Your search keyword '"Romulus Costache"' showing total 3 results

1. A new intelligence model for evaluating clay compressibility in soft ground improvement: a combined approach of bees optimization and extreme learning machine.

Author

Zhao, Liuming, Wilson, Shane B., Van Thieu, Nguyen, Zhou, Jian, Romulus, Costache, and Tran, Trung Tin

Subjects

MACHINE learning, ANT algorithms, COMPRESSIBILITY, PARTICLE swarm optimization, BEES, HONEY, POLYMER clay

Abstract

This study investigated the compressibility of clay (Cc) for soft ground improvement and developed six optimized metaheuristic-based extreme learning machine (ELM) models (particle swarm optimization (PSO)-ELM, moth search optimization (MSO)-ELM, firefly optimization (FO)-ELM, cuckoo search optimization (CSO)-ELM, bees optimization (BO)-ELM, and ant colony optimization (ACO)-ELM) to predict Cc. A total of 739 laboratory tests were conducted to develop the models, and 517 datasets were used for training, while the remaining 222 samples were used for testing. The results showed that the accuracy of the developed models was improved by 3–5% compared to the original ELM model. The BO-ELM and MSO-ELM models were identified as the most effective models for predicting Cc, with accuracies ranging from 86.5% to 87%. The study suggests that the MSO-ELM model should be used if training time is critical. The developed models provide useful tools for predicting Cc, an essential parameter for soft ground improvement design, and can assist in the improvement of soft ground. [ABSTRACT FROM AUTHOR]

Published

2024

2. A new intelligence model for evaluating clay compressibility in soft ground improvement: a combined approach of bees optimization and extreme learning machine

Author

Zhao, Liuming, primary, Wilson, Shane B., additional, Van Thieu, Nguyen, additional, Zhou, Jian, additional, Romulus, Costache, additional, and Tran, Trung Tin, additional

Published

2023

3. Recognition of district-wise groundwater stress zones using the GLDAS-2 catchment land surface model during lean season in the Indian state of West Bengal

Author

Saad Sh. Sammen, Romulus Costache, Quoc Bao Pham, Ismail Elkhrachy, Nguyen Thi Thuy Linh, Subha Chakraborty, Matej Vojtek, Satiprasad Sahoo, Jana Vojteková, and Ehsan Sharifi

Subjects

Hydrology, Irrigation, geography, geography.geographical_feature_category, Catchment land surface model, 010504 meteorology & atmospheric sciences, Drainage basin, Groundwater recharge, GIS, 010502 geochemistry & geophysics, 01 natural sciences, Terrestrial water storage, Research Article - Hydrology, Groundwater stress, Infiltration (hydrology), Geophysics, Groundwater storage, Impervious surface, Environmental science, Soil moisture, Water content, Surface water, Groundwater, 0105 earth and related environmental sciences

Abstract

Water is essential for irrigation, drinking and industrial purposes from global to the regional scale. The groundwater considered a significant water resource specifically in regions where the surface water is not sufficient. Therefore, the research problem is focused on district-wise sustainable groundwater management due to urbanization. The number of impervious surface areas like roofing on built-up areas, concrete and asphalt road surface were increased due to the level of urban development. Thus, these surface areas can inhibit infiltration and surface retention by the impact of urbanization because vegetation/forest areas are decreased. The present research examines the district-wise spatiotemporal groundwater storage (GWS) changes under terrestrial water storage using the global land data assimilation system-2 (GLDAS-2) catchment land surface model (CLSM) from 2000 to 2014 in West Bengal, India. The objective of the research is mainly focused on the delineation of groundwater stress zones (GWSZs) based on ten biophysical and hydrological factors according to the deficiency of groundwater storage using the analytic hierarchy process by the GIS platform. Additionally, the spatiotemporal soil moisture (surface soil moisture, root zone soil moisture, and profile soil moisture) changes for the identification of water stress areas using CLSM were studied. Finally, generated results were validated by the observed groundwater level and groundwater recharge data. The sensitivity analysis has been performed for GWSZs mapping due to the deficit of groundwater storage. Three correlation coefficient methods (Kendall, Pearson and Spearman) are applied for the interrelationship between the most significant parameters for the generation of GWSZ from sensitivity analysis. The results show that the northeastern (max: 1097.35 mm) and the southern (max: 993.22 mm) parts have high groundwater storage due to higher amount of soil moisture and forest cover compared to other parts of the state. The results also show that the maximum and minimum total annual groundwater recharge shown in Paschim Medinipore [(361,148.51 hectare-meter (ham)] and Howrah (31,510.46 ham) from 2012 to 2013. The generated outcome can create the best sustainable groundwater management practices based upon the human attitude toward risk. Electronic supplementary material The online version of this article (10.1007/s11600-020-00509-x) contains supplementary material, which is available to authorized users.

Published

2021