Biblio

Filters: Author is Lin, Jerry Chun-Wei  [Clear All Filters]
2019-12-16
Lin, Jerry Chun-Wei, Zhang, Yuyu, Chen, Chun-Hao, Wu, Jimmy Ming-Tai, Chen, Chien-Ming, Hong, Tzung-Pei.  2018.  A Multiple Objective PSO-Based Approach for Data Sanitization. 2018 Conference on Technologies and Applications of Artificial Intelligence (TAAI). :148–151.
In this paper, a multi-objective particle swarm optimization (MOPSO)-based framework is presented to find the multiple solutions rather than a single one. The presented grid-based algorithm is used to assign the probability of the non-dominated solution for next iteration. Based on the designed algorithm, it is unnecessary to pre-define the weights of the side effects for evaluation but the non-dominated solutions can be discovered as an alternative way for data sanitization. Extensive experiments are carried on two datasets to show that the designed grid-based algorithm achieves good performance than the traditional single-objective evolution algorithms.
2017-05-18
Lin, Jerry Chun-Wei, Liu, Qiankun, Fournier-Viger, Philippe, Hong, Tzung-Pei, Zhan, Justin, Voznak, Miroslav.  2016.  An Efficient Anonymous System for Transaction Data. Proceedings of the The 3rd Multidisciplinary International Social Networks Conference on SocialInformatics 2016, Data Science 2016. :28:1–28:6.

k-anonymity is an efficient way to anonymize the relational data to protect privacy against re-identification attacks. For the purpose of k-anonymity on transaction data, each item is considered as the quasi-identifier attribute, thus increasing high dimension problem as well as the computational complexity and information loss for anonymity. In this paper, an efficient anonymity system is designed to not only anonymize transaction data with lower information loss but also reduce the computational complexity for anonymity. An extensive experiment is carried to show the efficiency of the designed approach compared to the state-of-the-art algorithms for anonymity in terms of runtime and information loss. Experimental results indicate that the proposed anonymous system outperforms the compared algorithms in all respects.