Abstract
Governments around the world are planning to ban sales of vehicles running on petroleum-based fuels as an effort to reduce greenhouse gas emissions, and electric vehicles surfaced as a solution to decrease pollutants produced by the transportation sector. As a result, wireless power transfer technology has recently gained much attention as a convenient and practical method for charging electric vehicles. In this paper, patent analysis is conducted to identify emerging and vacant technology areas of wireless power transfer. Topics are first extracted from patents by text mining, and the topics with similar semantics are grouped together to form clusters. Then, the process of identifying emerging and vacant technology areas is improved by applying a time series analysis and innovation cycle of technology to the clustering result. Lastly, the results of clustering, time series, and innovation cycle are compared to minimize the possibility of misidentifying emerging and vacant technology areas, thus improving the accuracy of the identification process and the validity of the identified technology areas. The analysis results revealed that one emerging technology area and two vacant technology areas exist in wireless power transfer. The emerging technology area identified is circuitries consisting of transmitter coils and receiver coils for wireless power transfer, and the two vacant technology areas identified are wireless charging methods based on resonant inductive coupling and wireless power transfer condition monitoring methods or devices.
Highlights
Current transportation modes produce many pollutants, which have a hazardous effect on the environment and human health
Patents regarding wireless power transfer technology are retrieved from the United States Patent and Trademark Office (USPTO) database for the analysis
Patent filing trends revealed that, since 2011, paradigm of patenting activity in wireless power transfer (WPT) shifted to the automotive industry, which is leading the patent share by a large margin compared to other industries
Summary
Current transportation modes produce many pollutants, which have a hazardous effect on the environment and human health. According to the United States Environmental Protection Agency (EPA), about 29% of greenhouse gas emissions in 2017 were produced by transportation, which mostly uses petroleum-based fuels such as gasoline and diesel [1]. Petroleum-based fuels produce various greenhouse gases including nitrogen oxides (NOx) and sulfur oxides (SOx), which create smog and accelerate global warming that affects human lives significantly. Politicians in the Netherlands took measures a step further by voting for a motion that bans sales of new cars running on petroleum-based fuels starting in 2025 [3]. The world’s largest vehicle market, is considering a ban on production and sales of fossil fuel cars to reduce harmful emissions [4]. To follow and meet the environment-friendly trends and regulations, started to research and produce electric vehicles
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