Kaim, D.[Dominik]
* 2015: Mapping Secondary Forest Succession on Abandoned Agricultural Land with LiDAR Point Clouds and Terrestrial Photography
* 2016: Mapping Secondary Forest Succession On Abandoned Agricultural Land In The Polish Carpathians
* 2018: Long-Term Changes of the Wildland-Urban Interface in the Polish Carpathians
* 2021: Impact of the Cartographer's Position and Topographic Accessibility on the Accuracy of Historical Land Use Information: Case of the Second Military Survey Maps of the Habsburg Empire
* 2022: Substantial Increase of Forest Cover in Central Poland Following Extensive Land Abandonment: Szydlowiec County Case Study, The
* 2023: Using CORONA Imagery to Study Land Use and Land Cover Change: A Review of Applications
Kaimakis, P.
* 2004: Markerless motion capture with single and multiple cameras
* 2007: Gradient-Based Hand Tracking Using Silhouette Data
* 2009: Physiological modelling for improved reliability in silhouette-driven gradient-based hand tracking
Includes: Kaimakis, P. Kaimakis, P.[Paris]
Kaimal, M.R.
* 1999: Fast Second-Generation Encoding Algorithm for Vector Quantization, A
* 2006: Adaptive Scalable Wavelet Difference Reduction Method for Efficient Image Transmission
* 2006: Speckle Reduction in Images with WEAD and WECD
* 2007: Object Coding using a Shape Adaptive Wavelet Transform with Scalable WDR Method
* 2008: Improved Hybrid Model for Molecular Image Denoising, An
Kaimal, R.M.
* 2014: Yaw Estimation Using Cylindrical and Ellipsoidal Face Models
* 2016: Estimation of Driver Head Yaw Angle Using a Generic Geometric Model
Kaimaris, D.[Dimitris]
* 2017: Unmanned Aerial Vehicles and the Multi Temporal Mapping Results of the Dispilio Lakeside Prehistoric Settlement
* 2020: Earth Observations As A Tool for Detecting and Monitoring Potential Environmental Violations and Policy Implementation
* 2020: National Scale Land Cover Classification for Ecosystem Services Mapping and Assessment, Using Multitemporal Copernicus EO Data and Google Earth Engine
* 2023: Application of UAS with Remote Sensing Sensors for the Location of Marks in the Archaeological Site of the Europos, Greece
Includes: Kaimaris, D.[Dimitris] Kaimaris, D.