Article

Abstract

• This paper presents the use of Multivariate Regression Trees (MRTs) to analyze Multiobjective Evolutionary Algorithm (MOEA) tradeoff sets generated from a long-term water utility planning problem. MOEAs produce large sets of non-dominated solutions, where each solution represents an observation of how multiple predictor variables (decision levers) impact performance in multiple response variables (objectives). Because they explicitly accommodate multiple response variables, MRTs can preserve the relationships between objectives revealed through MOEA-assisted optimization. We generated MRTs for two tradeoff sets that resulted from optimizing the Eldorado Utility planning problem under two climate change scenarios. A single MRT helped identify the subset of core planning decisions that led to preferred performance and demonstrated how decision preferences impacted performance in different objectives. Comparing MRTs from two scenarios revealed decisions that performed well across scenarios. The systematic and repeatable MRT approach can help water managers understand large, high-dimensional tradeoff sets and prompt additional promising analyses.

  
  Highlights

  
  • MOEA tradeoff sets contain information that can be hard to extract heuristically
  • MRTs offer an unbiased, repeatable method to analyze MOEA tradeoff sets
  • MRTs can reveal core planning decisions that perform well across future scenarios

Creator

• Balaji, Rajagopalan
• Smith, Rebecca
• Kasprzyk, Joseph R.

Academic Affiliation

• Civil, Environmental and Architectural Engineering

Journal Title

• Environmental Modelling & Software

Journal Volume

• 120

Dernière modification

• 2021-11-03

Resource Type

• Article

Déclaration de droits

• In Copyright

DOI

•  https://doi.org/10.1016/j.envsoft.2019.104498

ISSN

• 1873-6726

Language

• English [eng]

Des relations

Articles

La vignette	Titre	Date de téléchargement	Visibilité	actes
	RSmith.MRT.EMS.revised.V3.pdf	2021-11-03	Public	Télécharger