1. EVALUATING ECOSYSTEM AND WIND-FOLLOWING SERVICES FOR HYDRO-ELECTRIC DAMS Open Access Author: Fernandez, Alisha Rachel Title: EVALUATING ECOSYSTEM AND WIND-FOLLOWING SERVICES FOR HYDRO-ELECTRIC DAMS Graduate Program: Energy and Mineral Engineering Keywords: energy policyhydro-electric powerwind generationancillary servicesecosystem servicessensitivity analysisdrought File: Download MastersThesis_vs04122011.pdf Committee Members: Seth Adam Blumsack, Thesis Advisor/Co-AdvisorPatrick M Reed, Thesis Advisor/Co-AdvisorSeth Adam Blumsack, Thesis Advisor/Co-Advisor
2. EVALUATING MODEL BEHAVIOR FOR HYDROLOGIC FORECASTING IN GAUGED AND UNGAUGED WATERSHEDS Open Access Author: van Werkhoven, Kathryn Lynn Title: EVALUATING MODEL BEHAVIOR FOR HYDROLOGIC FORECASTING IN GAUGED AND UNGAUGED WATERSHEDS Graduate Program: Civil Engineering Keywords: watershed modelingsensitivity analysisoptimizationungauged basinsclimate change impactsdistributed models File: Download KvanWerkhoven_Dissertation_Final.pdf Committee Members: Thorsten Wagener, Committee Chair/Co-ChairPatrick M Reed, Committee MemberChristopher J Duffy, Committee MemberMichael Mann, Committee Member
3. ADVANCING HYDROLOGIC MODEL EVALUATION AND IDENTIFICATION USING MULTIOBJECTIVE CALIBRATION, SENSITIVITY ANALYSIS, AND PARALLEL COMPUTATION Open Access Author: Tang, Yong Title: ADVANCING HYDROLOGIC MODEL EVALUATION AND IDENTIFICATION USING MULTIOBJECTIVE CALIBRATION, SENSITIVITY ANALYSIS, AND PARALLEL COMPUTATION Graduate Program: Civil Engineering Keywords: Hydrologic modelmodel calibrationsensitivity analysismultiobjective optimizationevolutionary algorithmparallel computation File: Download Dissertation_Yong_Tang_02_02_07_final.pdf Committee Members: Patrick M Reed, Committee Chair/Co-ChairChristopher J Duffy, Committee MemberThorsten Wagener, Committee MemberHangsheng Lin, Committee Member
4. Time-varying sensitivity analysis reveals impacts of watershed model choice on the inference of dominant processes Open Access Author: Herman, Jonathan D Title: Time-varying sensitivity analysis reveals impacts of watershed model choice on the inference of dominant processes Graduate Program: Civil Engineering Keywords: rainfall-runoff modelingsensitivity analysishydrology File: Download Herman_Jonathan_CE_MS_Thesis_SP2012.pdf Committee Members: Patrick M Reed, Thesis Advisor/Co-AdvisorThorsten Wagener, Thesis Advisor/Co-AdvisorMichael Gooseff, Thesis Advisor/Co-Advisor