We implement an agent-based, threshold model of innovation diffusion to simulate the adoption of electric vehicles among Irish households. We use detailed survey microdata to develop a nationally representative, heterogeneous agent population. We then calibrate our agent population to reflect the aggregate socioeconomic characteristics of a number of geographic areas of interest. Our data allow us to create agents with socioeconomic characteristics and environmental preferences. Agents are placed within social networks through which the diffusion process propagates. We find that even if overall adoption is relatively low, mild peer effects could result in large clusters of adopters forming in certain areas. This may put pressure on electri...
Existing diffusion models have proven less suitable for the analysis of environmental innovations, s...
Technological diffusion can be understood as a broader process of co-construction of technology and ...
Sustainable energy policies are becoming of paramount importance for our future, shaping the environ...
We implement an agent-based, threshold model of innovation diffusion to simulate the adoption of ele...
The transition from fuel cars to electric cars is a large-scale process involving many interactions ...
In this research, I develop then merge two separate models to simulate electric vehicle diffusion th...
The diffusion of electric vehicles (EVs) is considered an effective policy strategy to meet greenhou...
The transportation sector is recognized as one of the largest contributors to the problems of global...
The potential widespread adoption of Electric Vehicles (EVs) has received considerable attention acr...
At least one billion people are expected to gain access to electricity in developing countries by 20...
Haynes et al. (1977) derived a nonlinear differential equation to determine the spread of innovation...
The “chicken-and-egg” link between charging infrastructure and electric vehicle adoption complicates...
Replacing traditional fossil fuel vehicles with innovative zero-emission vehicles for the transport ...
Existing diffusion models have proven less suitable for the analysis of environmental innovations, s...
Technological diffusion can be understood as a broader process of co-construction of technology and ...
Sustainable energy policies are becoming of paramount importance for our future, shaping the environ...
We implement an agent-based, threshold model of innovation diffusion to simulate the adoption of ele...
The transition from fuel cars to electric cars is a large-scale process involving many interactions ...
In this research, I develop then merge two separate models to simulate electric vehicle diffusion th...
The diffusion of electric vehicles (EVs) is considered an effective policy strategy to meet greenhou...
The transportation sector is recognized as one of the largest contributors to the problems of global...
The potential widespread adoption of Electric Vehicles (EVs) has received considerable attention acr...
At least one billion people are expected to gain access to electricity in developing countries by 20...
Haynes et al. (1977) derived a nonlinear differential equation to determine the spread of innovation...
The “chicken-and-egg” link between charging infrastructure and electric vehicle adoption complicates...
Replacing traditional fossil fuel vehicles with innovative zero-emission vehicles for the transport ...
Existing diffusion models have proven less suitable for the analysis of environmental innovations, s...
Technological diffusion can be understood as a broader process of co-construction of technology and ...
Sustainable energy policies are becoming of paramount importance for our future, shaping the environ...