Jani, A.B.
* 2000: Volume rendering quantification algorithm for reconstruction of CT volume-rendered structures. 1. Cerebral arteriovenous malformations
* 2020: Multi-Needle Detection in 3D Ultrasound Images Using Unsupervised Order-Graph Regularized Sparse Dictionary Learning
Jani, M.
* 2020: Significance of Remote Sensing Based Precipitation and Terrain Information for Improved Hydrological and Hydrodynamic Simulation In Parts of Himalayan River Basins
Jani, S.[Swara]
* 2021: Perceptual Variation Stacking: Test Time Augmentations in Endoscopy Image Segmentation
Jania, J.[Jacek]
* 2019: Quality Assessment and Glaciological Applications of Digital Elevation Models Derived from Space-Borne and Aerial Images over Two Tidewater Glaciers of Southern Spitsbergen
* 2023: Comparison of Three Methods for Distinguishing Glacier Zones Using Satellite SAR Data
Janiak, M.[Mateusz]
* 2012: Smooth Quaternion Lifting Scheme Transform for Multi-Resolution Motion Analysis, The
* 2014: Collaborative Tool for Annotation of Synovitis and Assessment in Ultrasound Images
* 2014: Component Weight Tuning of SSIM Image Quality Assessment Measure
Janiaut, M.
* 2009: Embedded and Programmable System Based FPGA for Real Time MPEG Stream Buffer Analysis, An
Janich, M.A.[Martin A.]
* 2016: Motion Estimated-Compensated Reconstruction with Preserved-Features in Free-Breathing Cardiac MRI
Janichen, J.
* 2020: Investigation of the Ground Motion Near the Leaning Tower of Bad Frankenhausen Using Sentinel-1 Persistent Scatterer Interferometry
* 2022: Monitoring of Radial Deformations of a Gravity Dam Using Sentinel-1 Persistent Scatterer Interferometry
Includes: Janichen, J. Jänichen, J. (Maybe also Jaenichen, J.)Jänichen, J.[Jannik] (Maybe also Jaenichen, J.)
Janichen, S.
* 2004: Recognition of airborne fungi spores in digital microscopic images
* 2006: Aligning Concave and Convex Shapes
Includes: Janichen, S. Jänichen, S.[Silke] (Maybe also Jaenichen, S.)
Janicka, J.
* 2019: Defect Detection of Historic Structures in Dark Places Based On The Point Cloud Analysis By Modified OPTD Method
* 2020: Application of the Msplit Estimation Method in the Detection and Dimensioning of the Displacement of Adjacent Planes
* 2020: Automatic Threat Detection for Historic Buildings in Dark Places Based on the Modified OptD Method
* 2020: Remote Detection of Moisture and Bio-Deterioration of Building Walls by Time-Of-Flight and Phase-Shift Terrestrial Laser Scanners
* 2022: Methodology of Calculating the Number of Trees Based on ALS Data for Forestry Applications for the Area of Samlawki Forest District
* 2023: Orthogonal Msplit Estimation for Consequence Disaster Analysis
Includes: Janicka, J. Janicka, J.[Joanna]
Janicka, L.[Lucja]
* 2018: Modification of Local Urban Aerosol Properties by Long-Range Transport of Biomass Burning Aerosol
Janicke, H.[Helge]
* 2023: SAir-IIoT Cyber Testbed as a Service: A Novel Cybertwins Architecture in IIoT-Based Smart Airports, The
Janicke, L.K.[Lena Katharina]
* 2023: Estimation of Aerosol Layer Height from OLCI Measurements in the O2A-Absorption Band over Oceans
Includes: Janicke, L.K.[Lena Katharina] Jänicke, L.K.[Lena Katharina] (Maybe also Jaenicke, L.K.)
Janiczek, J.[John]
* 2020: Differentiable Programming for Hyperspectral Unmixing Using a Physics-based Dispersion Model
Janiczek, R.L.
* 2006: Ultrasound Myocardial Tracking with Speckle Reducing Anisotropic Diffusion Assisted Initialization
* 2008: Velocity guided segmentation of phase contrast magnetic resonance angiography
Includes: Janiczek, R.L. Janiczek, R.L.[Robert L.]
Janiczek, T.
* 2016: Road traffic predictions across major city intersections using multilayer perceptrons and data from multiple intersections located in various places
Janiec, P.[Piotr]
* 2020: Comparison of Two Machine Learning Classification Methods for Remote Sensing Predictive Modeling of the Forest Fire in the North-Eastern Siberia, A
Janier, J.B.[Josefina Barnachea]
* 2009: Visual Learning in Application of Integration
Janier, M.F.
* 2001: Neuro-fuzzy systems for computer-aided myocardial viability assessment
Janik, L.[Lukasz]
* 2012: Application of a Hybrid Algorithm for Non-humanoid Skeleton Model Estimation from Motion Capture Data
* 2012: System for Analysis of Tremor in Patients with Parkinson's Disease Based on Motion Capture Technique, A
* 2014: Range of Motion Measurements Using Motion Capture Data and Augmented Reality Visualisation
Janik, M.[Maciej]
* 2021: Zero in on Shape: A Generic 2D-3D Instance Similarity Metric Learned from Synthetic Data
Janin, A.[Adam]
* 2007: SRI-ICSI Spring 2007 Meeting and Lecture Recognition System, The
* 2017: DCAR: A Discriminative and Compact Audio Representation for Audio Processing
Includes: Janin, A.[Adam] Janin, A.
Janis, A.
* 2011: Radar Detection of Moving Targets Behind Corners
Janis, V.[Vladimir]
* 2009: Construction of Fuzzy Relation by Closure Systems
Includes: Janis, V.[Vladimir] Jani, V.[Vladimír]
Janisio Pawlowska, D.[Dorota]
* 2021: Analysis of the Possibilities of Using HBIM Technology in the Protection of Cultural Heritage, Based on a Review of the Latest Research Carried out in Poland
Includes: Janisio Pawlowska, D.[Dorota] Janisio-Pawlowska, D.[Dorota]
Janiszek, D.
* 2004: Data augmentation and language model adaptation using singular value decomposition
Janiszewski, M.[Mateusz]
* 2022: Rapid Photogrammetry with a 360-Degree Camera for Tunnel Mapping
Janizadeh, S.[Saeid]
* 2020: Comparison of Machine Learning Methods for Mapping the Stand Characteristics of Temperate Forests Using Multi-Spectral Sentinel-2 Data
* 2020: Flash Flood Susceptibility Modeling Using New Approaches of Hybrid and Ensemble Tree-Based Machine Learning Algorithms
* 2020: Forest Fire Susceptibility Prediction Based on Machine Learning Models with Resampling Algorithms on Remote Sensing Data
* 2020: GIS-Based Machine Learning Algorithms for Gully Erosion Susceptibility Mapping in a Semi-Arid Region of Iran
* 2021: Deep Neural Network Utilizing Remote Sensing Datasets for Flood Hazard Susceptibility Mapping in Brisbane, Australia
* 2022: Machine Learning and Hyperparameters Algorithms for Identifying Groundwater Aflaj Potential Mapping in Semi-Arid Ecosystems Using LiDAR, Sentinel-2, GIS Data, and Analysis