Evaluation of debris flow susceptibility in El Salvador (CA): a comparison between Multivariate Adaptive Regression Splines (MARS) and Binary Logistic Regression (BLR)

Rotigliano, Edoardo; Martinello, Chiara; Agnesi, Valerio; Conoscenti, Christian

doi:10.15201/hungeobull.67.4.5

Cited by 17 publications

(35 citation statements)

References 34 publications

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“…In addition, its implementation usually improves the results obtained by other types of methodologies such as the logistic models [ 110 , 111 ], multiple linear regression models [ 112 ] and, in general, classical Gaussian models that assume a uniform relationship between response and predictors [ 113 ]. Likewise, Sephton [ 114 ] established that MARS is especially appropriate in the non-linear modeling of time series, while Zhang and Goh [ 100 ] showed that it is more reliable in terms of computational efficiency and interpretability than other approaches in the field of artificial intelligence such as Back Propagation Neural Network (BPNN), even outperforming the reliability of the CART models they come from [ 113 ].…”

Section: Methodsmentioning

confidence: 99%

“…MARS can be focused within the new scientific paradigm [ 115 ] of the “data driven-modeling” [ 100 , 116 , 117 ], one of the foundations of machine learning techniques, being defined on a bi-objective algorithm (elaborated from a “two-stage process”) [ 118 ] in which two different phases are distinguished [ 108 , 109 , 111 , 119 , 120 ]: forward selection and backward deletion. Formally, following Koc and Bozdogan [ 102 ] and Zhang and Goh [ 100 ], its working-schema can be defined from Y , the output or objective-dependent variable response, and

, a matrix of j input variables (predictors), assuming that the data are generated under an “unknown and true model”.…”

Section: Methodsmentioning

confidence: 99%

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The Relative Importance of Globalization and Public Expenditure on Life Expectancy in Europe: An Approach Based on MARS Methodology

Cervantes

López

Rambaud

2020

IJERPH

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Background: There has been a widespread debate about the overall impact of globalization on population, not just economically, but also in terms of health status. Moreover, the current health crisis is going to force governments to review the structure of the public budget to most effectively alleviate the negative economic and health effects on the population. Objective: The aim of this paper is to analyze the relative importance of globalization and the public budget composition—specifically the participation of public expenditure on healthcare, social services and environment in gross domestic product (GDP)—on life expectancy at birth in European countries during the period 1995–2017. Methods: The Multivariate Adaptive Regression Splines (MARS) methodology was applied to analyze the socioeconomic determinants of life expectancy at birth. Results: Our findings show that globalization has no relative importance as an explanatory variable of life expectancy in European countries, while government expenditure on social protection is the most relevant followed by public expenditure on health, gross national income per capita, education level of the population and public expenditure on environmental protection. Conclusion: European strategies intended to impact on health outcome should spend more attention to the composition of public budget.

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Section: Methodsmentioning

confidence: 99%

, a matrix of j input variables (predictors), assuming that the data are generated under an “unknown and true model”.…”

Section: Methodsmentioning

confidence: 99%

The Relative Importance of Globalization and Public Expenditure on Life Expectancy in Europe: An Approach Based on MARS Methodology

Cervantes

López

Rambaud

2020

IJERPH

View full text Add to dashboard Cite

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“…In this research, two scenarios were used: these scenarios were selected after altering different sample sizes and the number of replications, including 90%/10% and 80%/20% with 10 replications. To assess the robustness of the model's data sensitivity [8,22,35], 5, 10, and 15 sample data sets, (replicates) for 70%/30% sample size, were prepared through randomly multi-extracting of various data sets in the calibration and validation subsets [36]. Every set was adjusted through addition to positives (i.e., pixels having hedcut points) an equal number of randomly selected negative points, corresponding to pixels without hedcut [37].…”

Section: Gully Erosion Inventory Mappingmentioning

confidence: 99%

Gully Erosion Susceptibility Mapping Using Multivariate Adaptive Regression Splines—Replications and Sample Size Scenarios

