Distinguished Professor Philippe Fournier-Viger
Title: Advances and challenges for the automatic discovery of interesting patterns in data
Abstract: Intelligent systems can play an important role in various domains such as for factory automation, education, and the management of telecommunication and computer networks. To build intelligent systems, high-quality data is generally required. Moreover, these systems can also yield large amounts of data such usage logs, alarm logs, images, videos, and data collected from sensors. Due to the large volumes of data, managing the data generated by intelligent systems to gain insights and improve these systems is thus a key challenge. It is also desirable to be able to extract information or models from data that are easily understandable by humans. Based on these objectives, this talk will discuss the use of data mining algorithms for discovering interesting and useful patterns in data generated from intelligent systems.
The talk will first briefly review early study on designing algorithms for identifying frequent patterns and how can be used for instance to identify frequent alarms or faults in telecommunication networks. Then, an overview of recent challenges and advances will be presented to identify other types of interesting patterns in more complex data. Topics that will be discussed include high utility patterns, locally interesting patterns, and periodic patterns. Lastly, the SPMF open-source software will be mentioned and opportunities related to the combination of pattern mining algorithms with traditional artificial intelligence techniques for intelligent systems will be discussed.
Experience: Philippe Fournier-Viger (Ph.D) is a Canadian researcher, distinguished professor at Shenzhen University (China). Five years after completing his Ph.D., he came to China and became full professor at the Harbin Institute of Technology (Shenzhen), after obtaining a title of national talent from the National Science Foundation of China. He has published more than 350 research papers related to data mining, intelligent systems and applications, which have received more than 10,000 citations (H-Index 51). He is editor-in-chief of Data Science and Pattern Recognition and former associate editor-in-chief of the Applied Intelligence journal (SCI, Q1). He is the founder of the popular SPMF data mining library, offering more than 230 algorithms, cited in more than 1,000 research papers. He is a co-founder of the UDML, PMDB and MLiSE series of workshops held at the ICDM, PKDD and KDD conferences.
Prof. Qinmin Yang
Zhejiang University, China
Title: Theoretical research and practice in intelligent control design for wind energy
Abstract: Wind energy has been considered to be a promising alternative to current fossil-based energies. Large-scale wind turbines have been widely deployed to substantiate the renewable energy strategy of various countries. In this talk, challenges faced by control community for high reliable and efficient exploitation of wind energy are discussed. Advanced controllers are designed to (partially) overcome problems, such as uncertainty, intermittence, and intense dynamics. Theoretical results and attempts for practice are both present.
Experience: Qinmin Yang received the Bachelor's degree in Electrical Engineering from Civil Aviation University of China, Tianjin, China in 2001, the Master of Science Degree in Control Science and Engineering from Institute of Automation, Chinese Academy of Sciences, Beijing, China in 2004, and the Ph.D. degree in Electrical Engineering from the University of Missouri-Rolla, MO USA, in 2007. From 2007 to 2008, he was a Post-doctoral Research Associate at University of Missouri-Rolla. From 2008 to 2009, he was a system engineer with Caterpillar Inc. From 2009 to 2010, he was a Post-doctoral Research Associate at University of Connecticut. Since 2010, he has been with the State Key Laboratory of Industrial Control Technology, the College of Control Science and Engineering, Zhejiang University, China, where he is currently a professor. He has also held visiting positions in University of Toronto and Lehigh University.
Shanghai Jiao Tong University, China
Title: Research on ubiquitous medical robotics
Abstract: Medical robots as innovative and intelligent medical devices can both meet the demand for quality medical services and cope with the shortage of medical resources brought about by an aging society. It has therefore attracted the attention of governments, capital and research sectors. However, the high technological threshold, long R&D cycle and the need for continuous capital investment have become bottlenecks in the development and application of medical robots. For this reason, our team has proposed the concept of ubiquitous medical robotics, i.e., based on ubiquitous robotics, we have introduced robotic functional component technology and IoT technology to develop intelligent medical equipment on traditional surgical instruments and medical equipment. Our lab has developed corresponding intelligent medical robots based on robot-assisted surgical system and vital sign monitoring for smart elderly rehabilitation. Thus, the development cost and period of medical robots are greatly reduced. It plays a role in throwing a brick for the application and popularization of medical robots.
