Assessing transition policies for the diffusion of electric vehicles

[1]  Frank W. Geels,et al.  The dynamics of transitions in socio-technical systems: A multi-level analysis of the transition pathway from horse-drawn carriages to automobiles (1860–1930) , 2005, Technol. Anal. Strateg. Manag..

[2]  Joanna I. Lewis,et al.  Fostering a renewable energy technology industry: An international comparison of wind industry policy support mechanisms , 2007 .

[3]  Georg Papachristos,et al.  A system dynamics model of socio-technical regime transitions , 2011 .

[4]  Marko P. Hekkert,et al.  On the relation between communication and innovation activities: A comparison of hybrid electric and fuel cell vehicles , 2015 .

[5]  C. C. Chan,et al.  The State of the Art of Electric, Hybrid, and Fuel Cell Vehicles , 2007, Proceedings of the IEEE.

[6]  Frank W. Geels,et al.  A socio-technical analysis of low-carbon transitions: introducing the multi-level perspective into transport studies , 2012 .

[7]  Lorraine Whitmarsh,et al.  A transitions model for sustainable mobility , 2009 .

[8]  J. Sterman Business Dynamics , 2000 .

[9]  Simon Shepherd,et al.  Factors affecting future demand for electric vehicles: A model based study , 2012 .

[10]  John M. Rose,et al.  Applied Choice Analysis: A Primer , 2005 .

[11]  J. Sterman,et al.  Transition challenges for alternative fuel vehicle and transportation systems , 2006 .

[12]  Paul Andre Henri Francois Nieuwenhuis,et al.  Exploring innovation in the automotive industry: new technologies for cleaner cars , 2010 .

[13]  Lars Coenen,et al.  Sustainability transitions in the making: A closer look at actors, strategies and resources , 2012 .

[14]  Kornelia Konrad,et al.  Strategic responses to fuel cell hype and disappointment , 2012 .

[15]  Dennis K. Henderson,et al.  Impacts of Center-Based Telecommuting on Travel and Emissions: Analysis of the Puget Sound Demonstration Project , 1996 .

[16]  Tae-hyeong Kwon,et al.  Strategic niche management of alternative fuel vehicles: A system dynamics model of the policy effect , 2012 .

[17]  J. Michie,et al.  Global restructuring and the auto industry , 2010 .

[18]  Sang Yong Park,et al.  Development of a market penetration forecasting model for Hydrogen Fuel Cell Vehicles considering infrastructure and cost reduction effects , 2011 .

[19]  J. Van Mierlo,et al.  Which energy source for road transport in the future? A comparison of battery, hybrid and fuel cell vehicles , 2006 .

[20]  Chris Mi,et al.  5. Plug-in Hybrid Electric Vehicles , 2011 .

[21]  Adrian Smith,et al.  The governance of sustainable socio-technical transitions , 2005 .

[22]  Giorgos Kallis,et al.  Environmental innovation and societal transitions: Introduction and overview , 2011 .

[23]  Wolfgang Eichhammer,et al.  Effects of economies of scale and experience on the costs of energy-efficient technologies – case study of electric motors in Germany , 2010 .

[24]  Stephen Potter,et al.  A Strategic Niche Analysis of Urban Road Pricing in the UK and Norway , 2007, European Journal of Transport and Infrastructure Research.

[25]  G. Nigel Gilbert,et al.  Agent-Based Models , 2007 .

[26]  Floortje Alkemade,et al.  Expectations as a key to understanding actor strategies in the field of fuel cell and hydrogen vehicles , 2012, Technological forecasting and social change.

[27]  Lorraine Whitmarsh,et al.  Modelling Socio-Technical Transition Patterns and Pathways , 2008, J. Artif. Soc. Soc. Simul..

[28]  A. Wieczorek,et al.  Transitions towards sustainability through system innovation , 2005 .

