This collection showcases datasets developed through research at Michigan Technological University. Researchers who wish to deposit data should first read the requirements in Digital Commons @ Michigan Tech's Policies for Data.
Fill out the Research Data Deposit Form to schedule a discussion on depositing your data in Digital Commons @ Michigan Tech.Submissions from 2025
The Damage Assessment of 2019 Eurobodalla Shire Wildfire to the Endangered Ecological Communities Using Change Detection and Object-Based Classification, Dylan Anderson and Jae Sung Kim
Data Supporting "Cloud Microphysical Response to Entrainment of Dry Air Containing Aerosols", Will Cantrell, Jae Min Yeom, Hamed F. Sadi, Jesse Anderson, Fan Yang, and Raymond Shaw
High-resolution temperature profiling in the Pi Chamber: variability of statistical properties of temperature fluctuations, Robert Grosz, Kamal Kant Chandrakar, Raymond A. Shaw, Jesse C. Anderson, Will Cantrell, and Szymon P. Malinowski
Gribben buried forest site map and tree measurement data, Kurt Pregitzer
Data supporting the paper "Evaluating the collision-coalescence process in idealized cloud convection using large-eddy simulations with Lagrangian microphysics", Yangze Ren, Kamal Kant Chandrakar, Fan Yang, and Raymond Shaw
Data supporting the paper "Enhancing turbulent mixing and microphysical uniformity in a tall convection-cloud chamber through idealized heterogeneity of boundaries", Lois Thomas, Fan Yang, Aaron Wang, Mikhail Ovchinnikov, Kyle G. Pressel, and Raymond Shaw
LuSTR20 Thermal Profiling Repository Data, Paul van Susante
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2013, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2014, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2015, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2016, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2017, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2018, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2019, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2020, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2021, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2022, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2013, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2014, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2015, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2016, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2017, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2018, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2019, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2020, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2021, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2022, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2013, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2014, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2015, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2016, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2017, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2018, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2019, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2020, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2021, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with No Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2022, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2013, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2014, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2015, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2016, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2017, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2018, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2019, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2020, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2021, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Existing Utility-Scale PV Sites (>5 MW) in the U.S. Eastern Interconnection in 2022, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2013, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2014, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2015, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2016, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2017, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2018, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2019, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2020, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2021, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Fixed-Tilt Systems in the U.S. Eastern Interconnection for Weather Year 2022, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2013, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2014, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2015, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2016, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2017, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2018, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2019, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2020, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2021, Shelbie Wickett and Ana Dyreson
Hourly Simulated Power Production Data with Snow Loss Model at Queued Utility-Scale PV Sites Simulated as Single-Axis Tracking Systems in the U.S. Eastern Interconnection for Weather Year 2022, Shelbie Wickett and Ana Dyreson
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 1, Yiming Yang and Jeremy Bos
ThermalTrack Dataset - Testing Images, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset - Testing Labels, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 10, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 11, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 2, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 3, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 4, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 5, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 6, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 7, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 8, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset- Training Images- Fused RGB LWIR- sequence 9, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset - Training Labels - sequence 1-11, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset - Validation Images, Yiming Yang and Jeremy P. Bos
ThermalTrack Dataset - Validation Labels, Yiming Yang and Jeremy P. Bos
Submissions from 2024
Dataset for article - The analysis of lava flow path using remote sensing and geo-morphological techniques: the case of volcano eruptions in Afar region of Ethiopia, Oluwatosin Ayo and Jae Sung Kim
Enveloped virus inactivation in downstream processing with ecofriendly surfactants, Caryn Heldt
RedWater Test Data, Paul van Susante and Kris Zacny
Daily simulated 2 meter air temperature from 1981 to 2005 under the historical condition from the ensemble average of the three GLARM-based downscaling, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 1981 to 2005 under the historical condition from the GLARM-based downscaling of GISS, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 1981 to 2005 under the historical condition from the GLARM-based downscaling of IPSL, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 1981 to 2005 under the historical condition from the GLARM-based downscaling of MPI, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 4.5 condition from the ensemble average of the three GLARM-based downscaling, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 4.5 condition from the GLARM-based downscaling of GISS, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 4.5 condition from the GLARM-based downscaling of IPSL, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 4.5 condition from the GLARM-based downscaling of MPI, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 8.5 condition from the ensemble average of the three GLARM-based downscaling, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 8.5 condition from the GLARM-based downscaling of GISS, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 8.5 condition from the GLARM-based downscaling of IPSL, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated 2 meter air temperature from 2006 to 2099 under the RCP 8.5 condition from the GLARM-based downscaling of MPI, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated lake ice cover from 1981 to 2005 under the historical condition from the ensemble average of the three GLARM-based downscaling, Pengfei Xue, Chenfu Huang, and Miraj Kayastha
Daily simulated lake ice cover from 1981 to 2005 under the historical condition from the GLARM-based downscaling of GISS, Pengfei Xue, Chenfu Huang, and Miraj Kayastha