Process-Aware AI Lab
Process-Aware AI Lab Website
Professor ​Marco Comuzzi Description This lab focuses on the application of machine learning and computational intelligence techniques (e.g., classification/regression, deep learning, genetic algorithms and other evolutionary techniques, statistical anomaly detection) to the analysis of business process event logs. These are logs generated by the information systems that support the execution of business processes in organizations. We solve problems like predicting the outcome of the execution of business processes, predicting the activities that will be executed next in a process, or identifying anomalies in event logs, considering also the event streaming perspective.
Process Mining, Data Mining, Anomaly Detection, Blockchain
Data Analytics Lab
Data Analytics LabWebsite
Professor ​Sungil Kim Description Dr. Kim’s research interests are in the broad areas of data science and business analytics. A major focus of his research is in developing novel statistical methods for solving complex engineering problems. He has several years of consulting experience in solving real business problems in industries.
Business Analytics, Statistical Quality Control, Anomaly Detection, Data Mining and Machine Learning, Design of Experiments, Robust Parameter Design, Demand Forecasting, Predictive Analytics
Service Engineering & Knowledge Discovery Lab
Service Engineering & Knowledge Discovery LabWebsite
Professor ​Chiehyeon Lim Description We focus on developing data analytics methods to achieve learning tasks (i.e., knowledge discovery from data), such as representation, generation, prediction, and clustering. Based on such methods, we are also interested in solving real-world service problems with firms and governments (i.e., service engineering with data), including item recommendation, behavioral intervention, process monitoring, and service improvement.
Knowledge Discovery on the Representation, Prediction, Generation, and Control by Machines
Applied Data Science and the Intelligence Development for Real-world Service Engineering
Data Mining Lab
Data Mining LabWebsite
Professor Junghye Lee Description We are pursuing to develop best algorithms, systems, and applications especially for predictive analysis and data privacy and security, which help solving important industrial and management problems and creating value.
Data Mining, Probabilistic and Statistical Learning, Machine Learning, Deep Learning, Predictive Analytics, Data Privacy and Security, Health Analytics, Chemometrics
Industrial Intelligence Lab
Industrial Intelligence LabWebsite
Professor Sunghoon Lim Description Our research focuses on developing machine learning and/or social network analysis models for effective knowledge discovery from the real industry. The theoretical components of our research have direct relevance to various areas, including manufacturing (e.g., predictive maintenance, anomaly detection, additive manufacturing), safety management (e.g., car crash detection), and healthcare.
Industrial Artificial Intelligence (AI+X), Machine Learning / Deep Learning, Smart Manufacturing/Smart Factory, Social Network Analysis
Financial Engineering Lab
Financial Engineering LabWebsite
Professor Yongjae Lee Description We study quantitative approaches to financial planning of individuals and institutions. Most research topics can be categorized into three: (1) making optimal investment decisions using optimization and machine learning, (2) financial market modeling using econometrics and pattern recognition, and (3) investor data analysis using data science techniques. By developing advanced theories and practical technologies, we aim to make it possible for everyone to receive customized life-time financial planning services.
Financial Engineering, Financial Optimization,
Financial Data Analysis, Financial Planning
Applied Optimization
Applied OptimizationWebsite
Professor Sangjin Kweon Description The mission of the Applied Optimization Lab is to conduct high quality academic research while addressing real industrial and government problems. Research activities are focused on the use and development of advanced computer software to analyze and optimize performance measures of actual systems. The lab’s faculty participants have a unique combination of expertise and experiences that allow them to address complex problems in logistics, transportation, and renewable energy systems, stochastic modeling and analysis of manufacturing systems, facility layout and location, and network design and optimization.
Optimization Problems in the Sharing Economy, Logistics and Transportation Sectors, and Their Effects on Energy Sustainability and Environment
Development of Polynomial-time Algorithms for Solving Optimization and Network Problems
Learning Intelligent Machine Lab
Learning Intelligent Machine LabWebsite
Professor Sungbin Lim Description Learning Intelligent Machine Lab focuses on Artificial Intelligence (AI) and its applications to industrial and scientific problems. Specifically, we pursue principled approaches to incomplete data problems in machine learning, including deep learning, via the view of statistics and mathematics. These topics are profoundly related to statistical learning, meta learning, and causal reasoning. Currently, I am working with the following research topics:

  • · Causal Learning / Machine Reasoning
  • · Statistical Learning
  • · Uncertainty Estimation
  • · Stochastic Optimization
  • · Planning / Reinforcement Learning
  • · Automated Machine Learning
Stochastic Optimization, Reinforcement Learning, Causal Learning
Statistical Decision Making (SDM) Lab
Statistical Decision Making (SDM) LabWebsite
Professor Gi-Soo Kim Description Our research interests are focused on statistical approaches to the sequential decision problem. The multi-armed bandit (MAB) problem formulates the sequential decision problem in which a learner is sequentially faced with a set of available actions, chooses an action, and receives a random reward in response. In our lab, we integrate online learning and optimization techniques to develop algorithms that efficiently learn the reward model while maximizing the rewards. We also apply the developed algorithms to real tasks such as recommendation systems and mobile health apps. We also use causal inference to evaluate the performance of multi-armed bandit algorithms in a retrospective way.
Sequential Decision Making, Bandit Algorithms, Causal Inference, Missing Data Analysis
Machine Learning and Finance Lab
Machine Learning and Finance LabWebsite
Professor Dong-Young Lim Description The research of Prof. Dong-Young Lim’s lab is focused on stochastic optimization algorithms, nonconvex optimization, and their applications in finance and insurance.
In particular, we are interested in quantitative risk management in financial markets, the development of efficient algorithms for large-scale nonconvex optimization, the study of theoretical properties of such algorithms. Some of our current research projects are

  • · Diffusion-based algorithms for nonconvex optimization and generative model,
  • · MCMC algorithms
  • · AI application in finance and insurance
Stochastic and Nonconvex Optimization, Generative Models, Mathematical Finance, AI application in Finance and Insurance