surfaces, such as geologic structures and geomorphologic processes. Detection of terrain features based on general geomorphometry is challenging and has a high degree of uncertainty, mostly due to a variety of controlling factors on surface evolution in different regions. Currently, there are different computational techniques for obtaining detailed information about terrain features using DEM analysis. One of the most common techniques is numerically identifying or classifying terrain elements where regional topologies of the land surface are constructed by using DEMs or by combining derivatives of DEM. The main drawbacks of these techniques are that they cannot differentiate between ridges, spurs, and cliffs, or result in a high degree of false positives when detecting spur lines. In this paper, we propose a new method for automatically detecting terrain features such as ridges, spurs, cliffs, and peaks, using shaded relief by controlling altitude and azimuth of illumination sources on both smooth and rough surfaces. In our proposed method, we use edge detection filters based on azimuth angle on shaded relief to identify specific terrain features. Results show that the proposed method performs similar to or in some cases better (when detecting spurs than current terrain features detection methods, such as geomorphon, curvature, and probabilistic methods.

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Habitat Partitioning and Overlap by Large Lacertid Lizards in Southern Europe

Diversity ◽

10.3390/d13040155 ◽

2021 ◽

Vol 13 (4) ◽

pp. 155

Author(s):

Daniel Escoriza ◽

Félix Amat

Keyword(s):

Related Species ◽

Vegetation Cover ◽

Western Europe ◽

Phylogenetic Analyses ◽

Niche Partitioning ◽

Probabilistic Methods ◽

Climate Niche ◽

Rich Diversity ◽

Occupancy Patterns ◽

Lacertid Lizards

South-western Europe has a rich diversity of lacertid lizards. In this study, we evaluated the occupancy patterns and niche segregation of five species of lacertids, focusing on large-bodied species (i.e., adults having >75 mm snout-vent length) that occur in south-western Europe (Italian to the Iberian Peninsula). We characterized the niches occupied by these species based on climate and vegetation cover properties. We expected some commonality among phylogenetically related species, but also patterns of habitat segregation mitigating competition between ecologically equivalent species. We used multivariate ordination and probabilistic methods to describe the occupancy patterns and evaluated niche evolution through phylogenetic analyses. Our results showed climate niche partitioning, but with a wide overlap in transitional zones, where segregation is maintained by species-specific responses to the vegetation cover. The analyses also showed that phylogenetically related species tend to share large parts of their habitat niches. The occurrence of independent evolutionary lineages contributed to the regional species richness favored by a long history of niche divergence.

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A probabilistic epidemiological model

Model Assisted Statistics and Applications ◽

10.3233/mas-210511 ◽

2021 ◽

Vol 16 (1) ◽

pp. 15-23

Author(s):

Hal M. Switkay

Keyword(s):

United States ◽

United Kingdom ◽

United States Of America ◽

Compartmental Model ◽

The United States ◽

Epidemiological Model ◽

Probabilistic Methods ◽

Infinite Intervals ◽

Best Fit ◽

Family Of Distributions

We construct a model for the progress of the 2020 coronavirus epidemic in the United States of America, using probabilistic methods rather than the traditional compartmental model. We employ the generalized beta family of distributions, including those supported on bounded intervals and those supported on semi-infinite intervals. We compare the best-fit distributions for daily new cases and daily new deaths in America to the corresponding distributions for United Kingdom, Spain, and Italy. We explore how such a model might be justified theoretically in comparison to the apparently more natural compartmental model. We compare forecasts based on these models to observations, and find the forecasts useful in predicting total pandemic deaths.

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Local stationarity in exponential last-passage percolation

Probability Theory and Related Fields ◽

10.1007/s00440-021-01035-7 ◽

2021 ◽

Author(s):

Márton Balázs ◽

Ofer Busani ◽

Timo Seppäläinen

Keyword(s):

Brownian Motion ◽

Total Variation ◽

High Probability ◽

Probabilistic Methods ◽

Side Length ◽

Last Passage Percolation ◽

Last Passage Times ◽

Starting Point ◽

Point To Point ◽

Passage Times

AbstractWe consider point-to-point last-passage times to every vertex in a neighbourhood of size $$\delta N^{\nicefrac {2}{3}}$$ δ N 2 3 at distance N from the starting point. The increments of the last-passage times in this neighbourhood are shown to be jointly equal to their stationary versions with high probability that depends only on $$\delta $$ δ . Through this result we show that (1) the $$\text {Airy}_2$$ Airy 2 process is locally close to a Brownian motion in total variation; (2) the tree of point-to-point geodesics from every vertex in a box of side length $$\delta N^{\nicefrac {2}{3}}$$ δ N 2 3 going to a point at distance N agrees inside the box with the tree of semi-infinite geodesics going in the same direction; (3) two point-to-point geodesics started at distance $$N^{\nicefrac {2}{3}}$$ N 2 3 from each other, to a point at distance N, will not coalesce close to either endpoint on the scale N. Our main results rely on probabilistic methods only.

