As the automotive industry navigates the currents of the energy revolution, marked by carbon neutrality, and the information revolution, centered around AI and semiconductors, a transformative shift in product forms and industry chain values is imminent.
The prevailing wave of the "new four," characterized by new energy and intelligent network connectivity, is sweeping through the automotive sector.
This surge propels the industry towards a "green + intelligent" paradigm, propelling it into a new stage of development.
Traditionally reliant on fossil fuel-driven engines, the automotive landscape is evolving. Propelled by environmental consciousness, new energy vehicles, particularly energy storage electric vehicles like pure electric and hybrid cars, have emerged as a prominent trend, challenging the dominance of traditional fuel sources.
The strategic opportunity lies in the development of power batteries, serving as the sole energy storage unit for pure electric vehicles. The enhancement of their comprehensive performance remains a focal point of new energy vehicle technology.
With ongoing advancements in manufacturing processes, an array of new batteries, including solid-state batteries, is continually surfacing. While solid-state batteries are still in the research and development phase globally, Japan and South Korea spearhead their progress, intensifying competition with Europe and the United States.
Diversification is the future of vehicle energy supply systems. Relying solely on batteries for carbon-neutral energy storage is insufficient. A fresh perspective on long-term energy storage is imperative. Beyond pure electric options, hydrogen energy stands out as a transformative avenue.
Green methanol, for instance, offers a safer and more convenient source of hydrogen for fueling stations and fuel cell vehicles. Moreover, green methanol hybrids address concerns like electric vehicle range anxiety, low-temperature performance, and the rapid construction of charging stations.
The prevailing trend of "Intelligent + Low Carbon" is tightly woven into the automotive sector. Amidst the pursuit of low-carbon solutions, the industry undergoes a profound metamorphosis, with the convergence of the automotive and energy, transportation, information, and communication sectors.
This deep integration is propelled by the ongoing scientific and technological revolution and industrial change, ushering in significant transformations in production, use, and product forms.
The emergence of intelligent internet-connected vehicles stands as a testament to the convergence of automobile and information technology. Representing an innovative integration, these vehicles have become a strategic direction for the global automotive industry.
Combining single-vehicle autonomous driving and network-connected capabilities, intelligent internet-connected cars signify a new stage in the development of self-driving automobiles.
The evolution of the intelligent networked automobile industry necessitates alignment with high-tech requirements and industrial development. A Chinese program for the innovative development of intelligent networked automobiles has been envisioned, focusing on the establishment of an information-physical system architecture.
This architecture fully combines the development characteristics of intelligentization and network connectivity, using five basic platforms as carriers for the integration of vehicle, road, and cloud systems.
Driven by the Internet of Everything and the pursuit of a "double carbon" goal, the automotive industry is entering a new era of ecological development. This era extends far beyond traditional boundaries, incorporating diverse resources and elements, encompassing various fields and emerging technologies.
The automotive sector's trajectory is no longer solely about vehicles; it is a dynamic convergence of technology, sustainability, and intelligence, shaping the future of transportation.