College of Arts & Sciences

Publications

  • Ice Station Dakota, UND Today
  • Chance, R., A. Ahajjam, J. Putkonen, and T. J. Pasch. In Review. Machine Learning Approaches for Active layer and permafrost temperature prediction at Toolik Lake, Alaska, 7 pages. Peer reviewed Proceedings International Conference on Permafrost, June 2024, Whitehorse, Canada.
  • Chance, R., M. A. Ahajjam, J. Putkonen, and T. J. Pasch. Submitted. Machine Learning Approaches for Active layer and permafrost temperature prediction at Toolik Lake, Alaska. International Conference on Permafrost, June 2024, Whitehorse, Canada.
  • Patterson, H., J. Putkonen, R. Chance, and T. J. Pasch. In Review. GIS Analyses for Identification, Visualization and Predictive Analytics of Permafrost Areas At-Risk of Thaw in Alaska, 7 pages. Proceedings International Conference on Permafrost, June 2024, Whitehorse, Canada.
  • Patterson, H., J. Putkonen, R. Chance, and T. J. Pasch. Submitted. GIS Analyses for Identification, Visualization and Predictive Analytics of Permafrost Areas At-Risk of Thaw in Alaska. International Conference on Permafrost, June 2024, Whitehorse, Canada.
  • Chance. R., M. A. Ahajjam, J. Putkonen, and T. J. Pasch. Submitted. Machine Learning Approaches for Active layer and permafrost temperature prediction at Toolik Lake, Alaska. International Conference on Permafrost, June 2024, Whitehorse, Canada.
  • Patterson, H., J. Putkonen, R. Chance, and T. J. Pasch. Submitted. GIS Analyses for Identification, Visualization and Predictive Analytics of Permafrost Areas At-Risk of Thaw in Alaska. International Conference on Permafrost, June 2024, Whitehorse, Canada.
  • Ahajjam, A., J. Putkonen, T. J. Pasch, and X. Zhu. In Review. Short- and Mid-term Forecasting of Arctic Sea Ice Volume using VMD-BiLSTM. Journal of Geophysical Research, American Geophysical Union.
  • Ahajjam, M. A., J. Putkonen, E. Chukwuemeka, R. Chance, T. J. Pasch. In Review. Predictive Analytics of Air Temperature in Alaskan Permafrost Terrain Leveraging Sparse Data and Deep Learning. Permafrost and Periglacial Processes.
  • Chance, R. A. Ahajjam, J. Putkonen, T. J. Pasch. In Review. Artificial Intelligence for Predicting Arctic Soil Temperatures; North Slope, Alaska. Permafrost and Periglacial Processes.
  • Ahajjam, A.; Putkonen, J.; Pasch, T.J.; Zhu, X. Short- and Mid-Term Forecasting of Pan-Arctic Sea Ice Volume Using Variational Mode Decomposition and Bidirectional Long Short-Term Memory. Geosciences 2023, 13, 370.
  • Ahajjam, Chance, Putkonen, Patterson, Pasch. Submitted. Automatic detection and classification of infrastructure in Alaska using deep learning and satellite imagery. American Geophysical Union, annual meeting San Francisco. 12/2023.
  • Patterson, Putkonen, Chance, Ahajjam. Submitted. GIS Analyses for Identifying Permafrost Risks; Alaska, USA. American Geophysical Union, annual meeting San Francisco. 12/2023.
  • Patterson, H., J. Putkonen, R. Chance, and T. J. Pasch. Submitted. GIS Analyses for Identifying Permafrost Risks; Alaska, USA. American Geophysical Union, annual meeting San Francisco. 12/2023.
  • Putkonen, Chance, Thompson, Ahajjam, Pasch. Submitted. Future Changes in Permafrost Regime; Alaska, USA. American Geophysical Union, annual meeting San Francisco. 12/2023.
  • Putkonen, J. 2023. Predicting the Future Ground Instability in Alaska. 2023. Land Surface Hazards Modeling Expo 5/1-2/2023.
  • Putkonen, J., A. Ahajjam, T. J. Pasch, and R. Chance. 2023. A hybrid VMD-WT-Inception Time model for multi-horizon short-term Air Temperature forecasting in Alaska. EGU annual meeting, 4/2023, Vienna, Switzerland. Copernicus.
  • Putkonen, Chance, Thompson, Ahajjam, Pasch. Submitted. Future Changes in Permafrost Regime; Alaska, USA. American Geophysical Union, annual meeting San Francisco. 12/2023.
  • Putkonen, J. 2023. Predicting the Future Ground Instability in Alaska. 2023. Land Surface Hazards Modeling Expo 5/1-2/2023.
