Advanced Network Management (Spring 2025)

Course Information

  • Course Name: Advanced Network Management (ANM)
  • Topic: Time Series Intelligence in Cyberspace
  • Language: English
  • Course Type: Graduate

Course Instructor

Dan Pei
Associate Professor
Department of Computer Science and Technology
Email: peidan(at)tsinghua(dot)edu(dot)cn
Office: East Main Building 9-319

Course Introduction

Our digital world is a data-driven ecosystem, a dynamic and interconnected network, and this course teaches Temporal Intelligence through Time Series Analysis. It has applications in key domains such as finance, IT operations, the industrial internet, cybersecurity, smart cities, smart manufacturing, smart healthcare, smart energy, and earth sciences. Time-dependent systems are modeled as an Internet of Time Series, consisting of interconnected and interdependent systems. Each state of a system is modeled as a variable whose value changes over time, forming a time series.

The temporal behavior of these systems is analyzed using probabilistic models and advanced time series techniques, where each variable represents a state and the interconnections reflect dependencies among systems.

This course covers various algorithms (both classical and deep learning-based) for time series analysis, including forecasting, anomaly detection, causal discovery and inference, segmentation, time series augmentation, etc from recent research papers in top AI conferences. Then, through case studies of time series tasks, the course further explores time series applications like AIOps (AI for IT Operations).

Finally, the course discusses the latest progress in advanced topics like time series foundation models. Students are expected to complete personal assignments, paper presentations, and a project related to time series algorithms in recent top conferences.

Class Time and Location

TBD

Assignments & Project

  1. Individual Assignment: Time Series Visualization and Anomaly Detection
  2. Individual Paper Reading: Select and share a paper from top-tier conferences on time series (Paper list will be provided)
  3. Group Project (1-3 students per group): Self-defined, as long as it is related to time series

Grading Policies

  1. Attendance: 10%
  2. Personal Assignments: 20%
  3. Paper Reading & Presentation: 20%
  4. Group Project: 50%

Syllabus (TBD):

  1. Introduction
  2. Univariate Time Series Feature Engineering
  3. Pairwise Distance & Similarity Measurement
  4. Clustering and Outlier Detection
  5. Time Series Classification
  6. Time Series Forecasting
  7. Time Series Generation
  8. Time Series Anomaly Detection
  9. Time Series Segmentation & Change Point Detection
  10. Causal Discovery & Inference
  11. Project Presentation

Other Information

Course Number
80240663

Credit
3

Required text
None.

Reference texts

Practical time series analysis: Prediction with statistics and machine learning》,  by Aileen Nielsen

《Data Science for Business–What you need to know about data mining and data-analytical thinking》Foster Provost & Tom Fawcett

MIT 6.S191 Introduction to Deep Learning 》 with video and slides.

《Site Reliability Engineering –How Google Runs Production Systems》, by Betsy Beyer, Chris Jones, Jennifer Petoff & Niall Richard Murphy

Prerequisites
You are expected to be familiar with at least one programming language.

Course Assistant

Zhe Xie
Email: xiez22(at)mails(dot)tsinghua(dot)edu(dot)cn

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