Assisted Eco-Driving
portes grátis
Assisted Eco-Driving
A Practical Guide to the Design and Testing of an Eco-Driving Assistance System (EDAS)
Allison, Craig K.; Lot, Roberto; Fleming, James M.; Stanton, Neville A.; Yan, Xingda
Taylor & Francis Ltd
10/2024
240
Mole
9780367532635
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Chapter 1: Eco-driving: Reducing emissions from everyday driving behaviours
Chapter 2: Applying Cognitive Work Analysis to Understand Fuel-Efficient Driving
Chapter 3: Adaptive driver modelling in eco-driving assistance systems
Chapter 4: Taming Design with Intent using Cognitive Work Analysis
Chapter 5: Applying Design with Intent to support creativity in developing vehicle fuel efficiency interfaces
Chapter 6: Incorporating driver preferences into eco-driving optimal controllers
Chapter 7: Receding horizon eco-driving assistance systems for electric vehicles
Chapter 8: Assessment of a visual interface to reduce fuel use
Chapter 9: Assisted versus unassisted eco-driving for electrified powertrains
Chapter 10: Predictive eco-driving assistance on the road
Chapter 11: Designing for eco-driving: Guidelines for a more fuel-efficient vehicle and driver
Chapter 2: Applying Cognitive Work Analysis to Understand Fuel-Efficient Driving
Chapter 3: Adaptive driver modelling in eco-driving assistance systems
Chapter 4: Taming Design with Intent using Cognitive Work Analysis
Chapter 5: Applying Design with Intent to support creativity in developing vehicle fuel efficiency interfaces
Chapter 6: Incorporating driver preferences into eco-driving optimal controllers
Chapter 7: Receding horizon eco-driving assistance systems for electric vehicles
Chapter 8: Assessment of a visual interface to reduce fuel use
Chapter 9: Assisted versus unassisted eco-driving for electrified powertrains
Chapter 10: Predictive eco-driving assistance on the road
Chapter 11: Designing for eco-driving: Guidelines for a more fuel-efficient vehicle and driver
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Eco-driving Behaviours;Adaptive Driver Modelling;Cognitive Work Analysis;ADAS;Electric Vehicle;Advanced Driver Assistance Systems;Fuel Efficient Driving;Lead Vehicle;Driver-in-the-Loop;Abstraction Hierarchy;CO2;Inter-vehicle Spacing;Receding Horizon Control;In-vehicle Interfaces;WDA;Intelligent Driver Model;Driving Style;Cornering Speeds;Save Energy;Whisker Plot;Driver Preferences;Energy Efficiency;Ego Vehicle;Driver Assistance System;Accelerator Pedal;Accelerator;Assistance System;Everyday Driving;Lateral Acceleration;Participant F1
Chapter 1: Eco-driving: Reducing emissions from everyday driving behaviours
Chapter 2: Applying Cognitive Work Analysis to Understand Fuel-Efficient Driving
Chapter 3: Adaptive driver modelling in eco-driving assistance systems
Chapter 4: Taming Design with Intent using Cognitive Work Analysis
Chapter 5: Applying Design with Intent to support creativity in developing vehicle fuel efficiency interfaces
Chapter 6: Incorporating driver preferences into eco-driving optimal controllers
Chapter 7: Receding horizon eco-driving assistance systems for electric vehicles
Chapter 8: Assessment of a visual interface to reduce fuel use
Chapter 9: Assisted versus unassisted eco-driving for electrified powertrains
Chapter 10: Predictive eco-driving assistance on the road
Chapter 11: Designing for eco-driving: Guidelines for a more fuel-efficient vehicle and driver
Chapter 2: Applying Cognitive Work Analysis to Understand Fuel-Efficient Driving
Chapter 3: Adaptive driver modelling in eco-driving assistance systems
Chapter 4: Taming Design with Intent using Cognitive Work Analysis
Chapter 5: Applying Design with Intent to support creativity in developing vehicle fuel efficiency interfaces
Chapter 6: Incorporating driver preferences into eco-driving optimal controllers
Chapter 7: Receding horizon eco-driving assistance systems for electric vehicles
Chapter 8: Assessment of a visual interface to reduce fuel use
Chapter 9: Assisted versus unassisted eco-driving for electrified powertrains
Chapter 10: Predictive eco-driving assistance on the road
Chapter 11: Designing for eco-driving: Guidelines for a more fuel-efficient vehicle and driver
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Eco-driving Behaviours;Adaptive Driver Modelling;Cognitive Work Analysis;ADAS;Electric Vehicle;Advanced Driver Assistance Systems;Fuel Efficient Driving;Lead Vehicle;Driver-in-the-Loop;Abstraction Hierarchy;CO2;Inter-vehicle Spacing;Receding Horizon Control;In-vehicle Interfaces;WDA;Intelligent Driver Model;Driving Style;Cornering Speeds;Save Energy;Whisker Plot;Driver Preferences;Energy Efficiency;Ego Vehicle;Driver Assistance System;Accelerator Pedal;Accelerator;Assistance System;Everyday Driving;Lateral Acceleration;Participant F1