[29]  Ans Kolk,et al.  Challenges and trade-offs in corporate innovation for climate change , 2010 .

[30]  F. Geels Processes and patterns in transitions and system innovations: Refining the co-evolutionary multi-level perspective , 2005 .

[31]  F. Geels The multi-level perspective on sustainability transitions: Responses to seven criticisms , 2011 .

[32]  Ibrahim Dincer,et al.  Economic and environmental comparison of conventional, hybrid, electric and hydrogen fuel cell vehicles , 2006 .

[33]  Hazhir Rahmandad,et al.  Heterogeneity and Network Structure in the Dynamics of Diffusion: Comparing Agent-Based and Differential Equation Models , 2004, Manag. Sci..

[34]  Georg Holtz,et al.  Modelling transitions: An appraisal of experiences and suggestions for research , 2011 .

[35]  Burkhard Schade,et al.  Research of the EU automotive industry into low-carbon vehicles and the role of public intervention , 2010 .

[36]  Sjoerd Bakker,et al.  The car industry and the blow-out of the hydrogen hype , 2010 .

[37]  P. Wells,et al.  Transition failure: Understanding continuity in the automotive industry , 2012 .

[38]  Jonathan Köhler,et al.  Technological change in energy systems: Learning curves, logistic curves and input–output coefficients , 2007 .

[39]  John N. Warfield,et al.  World dynamics , 1973 .

[40]  Alireza Khaligh,et al.  Battery, Ultracapacitor, Fuel Cell, and Hybrid Energy Storage Systems for Electric, Hybrid Electric, Fuel Cell, and Plug-In Hybrid Electric Vehicles: State of the Art , 2010, IEEE Transactions on Vehicular Technology.

[41]  Jan Rotmans,et al.  Patterns in transitions: Understanding complex chains of change , 2011 .

[42]  Frank W. Geels,et al.  Niches in evolutionary theories of technical change , 2007 .

[43]  F. Geels Technological Transitions And System Innovations: A Co-evolutionary And Socio-technical Analysis , 2005 .

[44]  Roger Gorham,et al.  Sustainable urban transport: Four innovative directions , 2006 .

[45]  L. Whitmarsh,et al.  A multi-level analysis of sustainable mobility transitions: Niche development in the UK and Sweden , 2008 .

[46]  Robert van den Hoed,et al.  Sources of radical technological innovation: the emergence of fuel cell technology in the automotive industry , 2007 .

[47]  Thomas Spengler,et al.  Integrating Agent-based Simulation and System Dynamics to support product strategy decisions in the automotive industry , 2009, Proceedings of the 2009 Winter Simulation Conference (WSC).

[48]  I. Staffell,et al.  Current status of hybrid, battery and fuel cell electric vehicles: From electrochemistry to market prospects , 2012 .

[49]  Andreas Größler,et al.  Emergent structures in supply chains - a study integrating agent-based and system dynamics modeling , 2003, 36th Annual Hawaii International Conference on System Sciences, 2003. Proceedings of the.

[50]  Tooraj Jamasb,et al.  Technical Change Theory and Learning Curves: Patterns of Progress in Electricity Generation Technologies , 2007 .

[51]  Burkhard Schade,et al.  Leaving fossil fuels behind? An innovation system analysis of low carbon cars , 2013 .

[52]  Wim Turkenburg,et al.  Techno-economic comparison of series hybrid, plug-in hybrid, fuel cell and regular cars , 2010 .

[53]  F. Geels,et al.  Typology of sociotechnical transition pathways , 2007 .

[54]  Andrew F. Burke,et al.  Batteries and Ultracapacitors for Electric, Hybrid, and Fuel Cell Vehicles , 2007, Proceedings of the IEEE.

[55]  Dexter Dunphy,et al.  Enabling Change for Corporate Sustainability: An Integrated Perspective , 2006 .

[56]  H. van Lente,et al.  Credible expectations – The US Department of Energy’s Hydrogen Program as enactor and selector of hydrogen technologies , 2012 .

