| _ | lithography | _ |
|---|
| Custom-modified three-dimensional periodic microstructures by pattern-integrated interference | lithography | |
| Evolutionary Optimization for Plasmon-Assisted | lithography | |
| Fast exposure simulation for large circuit patterns in electron beam | lithography | |
| Gradient-Based Source and Mask Optimization in Optical | lithography | |
| Inverse image problem of designing phase shifting masks in optical | lithography | |
| LineDiff Entropy: Lossless Layout Data Compression Scheme for Maskless | lithography | Systems |
| LithoPW: Leveraging Visual Memory Encoding and Defect-Aware Optimization for Precise Determination of the | lithography | Process Windows |
| Pixelated source and mask optimization for immersion | lithography | |
| Robust Computational Algorithm for Inverse Photomask Synthesis in Optical Projection | lithography | , A |
| State space model and numerical simulation of overlay error for multilayer overlay | lithography | processes |
| Stochastic gradient descent for robust inverse photomask synthesis in optical | lithography | |
| Surface Reconstruction From Microscopic Images in Optical | lithography | |
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| _ | lithological | _ |
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| Application of Hybrid Attention Mechanisms in | lithological | Classification with Multisource Data: A Case Study from the Altay Orogenic Belt |
| Application of | lithological | Mapping Based on Advanced Hyperspectral Imager (AHSI) Imagery Onboard Gaofen-5 (GF-5) Satellite |
| Assessment of WorldView-3 Data for | lithological | Mapping |
| Comparative Study of Convolutional Neural Networks and Conventional Machine Learning Models for | lithological | Mapping Using Remote Sensing Data, A |
| Correction of terrestrial LiDAR intensity channel using Oren-Nayar reflectance model: An application to | lithological | differentiation |
| Evaluating the Use of an Object-Based Approach to | lithological | Mapping in Vegetated Terrain |
| Feasibility of Using a 300 GHz Radar to Detect Fractures and | lithological | Changes in Rocks |
| Impact of Vegetation on | lithological | Mapping Using Airborne Multispectral Data: A Case Study for the North Troodos Region, Cyprus, The |
| Improved | lithological | Map of Large Complex Semi-Arid Regions Using Spectral and Textural Datasets within Google Earth Engine and Fused Machine Learning Multi-Classifiers |
| Improvement of | lithological | Identification Under the Impact of Sparse Vegetation Cover with 1D Discrete Wavelet Transform for Gaofen-5 Hyperspectral Data |
| Improvement of | lithological | Mapping Using Discrete Wavelet Transformation from Sentinel-1 SAR Data |
| Improving | lithological | Mapping by SVM Classification of Spectral and Morphological Features: The Discovery of a New Chromite Body in the Mawat Ophiolite Complex (Kurdistan, NE Iraq) |
| Interpretation of the Reflectance Spectra of Lithium (Li) Minerals and Pegmatites: A Case Study for Mineralogical and | lithological | Identification in the Fregeneda-Almendra Area |
| Landsat-TM-Based Discrimination of | lithological | Units Associated with the Purtuniq Ophiolite, Quebec, Canada |
| Lightweight Deep Learning Approaches for | lithological | Mapping in Vegetated Terrains of the Valioara Valley, Romania |
| lithological | and Hydrothermal Alteration Mapping of Epithermal, Porphyry and Tourmaline Breccia Districts in the Argentine Andes Using ASTER Imagery |
| lithological | Classification by Hyperspectral Images Based on a Two-Layer XGBoost Model, Combined with a Greedy Algorithm |
| lithological | Classification Using Multi-sensor Data and Convolutional Neural Networks |
| lithological | Classification Using Sentinel-2A Data in the Shibanjing Ophiolite Complex in Inner Mongolia, China |
| lithological | Classification Using ZY1-02D Hyperspectral Data by Means of Machine Learning and Deep Learning Methods in the Kohat-Pothohar Plateau, Khyber Pakhtunkhwa, Pakistan |
| lithological | Mapping Based on Fully Convolutional Network and Multi-Source Geological Data |
| lithological | Mapping in Plateau Regions by Integrating Spectral Feature Selection and Deep Learning: A Case Study of the Gonjo Area, Tibet |
| lithological | Mapping of Dahab Basin, South Sinai, Egypt, using ASTER Data |
| lithological | Mapping Using Landsat 8 Oli and Aster Multispectral Data In Imini-ounilla District South High Atlas of Marrakech |
| Machine Learning Algorithms for Automatic | lithological | Mapping Using Remote Sensing Data: A Case Study from Souk Arbaa Sahel, Sidi Ifni Inlier, Western Anti-Atlas, Morocco |
| Mapping the | lithological | Features and Ore-Controlling Structures Related to Ni-Cu Mineralization in the Eastern Tian Shan, NW China from ASTER Data |
| Method of Convolutional Neural Networks for | lithological | Classification Using Multisource Remote Sensing Data |
| Novel Sample Generation Method for Deep Learning | lithological | Mapping with Airborne TASI Hyperspectral Data in Northern Liuyuan, Gansu, China, A |
| Optimized | lithological | Mapping from Multispectral and Hyperspectral Remote Sensing Images Using Fused Multi-Classifiers |
