Course Schedule - Spring Semester 2024

     

Meeting location information can now be found on student schedules in ESTHER (for students) or on the Course Roster in ESTHER (for faculty and instructors).
Additional information available here.

CEVE 421 001 (CRN: 25384)

CLIMATE RISK MANAGEMENT

Long Title: CLIMATE RISK MANAGEMENT
Department: Civil & Environmental Engr
Instructor: Doss-Gollin, James W.
Meeting: 11:00AM - 11:50AM MWF (8-JAN-2024 - 19-APR-2024) 
Part of Term: Full Term
Grade Mode: Standard Letter
Course Type: Lecture
Language of Instruction: Taught in English
Method of Instruction: Face to Face
Credit Hours: 3
Course Syllabus:
Course Materials: Rice Campus Store
 
Restrictions:
Must be enrolled in one of the following Level(s):
Undergraduate Professional
Visiting Undergraduate
Undergraduate
Section Max Enrollment: 20
Section Enrolled: 9
Total Cross-list Max Enrollment: 20
Total Cross-list Enrolled: 15
Enrollment data as of: 1-NOV-2024 5:21PM
 
Additional Fees: None
 
Final Exam: Scheduled Final Exam-OTR Room
Final Exam Time:
30-APR-2024  
9:00AM - 12:00PM T
 
Description: Climate variability and change pose threats to lives and livelihoods. These climate risks can be managed through the design and operation of infrastructure systems, as well as through disaster response and recovery. Decisions about how to develop and choose risk management strategies are often based on pure vibes, but occasionally rigorous quantitative analyses that make use of scientific information can inform them (we will focus on these cases). These analyses involve integrating knowledge from multiple disciplines to balance competing goals (objectives) under uncertainty. In this course, you will learn a structured bottom-up decision analytic framework for quantitative climate risk analysis. This involves (i) defining a system of interest and what constitutes desirable outcomes; (ii) understanding and modeling the specific pathways through which climate variability and change can create risk to this system; (iii) identifying possible levers for risk management; (iv) quantifying the performance of proposed decisions under climate and other interacting factors; and (v) generating possible alternatives. You will be assigned readings for every class that cover relevant methods or applications, and will work collaboratively to implement key concepts through programming problem sets. Active class participation is required. Methods covered include scenario analysis, exploratory modeling, cost-benefit analysis, single- and multi-objective policy search, stochastic control, deep uncertainty, robust decision making, and equitable decision making. Cross-list: CEVE 521. Recommended Prerequisite(s): An introductory course in probability and statistics Mutually Exclusive: Cannot register for CEVE 421 if student has credit for CEVE 521.