Experience: Qixin Cao, a professor of Shanghai Jiao Tong University, doctoral supervisor, member of National Robot Standardization Technical Committee (SAC/TC591), standing committee member of Intelligent Robot Professional Committee of Chinese Association for Artificial Intelligence, advisory committee member of Robot Competition Working Committee of Chinese Association of Automation, standing committee member of Artificial Intelligence Branch of Chinese Society for Agricultural Machinery, member of the Standing Committee of The Chinese Research Hospital Society for Medical And Industrial Transformation and Health Industry Integration branch, visiting professor of Miyazaki University and visiting professor of The University of Electro-Communications. His research interests include machine vision, ubiquitous robotics, mobile robotics, medical robotics and agricultural robotics. He has published more than 120 EI&SCI papers and obtained more than 90 national invention patents. He has won one Second prize of National Science and Technology Progress Award, one First prize of Science and Technology Award of Chinese Society for Artificial Intelligence, five Provincial and Ministerial Science and Technology awards, and two Second prizes of National Teaching Achievements; Guided students to win the National University Students "Challenge Cup" Special prize; three First prizes for Provincial and Ministerial Teaching Achievements. In 2017 and 2019, I guided my students to win the gold medal and bronze award in the graduation Design Competition of "Star Cup" of China Machinery Industry Excellent Engineers Education Alliance.
Thiagarajar College of Engineering, India
Title: IP TRACEBACK: Denial of Service Deterrent
Abstract: Securing the Internet and its services is recognized as one of the most challenging research problems. Amongst the threats imposed on the Internet, Distributed Denial of Service (DDoS) attack has occurred recurrently with a severe impact on the economy of the organization. Despite the fact that the security experts propose numerous stupendous solutions to mitigate DDoS attack, it has continued to prevail over a decade. The stateless nature of Internet and the destination oriented routing have encouraged the attackers to forge the source IP addresses of the attack packets. This complicates the forensic investigations and countermeasures against DDoS attack. Identifying the origin of the attack is an important and essential step towards deterrence and countermeasures against these attacks. IP traceback is the concept of identifying the source of the packet, even if the IP address is spoofed. Several efficient IP traceback schemes were proposed with remarkable results in the past. However, they either require huge storage at the routers or require numerous packets to traceback the attack path. Further, most of the marking based traceback schemes are not backward compatible. This thesis focuses on exploring these issues and proposes a feasible solution to identify the origin of Direct Distributed Denial of Service (DDoS) attack. Securing the Internet and its services is recognized as one of the most challenging research problems. Amongst the threats imposed on the Internet, Distributed Denial of Service (DDoS) attack has occurred recurrently with a severe impact on the economy of the organization. Despite the fact that the security experts propose numerous stupendous solutions to mitigate DDoS attack, it has continued to prevail over a decade. The stateless nature of Internet and the destination oriented routing have encouraged the attackers to forge the source IP addresses of the attack packets. This complicates the forensic investigations and countermeasures against DDoS attack. Identifyi ng the origin of the attack is an important and essential step towards deterrence and countermeasures against these attacks. IP traceback is the concept of identifying the source of the packet, even if the IP address is spoofed. Several efficient IP traceback schemes were proposed with remarkable results in the past. However, they either require huge storage at the routers or require numerous packets to traceback the attack path. Further, most of the marking based traceback schemes are not backward compatible. This speech focuses on exploring these issues and discussing feasible solution to identify the origin of Direct Distributed Denial of Service (DDoS) attack.
Research Area: Network Security, IoT, Blockchain
Assoc. Prof. Jiawei Xu, Wenzhou University, China
Title: Application of Human Factors Engineering in Intelligent Transportation
Artificial intelligence is an interdisciplinary subject between social and natural sciences, and its application has penetrated all walks of life, profoundly changing the life of human society. In addition, human factors engineering takes human as the core research object and uses various engineering disciplines to integrate and study the interaction and reasonable combination of human, machine, and environment.
In the traffic scenario, driver behavior is the core object of research, combined with artificial intelligence technology to further improve the safety and comfort of driving, and we have been doing research and teaching work in this field for a relatively long time, and actively looking for opportunities for industry-academia-research cooperation with enterprises and providing consulting services.
Experience: Xu Jiawei (Email: firstname.lastname@example.org), has been an associate professor of the School of Computer and Artificial Intelligence, Wenzhou University since 2020, and is affiliated to the Institute of Big Data and Information Technology of Wenzhou University (Dean: Professor Zhang Xiaoqin). From 2008 to 2010, and from 2011 to 2015, he received a full scholarship to study at Hallym University in South Korea and Lincoln University in the United Kingdom, under the tutelage of Professor Seop Hyeong Park (Master Supervisor, Signal Processing Laboratory, Department of Electronic Engineering, Hallym University, South Korea) and Professor Guo Kun (main doctoral supervisor, Eye Movement and Behavior Laboratory, Department of Psychology, University of Lincoln, UK), obtained a master's degree and a doctorate degree respectively, and then worked as a researcher at Newcastle University, UK, and published several IEEE Trans journals in the direction of traffic human factors engineering. (IEEE-TITS, IEEE-TII, etc.), applied for 5 national patents, 2 soft-authored, published 3 works, and participated in many scientific research projects such as EU FP7 and BK21.