Jasiewicz, J.[Jaroslaw]
* 2021: Seasonal Net Shortwave Radiation of Bare Arable Land in Poland and Israel According to Roughness and Atmospheric Irradiance
Jasim, A.[Ahmed]
* 2024: Robust TRISO-fueled Pebble Identification by Digit Recognition
Jasim, M.[Mahmood]
* 2014: Real-Time Computer Vision-Based Static and Dynamic Hand Gesture Recognition System, A
Jasim, S.A.
* 2019: Rock Art Recording in Khatm Al Melaha (United Arab Emirates): Multirange Data Scanning and Web Mapping Technologies
Jasinschi, R.[Rado]
* 1987: Non-Rigid Motion and Regge Calculus
* 2008: Medical image search and retrieval using local binary patterns and KLT feature points
Includes: Jasinschi, R.[Rado] Jasinschi, R.[Radu]
Jasinschi, R.S.
* 1988: Space-Time Sampling with Motion Uncertainty: Constraints on Space-Time Filtering
* 1991: Properties of Space-Time Sampling and the Extraction of the Optical Flow: The Effects of Motion Uncertainty, The
* 1992: Intrinsic Constraints in Space-Time Filtering: A New Approach to Representing Uncertainity in Low-Level Vision
* 1995: Content-based video sequence representation
* 2000: Apparent 3-D Camera Velocity: Extraction and Applications
* 2001: Integrated Multimedia Processing for Topic Segmentation and Classification
* 2003: Temporal Video Boundaries
* 2004: Method for classifying and searching video databases based on 3-D camera motion
* 2011: Application of computational anatomy methods to MRI data for the diagnosis of Alzheimer'S disease
* 2012: method for detecting interstructural atrophy correlation in MRI brain images, A
* 2014: new method for data-driven multi-brain atlas generation, A
Includes: Jasinschi, R.S. Jasinschi, R.S.[Radu S.]
11 for Jasinschi, R.S.
Jasinska, B.
* 2018: Evaluation of Single-Chip, Real-Time Tomographic Data Processing on FPGA SoC Devices
Jasinska, E.[Elzbieta]
* 2022: Landslide Susceptibility Mapping Using Machine Learning: A Literature Survey
Jasinski, B.
* 2012: Radiometric Calibration of the Landsat MSS Sensor Series
Jasinski, J.[Janusz]
* 2018: Quality Assessment of the Bidirectional Reflectance Distribution Function for NIR Imagery Sequences from UAV
Jasinski, M.[Michael]
* 2019: Validation of ICESat-2 ATLAS Bathymetry and Analysis of ATLAS's Bathymetric Mapping Performance
* 2021: semi-empirical scheme for bathymetric mapping in shallow water by ICESat-2 and Sentinel-2: A case study in the South China Sea, A
* 2022: Landslide Susceptibility Mapping Using Machine Learning: A Literature Survey
Includes: Jasinski, M.[Michael] Jasinski, M.[Michal]
Jasinski, M.F.[Michael F.]
* 2015: Sensitivity of a Floodplain Hydrodynamic Model to Satellite-Based DEM Scale and Accuracy: Case Study: The Atchafalaya Basin
* 2019: Deriving High-Resolution Reservoir Bathymetry From ICESat-2 Prototype Photon-Counting Lidar and Landsat Imagery
* 2022: Very High-Resolution Satellite-Derived Bathymetry and Habitat Mapping Using Pleiades-1 and ICESat-2
Includes: Jasinski, M.F.[Michael F.] Jasinski, M.F.
Jasiobedzki, P.[Piotr]
* 1991: Automated analysis of retinal images
* 1993: Automated analysis of retinal images
* 1994: Qualitative Tracking of 3-D Objects using Active Contour Networks
* 1994: Qualitative Tracking of 3-D Objects using Active Contour Networks
* 1997: Fusing and Guiding Range Measurements with Colour Video Images
* 2004: Efficient Tracking with the Bounded Hough Transform
* 2005: Discrete pose space estimation to improve ICP-based tracking
* 2005: Instant Scene Modeler for Crime Scene Reconstruction
* 2006: Lights and Camera: Intelligently Controlled Multi-channel Pose Estimation System
* 2007: Automatic Registration for Model Building using Variable Dimensional Local Shape Descriptors
* 2007: Model-Based Tracking by Classification in a Tiny Discrete Pose Space
* 2007: Variable Dimensional Local Shape Descriptors for Object Recognition in Range Data
* 2008: Generating Semantic Information from 3D Scans of Crime Scenes
Includes: Jasiobedzki, P.[Piotr] Jasiobedzki, P.
13 for Jasiobedzki, P.
Jasionowska, M.[Magdalena]
* 2010: Characteristics of Architectural Distortions in Mammograms: Extraction of Texture Orientation with Gabor Filters