Acceptable planning: Influencing individual behavior to reduce transportation energy expenditure of a city
Our research aims at developing intelligent systems to reduce the transportation-related
energy expenditure of a large city by influencing individual behavior. We introduce Copter-
an intelligent travel assistant that evaluates multi-modal travel alternatives to find a plan that
is acceptable to a person given their context and preferences. We propose a formulation for
acceptable planning that brings together ideas from AI, machine learning, and economics.
This formulation has been incorporated in Copter that produces acceptable plans in real …
energy expenditure of a large city by influencing individual behavior. We introduce Copter-
an intelligent travel assistant that evaluates multi-modal travel alternatives to find a plan that
is acceptable to a person given their context and preferences. We propose a formulation for
acceptable planning that brings together ideas from AI, machine learning, and economics.
This formulation has been incorporated in Copter that produces acceptable plans in real …
Abstract
Our research aims at developing intelligent systems to reduce the transportation-related energy expenditure of a large city by influencing individual behavior. We introduce Copter-an intelligent travel assistant that evaluates multi-modal travel alternatives to find a plan that is acceptable to a person given their context and preferences. We propose a formulation for acceptable planning that brings together ideas from AI, machine learning, and economics. This formulation has been incorporated in Copter that produces acceptable plans in real-time. We adopt a novel empirical evaluation framework that combines human decision data with a high fidelity multi-modal transportation simulation to demonstrate a 4% energy reduction and 20% delay reduction in a realistic deployment scenario in Los Angeles, California, USA.
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