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--- academic_opportunities:2021 [2021-03-25 12:01 pm] – hcho
+++ academic_opportunities:2021 [2024-07-21 09:03 am] (current) – ↷ Links adapted because of a move operation hcho
@@ Line 9: / Line 9: @@
   * Submitted abstract
     * Modification of the Universal Soil Loss Equation Model with Climate-Change Induced Parameters and Process Automation
-      * Authors: [[https://ung.edu/institute-environmental-spatial-analysis/faculty-staff-bio/sudhanshu-panda.php|Sudhanshu Panda]], [[:Owen Smith]], [[:Huidae Cho]], [[https://www.srs.fs.usda.gov/staff/242|Johnny M. Grace III]], [[https://www.srs.fs.usda.gov/staff/743|Devendra M. Amatya]], [[https://www.srs.fs.usda.gov/staff/scientists/834|Peter V. Caldwell]]
+      * Authors: [[https://ung.edu/institute-environmental-spatial-analysis/faculty-staff-bio/sudhanshu-panda.php|Sudhanshu Panda]], [[lab_members:owen_smith]], [[lab_members:huidae_cho]], [[https://www.srs.fs.usda.gov/staff/242|Johnny M. Grace III]], [[https://www.srs.fs.usda.gov/staff/743|Devendra M. Amatya]], [[https://www.srs.fs.usda.gov/staff/scientists/834|Peter V. Caldwell]]
   * Cancelled because of COVID-19
@@ Line 22: / Line 22: @@
   * Accepted abstract
     * r.accumulate: Efficient computation of hydrologic parameters in GRASS---Improving the performance of geospatial computation for web-based hydrologic modeling
-      * Author: [[:Huidae Cho]]
+      * Author: [[lab_members:huidae_cho]]
       * Abstract: The longest flow path is one of the most important geospatial parameters that is used for hydrologic analysis and modeling. However, there are not many available GIS tools that can compute this watershed parameter. At the same time, there have been almost little to no efforts in improving its computational efficiency since its first, to the presenter's best knowledge, introduction by Smith (1995) when the geospatial data resolution was relatively coarser. In this talk, the presenter introduces a new algorithm that applies Hack's law to the discovery of the longest flow path and its efficient implementation as a GRASS module called r.accumulate. He compares its performance to that of commercial ArcHydro's Longest Flow Path tool. Lastly, he introduces a proof-of-concept version of the Web-based Hydrologic Modeling System (WHydroMod) built using GRASS, PyWPS, MapServer, and OpenLayers, and discusses how r.accumulate can be used to improve the efficiency of geospatial computation for WHydroMod.
       * Start time: Sunday, February 7, 2021 at 2:40pm CET (same day at 8:40am EST)
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   * Abstracts due by Friday, February 19, 2021 at midnight
-===== Google Summer of Code =====
+===== Google Summer of Code 2021 =====
   * https://trac.osgeo.org/grass/wiki/GSoC/2021#Parallelizationofexistingmodules
@@ Line 91: / Line 91: @@
   * https://2021.foss4g.org/
   * https://2021.foss4g.org/call-for-papers/call-for-papers
-  * Abstracts due by Tuesday, March 30, 2021
+  * Abstracts due by Monday, April 19, 2021
   * Monday, September 27--Saturday, October 2, 2021
-  * Buenos Aires, Argentina
+  * Online
   * Invited to be part of the Program Committee for the General Track