Javidan

Kavian

Pourghasemi

et al. 2019

Water

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Soil erosion is a serious problem affecting numerous countries, especially, gully erosion. In the current research, GIS techniques and MARS (Multivariate Adaptive Regression Splines) algorithm were considered to evaluate gully erosion susceptibility mapping among others. The study was conducted in a specific section of the Gorganroud Watershed in Golestan Province (Northern Iran), covering 2142.64 km2 which is intensely influenced by gully erosion. First, Google Earth images, field surveys, and national reports were used to provide a gully-hedcut evaluation map consisting of 307 gully-hedcut points. Eighteen gully erosion conditioning factors including significant geoenvironmental and morphometric variables were selected as predictors. To model sensitivity of gully erosion, Multivariate Adaptive Regression Splines (MARS) was used while the Area Under the Receiver Operating Characteristic (ROC) Curve (AUC), drawing ROC curves, efficiency percent, Yuden index, and kappa were used to evaluate model efficiency. We used two different scenarios of the combination of the number of replications, and sample size, including 90%/10% and 80%/20% with 10 replications, and 70%/30% with five, 10, and 15 replications for preparing gully erosion susceptibility mapping (GESM). Each one involves a various subset of both positive (presence), and negative (absence) cases. Absences were extracted as randomly distributed individual cells. Therefore, the predictive competency of the gully erosion susceptibility model and the robustness of the procedure were evaluated through these datasets. Results did not show considerable variation in the accuracy of the model, with altering the percentage of calibration to validation samples and number of model replications. Given the accuracy, the MARS algorithm performed excellently in predictive performance. The combination of 80%/20% using all statistical measures including SST (0.88), SPF (0.83), E (0.79), Kappa (0.58), Robustness (0.01), and AUC (0.84) had the highest performance compared to the other combinations. Consequently, it was found that the performance of MARS for modelling gully erosion susceptibility is quite consistent while changes in the testing and validation specimens are executed. The intense acceptable prediction capability of the MARS model verifies the reliability of the method employed for use of this model elsewhere and gully erosion studies since they are qualified to quickly generating precise and exact GESMs (gully erosion sensitivity maps) to make decisions and management edaphic and hydrologic features.

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“…We applied five classifiers, of which RF, SVM, and MARS resulted in the best performance with >99% OAs; differences among them were only 1-5%, while OAs of PLS and KNN were even 40% worse. Although all algorithms proved their efficiency in different tasks [102,[125][126][127], we observed that accuracy depended on the similarity of the spectral characteristic of the objects and the input data. Deep learning (DL) algorithms such as artificial neural network (ANN) [128], convolutional neural network (CNN) [129], and recurrent neural network (RNN) [130] became popular and their efficiency can be higher than ML techniques.…”

Section: Discussionmentioning

confidence: 96%

“…Non-linearity is captured by knots as cutpoints. The classification works in two steps: (1) forward pass: a model is calculated involving all variables considering all possible knots; (2) backward pass: the algorithm removes the variables having the least contribution (prunes to optimal number of knots) to gain the best model using general leaving-one-out cross-validation error metrics [102,103]. We applied RKCV to obtain the optimal number of knots and degree (number of interactions) based on 30 models.…”

Section: Multiple Adaptive Regression Splinesmentioning

confidence: 99%

Building Extraction Using Orthophotos and Dense Point Cloud Derived from Visual Band Aerial Imagery Based on Machine Learning and Segmentation

et al. 2020

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Urban sprawl related increase of built-in areas requires reliable monitoring methods and remote sensing can be an efficient technique. Aerial surveys, with high spatial resolution, provide detailed data for building monitoring, but archive images usually have only visible bands. We aimed to reveal the efficiency of visible orthophotographs and photogrammetric dense point clouds in building detection with segmentation-based machine learning (with five algorithms) using visible bands, texture information, and spectral and morphometric indices in different variable sets. Usually random forest (RF) had the best (99.8%) and partial least squares the worst overall accuracy (~60%). We found that >95% accuracy can be gained even in class level. Recursive feature elimination (RFE) was an efficient variable selection tool, its result with six variables was like when we applied all the available 31 variables. Morphometric indices had 82% producer’s and 85% user’s Accuracy (PA and UA, respectively) and combining them with spectral and texture indices, it had the largest contribution in the improvement. However, morphometric indices are not always available but by adding texture and spectral indices to red-green-blue (RGB) bands the PA improved with 12% and the UA with 6%. Building extraction from visual aerial surveys can be accurate, and archive images can be involved in the time series of a monitoring.

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Evaluation of debris flow susceptibility in El Salvador (CA): a comparison between Multivariate Adaptive Regression Splines (MARS) and Binary Logistic Regression (BLR)

Cited by 17 publications

References 34 publications

The Relative Importance of Globalization and Public Expenditure on Life Expectancy in Europe: An Approach Based on MARS Methodology

The Relative Importance of Globalization and Public Expenditure on Life Expectancy in Europe: An Approach Based on MARS Methodology

Gully Erosion Susceptibility Mapping Using Multivariate Adaptive Regression Splines—Replications and Sample Size Scenarios

Building Extraction Using Orthophotos and Dense Point Cloud Derived from Visual Band Aerial Imagery Based on Machine Learning and Segmentation

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