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Conception and Evolution of the Probabilistic Methods for Ship Damage Stability and Flooding Risk Assessment

Journal of Marine Science and Engineering ◽

10.3390/jmse9060667 ◽

2021 ◽

Vol 9 (6) ◽

pp. 667

Author(s):

Dracos Vassalos ◽

M. P. Mujeeb-Ahmed

Keyword(s):

Risk Assessment ◽

Probabilistic Method ◽

Probabilistic Methods ◽

Full Description ◽

Safety Level ◽

Probability Of Survival ◽

Damage Stability ◽

Passenger Ships ◽

Flooding Hazards ◽

Flooding Risk

The paper provides a full description and explanation of the probabilistic method for ship damage stability assessment from its conception to date with focus on the probability of survival (s-factor), explaining pertinent assumptions and limitations and describing its evolution for specific application to passenger ships, using contemporary numerical and experimental tools and data. It also provides comparisons in results between statistical and direct approaches and makes recommendations on how these can be reconciled with better understanding of the implicit assumptions in the approach for use in ship design and operation. Evolution over the latter years to support pertinent regulatory developments relating to flooding risk (safety level) assessment as well as research in this direction with a focus on passenger ships, have created a new focus that combines all flooding hazards (collision, bottom and side groundings) to assess potential loss of life as a means of guiding further research and developments on damage stability for this ship type. The paper concludes by providing recommendations on the way forward for ship damage stability and flooding risk assessment.

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Effect of Manufacturing Variability on Turbine Engine Performance: A Probabilistic Study

Volume 7A: Structures and Dynamics ◽

10.1115/gt2013-95145 ◽

2013 ◽

Cited By ~ 2

Author(s):

Michael Gorelik ◽

Jacob Obayomi ◽

Jack Slovisky ◽

Dan Frias ◽

Howie Swanson ◽

...

Keyword(s):

Performance Metrics ◽

Model Development ◽

Engine Performance ◽

Performance Model ◽

Probabilistic Methods ◽

System Level ◽

Turbine Engine ◽

Probabilistic Study ◽

Blade Geometry

While turbine engine Original Equipment Manufacturers (OEMs) accumulated significant experience in the application of probabilistic methods (PM) and uncertainty quantification (UQ) methods to specific technical disciplines and engine components, experience with system-level PM applications has been limited. To demonstrate the feasibility and benefits of an integrated PM-based system, a numerical case study has been developed around the Honeywell turbine engine application. The case study uses experimental observations of engine performance such as horsepower and fuel flow from a population of engines. Due to manufacturing variability, there are unit-to-unit and supplier-to-supplier variations in compressor blade geometry. Blade inspection data are available for the characterization of these geometric variations, and CFD analysis can be linked to the engine performance model, so that the effect of blade geometry variation on system-level performance characteristics can be quantified. Other elements of the case study included the use of engine performance and blade geometry data to perform Bayesian updating of the model inputs, such as efficiency adders and turbine tip clearances. A probabilistic engine performance model was developed, system-level sensitivity analysis performed, and the predicted distribution of engine performance metrics was calibrated against the observed distributions. This paper describes the model development approach and key simulation results. The benefits of using PM and UQ methods in the system-level framework are discussed. This case study was developed under Defense Advanced Research Projects Agency (DARPA) funding which is gratefully acknowledged.

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Classical Groups, Probabilistic Methods, and the (2, 3)-Generation Problem

Annals of Mathematics ◽

10.2307/2118584 ◽

1996 ◽

Vol 144 (1) ◽

pp. 77 ◽

Cited By ~ 61

Author(s):

Martin W. Liebeck ◽

Aner Shalev

Keyword(s):

Probabilistic Methods ◽

Classical Groups ◽

Generation Problem

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