![]() Incentive and pricing mechanisms and market and business models for couple networks.Collaborative planning of coupled network.Multi-timescale coordinated spatial-temporal operation models.Data evaluation and trading mechanism in coupled networks.Multi-source big data fusion frameworks.Hierarchical information and energy exchange architectures.Strategies, public policies, and regulations for emerging technologies resulting from coupled networks.Fundamental theories and technologies to facilitate integration of coupled networks.Thus, the SS solicits original research papers that target, but are not restricted to, the following relevant topics: The SS will focus on discussing various relevant topics associated with fundamental theories and technologies that facilitate integration of the aforementioned networks to promote economic efficiency, facilitate renewable energy generation, and enhance decarbonization and efficient balancing of supply and demand, as well as improve the capability, adaptability, scalability, resiliency, safety, security, and usability of the integrated networks. Thus, the planned Special Section (SS) will include a broad spectrum of contributors including academics, researchers, engineers, consultants, market regulators, system operators, and key policymakers, who will define and discuss the interdisciplinary technical approaches required for the integrated study of these networks, considering that there are many technical challenges associated with making this vision a reality, with policy, economic, and workforce issues also playing a significant role. This is a highly multidisciplinary area that is receiving significant research attention and requires an ever-increasing integration of electrical engineering, transportation, control, information, and economics disciplines. The joint optimization of energy, transportation, and information systems will facilitate a more cost-efficient global energy transition. Significant progress has been made in advancing the operating and planning paradigms of these networks separately, simplifying and/or neglecting interdependencies among them, without fully considering their holistic integration and complex interactions. ![]() This will result in high volume of data from energy and transportation systems for system-level reshaping of energy and traffic demand, unlocking Electric Vehicle (EV) flexibility for renewable energy integration and more cost-effective mechanism for demand and supply balancing, which would ultimately lead to new operation, planning, and business models for coupled energy, transportation, and information networks. Governments around the world are promoting Transportation Electrification (TE) as part of deep decarbonization initiatives, introducing new charging and communication infrastructure requirements.
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