  • Putkonen, J., A. Ahajjam, T. J. Pasch, and R. Chance. 2023. A hybrid VMD-WT-Inception Time model for multi-horizon short-term Air Temperature forecasting in Alaska. EGU annual meeting, 4/2023, Vienna, Switzerland. Copernicus.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site1. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D74W2T.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site2. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D71599.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site3. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D7WC7C.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site4. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D7RP43.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site5. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D7MW25.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site6. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D7H59N.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site7. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D7CC7Q.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - Site8. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D77P4F.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - SiteV_1. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D73W2H.
  • Timothy Pasch, Emmanuel Chukwuemeka, & Jordan Krueger. (2023). High Resolution LiDAR data covering road networks in Nome, Alaska - SiteV_2. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.57902/D70590.
  • Chavez, NH; Jones, MB; Budden, A; Clark, J; Virlar-Knight, D; Pasch, T; Johnson, N: Applying CARE: Documenting Ethical Research Practices and Sensitive Data at the Arctic Data Center. AGU Fall Meeting 2022, Chicago,
  • Pasch, T., Kuhlke, O. (2022). In Natcher, D, and Koivurova, T; Arctic Broadband Connectivity and the Creative Economy: Access, Challenges and Opportunities in Nunavut and Alaska. Chapter #2 in Beyond Resource Extraction: The Renewable Economies of the Arctic. Arctic Council Sustainable Development Working Group SDWG. Routledge. ISBN 9781032000305
  • Zhu, Xun, Pasch, Timothy J., Ahajjam, Mohamed Aymane, & Bergstrom, Aaron. Environmental Monitoring for Arctic Resiliency and Sustainability: An Integrated Approach with Topic Modeling and Network Analysis. (2022). Sustainability, 14 (24). Retrieved from https://par.nsf.gov/biblio/10393881. https://doi.org/10.3390/su142416493
  • Pasch, Timothy, & Kuhlke, Olaf. Arctic Broadband Connectivity and the Creative Economy: Access, Challenges and Opportunities in Nunavut and Alaska. 2021
  • Pasch, Timothy, Kuhlke, Olaf, & Linton, Renee. Remote-Region Interior Alaska Community Survey with Two Statistical Measures: Arctic Indigenous Entrepreneurial Readiness (ER); and Remote-Region Digital Technology Needs and Skills (DT). 2021. NSF Arctic Data Center
  • Kuhlke, Olaf, & Pasch, Timothy. Tanana Chiefs Conference Rural Digital Entrepreneurship Workshop (Complete Instruction Materials), Fairbanks, Alaska, November 15-19, 2021.
  • Zhu, X., Pasch, T. J., & Bergstrom, A. (2020). Understanding the structure of risk belief systems concerning drone delivery: A network analysis. Technology in Society, 62, 101262.
  • (2019). Historical and Projected Dynamically Downscaled Climate Data for the State of Alaska and surrounding regions at 20km spatial resolution and hourly temporal resolution. Defense Resiliency Platform Against Extreme Cold Weather.
  • Pasch, Timothy, & Kuhlke, Olaf. Arctic Unmanned Aerial Video (UAV) 4K footage demonstrating topographical factors in Huslia, Alaska, summer 2019. NSF Arctic Data Center
  • Pasch, T. J. (2015). Towards the enhancement of Arctic digital industries: Translating cultural content to new media platforms. Jostrans, the Journal of Specialized Translations, 24, 187–213.
  • GTN-P. (2015). Global Terrestrial Network for Permafrost metadata for active layer monitoring (CALM) sites. Defense Resiliency Platform Against Extreme Cold Weather. doi:10.1594/PANGAEA.842815, version: 668cc8c546ef395f30d137da2e87a409.
  • GTN-P. (2015). Global Terrestrial Network for Permafrost metadata for permafrost boreholes (TSP). Defense Resiliency Platform Against Extreme Cold Weather. doi:10.1594/PANGAEA.842820, version: 37f3f88402f79aba74df8f594b270fe8.
  • Conway, K and Pasch, T. (Eds.) (2013). Beyond the Border: Tensions across the Forty-ninth Parallel in the Great Plains and Prairies McGill/Queens University Press. Cloth/Paper release ISBN: 9780773541306
  • Pasch T. Starting fire with gunpowder revisited: Inuktitut New Media content creation in the Canadian Arctic. Études/Inuit/Studies. 2010;34(2):61-80.

We use cookies on this site to enhance your user experience.

By clicking any link on this page you are giving your consent for us to set cookies, Privacy Information.