Chung-Hong Lee scite author profile

In this paper, we address a big-data analysis method for estimating the driving range of an electric vehicle (EV), allowing drivers to overcome range anxiety. First, we present an estimating approach to project the life of battery pack for 1600 cycles (i.e., 8 years/160 000 km) based on the data collected from a cycle-life test. This approach has the merit of simplicity. In addition, it considers several critical issues that occur inside battery packs, such as the dependence of internal resistance and the state-of-health. Subsequently, we describe our work on driving pattern analysis of an EV, using a machine-learning approach, namely growing hierarchical self-organizing maps, to cluster the collected EV big data. This paper contains the analysis of energy consumption and driving range estimation for EVs, including powertrain simulation and driving behavior analysis. The experimental results, including both simulating battery degradation and analysis of driving behaviors, demonstrate a feasible solution for improving driving range estimation by the EV big data.INDEX TERMS Electric vehicle, battery modeling method, range estimation, EV big-data, data mining.

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A text mining approach on automatic generation of web directories and hierarchies

Yang

Lee

2004

Expert Systems with Applications

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Leveraging microblogging big data with a modified density-based clustering approach for event awareness and topic ranking

Lee

Chien

2013

Journal of Information Science

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Although diverse groups argue about the potential and true value benefits from social-media big data, there is no doubt that the era of big data exploitation has begun, driving the development of novel data-centric applications. Big data is notable not only because of its size, but also because of the complexity caused by its relationality to other data. In the past, owing to the limited possibilities of accessing big data, few data sources were available to allow researchers to develop advanced data-driven applications, such as monitoring of emerging real-world events. In fact, social media is greatly impacting the growth of big data; and big data is providing enterprises with the data to help them understand how to better detect marketing demands. Microblogging is a social network service capable of aggregating messages to explore facts and unknown knowledge. Nowadays, people often attempt to search for trending news and hot topics in real time from microblogging messages to satisfy their information needs. Under such a circumstance, a real demand is to find a way to allow users to organize a large number of microblogging messages into understandable events. In this work, we attempt to tackle such challenges by developing an online text-stream clustering approach using a modified density-based clustering model with collected microblogging big data. The system kernel combines three technical components, including a dynamic term weighting scheme, a neighbourhood generation algorithm and an online density-based clustering technique. After acquiring detected event topics by the system, our system provides functions for recommending top-priority event information to assist people to effectively organize emerging event data through the developed topic ranking algorithm.

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A Novel Approach for Event Detection by Mining Spatio-temporal Information on Microblogs

Lee

Yang

Chien

et al. 2011

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Chung-Hong Lee

Mining spatio-temporal information on microblogging streams using a density-based online clustering method

A Novel Big Data Modeling Method for Improving Driving Range Estimation of EVs

A text mining approach on automatic generation of web directories and hierarchies

Leveraging microblogging big data with a modified density-based clustering approach for event awareness and topic ranking

A Novel Approach for Event Detection by Mining Spatio-temporal Information on Microblogs

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