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old-courses.html
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<h2>Old courses and less related courses</h2>
<ul class="image-list">
<li>
<img src="./courses_pictures/slope_JR.png" alt="course_illustration">
<h4>
<a href="http://courses.ncsu.edu/mea592/common/GIST_MEA592004.html">
MEA592: Multidimensional Geospatial Modeling</a>
</h4>
<p>
The course covers concepts, methods and tools for analysis and modeling of landscape
dynamics using multitemporal georeferenced data and simulations. Representation of evolving
phenomena using point clouds and particles, surfaces and voxel models will be explained.
The course will also include hands-on practice and development of techniques for visualization
and communication of lidar data time series and outputs of dynamic simulations using the state of the art
technology in the GIST Visualization laboratory, such as 3D projection,
immersion and tangible modeling system.
</p>
</li>
<li>
<img src="./courses_pictures/gisfordesigners.jpg" alt="Designing new development by hand">
<h4>
<a href="http://baharmon.github.io/gisfordesigners/">
LAR 582.017: GIS for Designers</a>
</h4>
<p>
This course will focus on how GIS can be an integral part of the creative design process.
You will be taught terrain, hydrological, and overlay modeling
and analysis in two and three dimensions.
You will also learn how to generate and develop the seed
of a design in GIS as part of an iterative design process.
With visual programming students will learn how conceptual
and logical models can structure and generate designs,
linking creative abstraction, computational exploration,
structured decision-making, and expression.
As part of an iterative design process students will learn
workflows linking 3D GIS, 3D modeling, and rapid prototyping
(3D printing, CNC fabrication, and laser cutting).
</p>
</li>
<li>
<img src="./courses_pictures/stcube_JR.png" alt="course_illustration">
<h4>
<a href="http://courses.ncsu.edu/mea792/common/GIST_MEA792.html">
GIS/MEA792: Advanced Geospatial Modeling</a>
</h4>
<p>
The course provides foundations in methods and algorithms used in GIS modeling.
Special focus is on integrated modeling using vector and raster data processing,
data base management tools, basic image processing, and python programing for open source GIS.
The course includes workflow development combining different tools from open source geospatial
software stack especially GRASS GIS, GDAL/OGR, libLAS and others. Applications / case studies
will include terrain modeling, geomorphometry, coastal evolution, volume modeling,
dynamic visualization,
and GIS-based modeling of landscape processes (water, sediment).
</p>
</li>
<li>
<img src="./courses_pictures/map_database.png" alt="course_illustration">
<h4>
<a href="http://courses.ncsu.edu/gis550/common/index.html">
GIS 550: Geospatial Data Structures and Web Services</a>
</h4>
<p>
This course examines the spatial database models and structures used in geospatial
information science and technology as well as the design and implementation of web
and related mobile computing geospatial tools and systems. Students develop, evaluate,
and deploy multiple spatial data models and web services that include connections
to external data sources and systems.
</p>
</li>
</ul>
<h2>Old tutorials and less related tutorials</h2>
<ul class="image-list">
<li>
<img src="./courses_pictures/grass_tutorial.png" alt="course_illustration">
<h4>
<a href="http://courses.ncsu.edu/gis582/common/media/GRASS_clinic2013/GRASS_clinic.html">
Geospatial Analysis and Modeling with GRASS (GRASS Clinic)</a>
</h4>
<p>
The short course provides introduction to GRASS GIS and its tools for terrain modeling,
geomorphometry, and analysis of elevation data time series.
The course includes analysis from lidar data,
3D visualization and exploration of terrain change.
</p>
</li>
</ul>
<p>
Make sure you check our <a href="courses.html">current courses and tutorials</a>.
</p>