[57]  Robert van den Hoed,et al.  Commitment to fuel cell technology?: How to interpret carmakers’ efforts in this radical technology , 2005 .

[58]  J. Bergh,et al.  Evolutionary models in economics: a survey of methods and building blocks , 2010 .

[59]  Jacco Farla,et al.  Electrification of the car - Will the momentum last? : Introduction to the special issue , 2015 .

[60]  Jane M. Howell,et al.  Champions of Technological Innovation. , 1990 .

[61]  Gustavo O Collantes,et al.  Incorporating stakeholders' perspectives into models of new technology diffusion: The case of fuel-cell vehicles , 2007 .

[62]  Glenn Lyons,et al.  Automobility in transition?: A socio-technical analysis of sustainable transport , 2012 .

[63]  Joseph D. Piotroski,et al.  Capital Allocation and Timely Accounting Recognition of Economic Losses , 2011 .

[64]  P. Wells,et al.  Socio-technical inertia: Understanding the barriers to electric vehicles , 2013 .

[65]  Nigel P. Brandon,et al.  Comparative analysis of battery electric, hydrogen fuel cell and hybrid vehicles in a future sustainable road transport system , 2010 .

[66]  A. Tukker,et al.  Governance of sustainable transitions: about the 4(0) ways to change the world , 2007 .

[67]  Hari Bansha Dulal,et al.  Climate change mitigation in the transport sector through urban planning: A review , 2011 .

[68]  André Faaij,et al.  Performance of batteries for electric vehicles on short and longer term , 2012 .

[69]  Gregory J. Offer,et al.  Battery electric vehicles, hydrogen fuel cells and biofuels. Which will be the winner? , 2011 .

[70]  Otto Rentz,et al.  Market penetration of fuel cell vehicles – Analysis based on agent behaviour , 2008 .

[71]  Klaus Jacob,et al.  Lead Markets for Environmental Innovations: A New Role for the Nation State , 2004, Global Environmental Politics.

[72]  Derek R. Supple Managing the transition toward self-sustaining alternative fuel vehicle markets : policy analysis using a dynamic behavioral spatial model , 2007 .

[73]  Ali Emadi,et al.  Modern electric, hybrid electric, and fuel cell vehicles : fundamentals, theory, and design , 2009 .

[74]  Nigel P. Brandon,et al.  Techno-economic and behavioural analysis of battery electric, hydrogen fuel cell and hybrid vehicles in a future sustainable road transport system in the UK , 2011 .

[75]  D. D. French,et al.  Exploring spatial vegetation dynamics using logistic regression and a multinomial logit model , 2001 .

[76]  G. P. Hammond,et al.  Developing transition pathways for a low carbon electricity system in the UK , 2008, 2008 First International Conference on Infrastructure Systems and Services: Building Networks for a Brighter Future (INFRA).

[77]  F. Geels,et al.  Multi-dimensional struggles in the greening of industry: A dialectic issue lifecycle model and case study , 2012 .

[78]  E. Rogers,et al.  Diffusion of Innovations , 1964 .

[79]  Karoline Augenstein,et al.  Analysing the potential for sustainable e-mobility – The case of Germany , 2015 .

[80]  Gregory C. Unruh Understanding carbon lock-in , 2000 .

[81]  Pierre Loewe,et al.  Overcoming the barriers to effective innovation , 2006 .

[82]  Jeroen Struben,et al.  Essays on transition challenges for alternative propulsion vehicles and transportation systems , 2006 .

[83]  Gregory C. Unruh Escaping carbon lock-in , 2002 .

[84]  Chandra R. Bhat,et al.  A Self Instructing Course in Mode Choice Modeling: Multinomial and Nested Logit Models , 2006 .

[85]  A. Teytelboym,et al.  Part II: Policy instruments for sustainable road transport , 2010 .