Start Date
16-8-2018 12:00 AM
Description
A large number of studies have dealt with eco-driving, have defined rules, and have provided eco-feedback to make drivers aware of energy efficiency. However, the found rules are vague, and eco-feedback neither refers nor recommends an action to increase fuel efficiency concerning all aspects of eco-driving. Hence, we analyzed concepts of eco-driving to develop a measurement model for eco-driving contributing to an understanding of the interplay between Green IS and eco-driving. Conducting (1) a literature review, we identified six components of eco-driving, (2) synthesized a descriptive measurement model for eco-driving disclosing dependencies between these components, (3) evaluated the model by expert interviews, and (4) implemented the model through a mockup of an eco-feedback dashboard. This article provides an overview and discloses the dependencies of components measuring eco-driving. Researchers can use the findings for evaluating designs of eco-feedback. Practitioners can implement eco-feedback systems in detail for user performance on fuel consumption.
Recommended Citation
Gottlieb, Matthias and Böhm, Markus, "Measurement Model for the Construct 'Eco-Driving': A Mockup for Real-Time Eco-Feedback" (2018). AMCIS 2018 Proceedings. 8.
https://aisel.aisnet.org/amcis2018/GreenIS/Presentations/8
Measurement Model for the Construct 'Eco-Driving': A Mockup for Real-Time Eco-Feedback
A large number of studies have dealt with eco-driving, have defined rules, and have provided eco-feedback to make drivers aware of energy efficiency. However, the found rules are vague, and eco-feedback neither refers nor recommends an action to increase fuel efficiency concerning all aspects of eco-driving. Hence, we analyzed concepts of eco-driving to develop a measurement model for eco-driving contributing to an understanding of the interplay between Green IS and eco-driving. Conducting (1) a literature review, we identified six components of eco-driving, (2) synthesized a descriptive measurement model for eco-driving disclosing dependencies between these components, (3) evaluated the model by expert interviews, and (4) implemented the model through a mockup of an eco-feedback dashboard. This article provides an overview and discloses the dependencies of components measuring eco-driving. Researchers can use the findings for evaluating designs of eco-feedback. Practitioners can implement eco-feedback systems in detail for user performance on fuel consumption.