EV Trends And Ownership Patterns: How GIS Can Help Manage It?

The world has witnessed exponential growth in electric vehicle sales. This is because of wider model availability, improved range, and increased performance over the years.

The global electric car stock reached the 10 million mark in 2020 – a 43% increase after 2019. Moreover, around 3 million cars were registered in the same year, which implies a surging demand for eco-friendly vehicles worldwide.

Geographic Information System technology plays a significant role in the implementation and growth of EV infrastructure. It helps analyze and manage data related to electric vehicle infrastructure. For example the location of charging stations, battery life, range, driving patterns, and power grid capacity.

Individuals can use the information to optimise charging station placement, improve the electric grid’s efficiency, and understand the impact of EVs on the environment.

GIS’s Role in EV Patterns and Trends

The global sale of electric vehicles increased rapidly in 2022, with the first quarter witnessing sales of around 2 million. GIS plays a critical role in managing electric vehicle patterns and trends by providing real-time information for EV drivers, analyzing charging patterns and demand data and optimizing EV charging infrastructure placement.

Here is how GIS can help manage and analyze electric vehicle patterns and trends.

1. Digital Maps

   GIS mapping involves the creation of digital maps that display the locations of charging stations, battery life, and range. These maps are updated in real-time and show the availability and location of EV charging roads. The information can help drivers plan their trips more efficiently, reducing the likelihood of running out of power on the road.

2. Data Analysis

   GIS can analyze data on the charging patterns of EVs and predict future demand for charging stations. The information can be used to identify areas where charging infrastructure is lacking and prioritize the placement of new charging stations. The process can help reduce range anxiety and make EVs more practical and appealing for drivers.

3. Electric Grid

   GIS can help analyze the impact of EVs on the electric grid. It can identify periods of high demand and help electric utilities manage it by analyzing data on the charging patterns of EVs. The information can be used for GIS route optimization and electricity distribution to ensure that charging stations have enough power to charge EVs when there is a higher demand for them on the roads.

Conclusion

The future of GIS lies in becoming a valuable tool in supporting the transition to a more sustainable transportation system. It will continue to be a crucial part of EV fleet management and play a critical role in analyzing and managing electric vehicle patterns and trends.

GIS technology has come a long way since its inception, and the future of GIS is wide and fascinating. The world will witness further advancements in GIS use cases that will transform how people use electric vehicles.