Geospatial Data Science Techniques and Applications
Herausgeber: Karimi, Hassan A; Karimi, Bobak
Geospatial Data Science Techniques and Applications
Herausgeber: Karimi, Hassan A; Karimi, Bobak
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The lack of a clear understanding of geoscience science data techniques and related uncertainties could generate incorrect results and interpretations.
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The lack of a clear understanding of geoscience science data techniques and related uncertainties could generate incorrect results and interpretations.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 258
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 231mm x 155mm x 15mm
- Gewicht: 440g
- ISBN-13: 9780367572815
- ISBN-10: 0367572818
- Artikelnr.: 69890317
- Verlag: CRC Press
- Seitenzahl: 258
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 231mm x 155mm x 15mm
- Gewicht: 440g
- ISBN-13: 9780367572815
- ISBN-10: 0367572818
- Artikelnr.: 69890317
Prof. Hassan A. Karimi is a Professor and the Director of the Geoinformatics Laboratory in the School of Information Sciences at the University of Pittsburgh. He holds a PhD in Geomatics Engineering (University of Calgary), an MS in Computer Science (University of Calgary), and a BS in Computer Science (University of New Brunswick). Prof. Kaimi's research interests include computational geometry, geospatial big data, distributed/parallel computing, mobile computing, navigation, and location-based services. In his research Prof. Karimi seeks to exploit the rich interdependence between the theory and practice. Prof. Karimi's research in geoinformatics has resulted in numerous publications in peer-reviewed journals and conference proceedings, as well as in many workshops and presentations at national and international forums. He has published the following books: Indoor Wayfinding and Navigation (sole editor), published by Taylor & Francis (2015); Big Data: Techniques and Technologies in Geoinformatics (sole editor), published by Taylor & Francis (2014); Advanced Location-Based Technologies and Services (sole editor), published by Taylor & Francis (2013); Universal Navigation on Smartphones (sole author), published by Springer (2011); CAD and GIS Integration (lead editor), published by Taylor & Francis (2010); Handbook of Research on Geoinformatics (sole editor), published by IGI (2009); and Telegeoinformatics: Location-Based Computing and Services (lead editor), published by Taylor & Francis (2004). Dr. Bobak Karimi is a Visiting Assistant Professor at Colorado College in Colorado Springs. He received a BS and PhD in Geology from the University of Pittsburgh. Dr. Karimi's research interests include remote sensing and GIS techniques applied to solve structural and tectonic problems, numerical modeling to imitate known stress/strain tests, validation of remote and modeling work by field analysis, and geophysical methods applied to increase breadth of knowledge for regional tectonic assessments. His research findings have appeared in a myriad of publications ranging in topic from tectonics, energy resources, geohazards, and CO2 storage. Dr. Karimi has presented his research at many University colloquia, national, and regional conferences, and has published several papers across the range of topics where his expertise has been applied. His more recent research is focused on unraveling the more complex details of Appalachian tectonics.
Geospatial Data Science: A Transdisciplinary Approach. Geocoding
Fundamentals and Associated Challenges. Deep Learning with Satellite Images
and Volunteered Geographic Information. Visual Analysis of Floating Car
Data. Recognizing Patterns in Geospatial Data Using Persistent Homology: A
Study of Geologic Fractures. LiDAR for Marine Applications. Spatiotemporal
Point Pattern Analysis Using Ripley's K Function. Geospatial Data Science
Approaches for Transport Demand Modeling. Geography of Social Media in
Public Response to Policy-Based Topics. Geospatial Data Streams.
Fundamentals and Associated Challenges. Deep Learning with Satellite Images
and Volunteered Geographic Information. Visual Analysis of Floating Car
Data. Recognizing Patterns in Geospatial Data Using Persistent Homology: A
Study of Geologic Fractures. LiDAR for Marine Applications. Spatiotemporal
Point Pattern Analysis Using Ripley's K Function. Geospatial Data Science
Approaches for Transport Demand Modeling. Geography of Social Media in
Public Response to Policy-Based Topics. Geospatial Data Streams.
Geospatial Data Science: A Transdisciplinary Approach. Geocoding
Fundamentals and Associated Challenges. Deep Learning with Satellite Images
and Volunteered Geographic Information. Visual Analysis of Floating Car
Data. Recognizing Patterns in Geospatial Data Using Persistent Homology: A
Study of Geologic Fractures. LiDAR for Marine Applications. Spatiotemporal
Point Pattern Analysis Using Ripley's K Function. Geospatial Data Science
Approaches for Transport Demand Modeling. Geography of Social Media in
Public Response to Policy-Based Topics. Geospatial Data Streams.
Fundamentals and Associated Challenges. Deep Learning with Satellite Images
and Volunteered Geographic Information. Visual Analysis of Floating Car
Data. Recognizing Patterns in Geospatial Data Using Persistent Homology: A
Study of Geologic Fractures. LiDAR for Marine Applications. Spatiotemporal
Point Pattern Analysis Using Ripley's K Function. Geospatial Data Science
Approaches for Transport Demand Modeling. Geography of Social Media in
Public Response to Policy-Based Topics. Geospatial Data Streams.