| Spectral mixture analysis of intimate mixtures for | lithological | mapping |
| Unconventional Field Mapping Application: A Complete Opensource Workflow Solution Applied to | lithological | Mapping of the Coatings of Cultural Heritage, An |
| Utilization of LANDSAT-8 Data for | lithological | Mapping of Basement Rocks of Plateau State North Central Nigeria |
| vision-language foundation model-based multi-modal retrieval-augmented generation framework for remote sensing | lithological | recognition, A |
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| _ | lithology | _ |
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| AFPN-ResUNet: A Residual Attention Mechanism-Guided Asymptotic Feature Pyramid Network for Complex Outcrop | lithology | Segmentation |
| Application of a Multifractal Model for Identification of | lithology | and Hydrothermal Alteration in the Dasuji Porphyry Mo Deposit in Inner Mongolia, China |
| Automated | lithology | Segmentation of 3D Point Clouds from Highwalls Using Deep Learning |
| Integrating Hyperspectral Imaging, Plant Functional Diversity, and Soil- | lithology | to Uncover Mountainscape Disturbance Dynamics Induced by Landsliding |
| Interpretable Dual-Channel Convolutional Neural Networks for | lithology | Identification Based on Multisource Remote Sensing Data |
| lithology | Classification Using TASI Thermal Infrared Hyperspectral Data with Convolutional Neural Networks |
| lithology | Discrimination Using Sentinel-1 Dual-Pol Data and SRTM Data |
| Machine Learning-Based Method for | lithology | Identification of Outcrops Using TLS-Derived Spectral and Geometric Features, A |
| Mapping | lithology | with Hybrid Attention Mechanism-Long Short-Term Memory: A Hybrid Neural Network Approach Using Remote Sensing and Geophysical Data |
| MSIMRS: Multi-Scale Superpixel Segmentation Integrating Multi-Source Remote Sensing Data for | lithology | Identification in Semi-Arid Area |
| Reservoir | lithology | Determination by Hidden Markov Random Fields Based on a Gaussian Mixture Model |
| Spatially Coupled Data-Driven Approach for | lithology | /Fluid Prediction, A |
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| _ | lithosphere | _ |
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| Analysis of | lithosphere | -Atmosphere-Ionosphere Coupling Associated with the 2022 Luding Ms6.8 Earthquake, The |
| Clues of | lithosphere | , Atmosphere and Ionosphere Variations Possibly Related to the Preparation of La Palma 19 September 2021 Volcano Eruption |
| Editorial of Special Issue Remote Sensing Observations to Improve Knowledge of | lithosphere | -Atmosphere-Ionosphere Coupling during the Preparatory Phase of Earthquakes |
| Evaluation of Seismo-Ionospheric and Seismological Parameters Within the | lithosphere | -Atmosphere-Ionosphere Coupling Framework for the 2025 Mw 7.7 Myanmar Earthquake |
| lithosphere | Ionosphere Coupling Associated with Seismic Swarm in the Balkan Peninsula from ROB-TEC and GPS |
| Numerical Study of Global ELF Electromagnetic Wave Propagation with Respect to | lithosphere | -Atmosphere-Ionosphere Coupling |
| Pre-Earthquake Oscillating and Accelerating Patterns in the | lithosphere | -Atmosphere-Ionosphere Coupling (LAIC) before the 2022 Luding (China) Ms6.8 Earthquake |
| Rheology of the Northern Tibetan Plateau | lithosphere | Inferred from the Post-Seismic Deformation Resulting from the 2001 Mw 7.8 Kokoxili Earthquake |
| Rheology of the Zagros | lithosphere | from PostSeismic Deformation of the 2017 Mw7.3 Kermanshah, Iraq, Earthquake |
| Study of | lithosphere | -Ionosphere Seismic Precursors from Detecting Gamma-Ray and Total Electron Content Anomalies Prior to the 2018 ML6.2 Hualien Earthquake in Eastern Taiwan, A |
| Studying the Impact of the Geospace Environment on Solar | lithosphere | Coupling and Earthquake Activity |
| Visualizing the Structure of the Earth's | lithosphere | on the Google Earth Virtual-Globe Platform |
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| _ | lithospheric | _ |
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| Haiti Earthquake (Mw 7.2): Magnetospheric-Ionospheric- | lithospheric | Coupling during and after the Main Shock on 14 August 2021 |
| lithospheric | Equilibrium, Environmental Changes, and Potential Induced-Earthquake Risk around the Newly Impounded Baihetan Reservoir, China |
| lithospheric | Stress Due to Mantle Convection and Mantle Plume over East Africa from GOCE and Seismic Data |
| Magnetospheric-Ionospheric- | lithospheric | Coupling Model. 1: Observations during the 5 August 2018 Bayan Earthquake |
| Numerical Solution of the Atmospheric Perturbations Triggered by Persistent | lithospheric | Vibrations |
| Study of the | lithospheric | Magnetic Field over Xinjiang and Tibet Areas Based on Ground, Airborne, and Satellite Data, The |
| Study on | lithospheric | Tectonic Features of Tianshan and Adjacent Regions and the Genesis Mechanism of the Wushi Ms7.1 Earthquake |
| Utilising Macau Science Satellite-1 Data and Comprehensive Datasets to Develop a | lithospheric | Magnetic Field Model of the Chinese Mainland |
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