2017 Foundation of Cybersecurity

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Academic unit or major
School of Computing
Instructor(s)
Ito Toshiya  Ogata Wakaha  Koike Hideki  Suzuki Taiji  Tanaka Keisuke  Tomoishi Masahiko  Nishizaki Shin-Ya  Masuhara Hidehiko  Matsuura Satoshi  Minamide Yasuhiko  Yamaoka Katsunori  Yokota Haruo  Wakita Ken  Watanabe Osamu  Watanabe Takuo 
Course component(s)
Lecture
Day/Period(Room No.)
Tue3-4(W531)  Fri3-4(W531)  
Group
-
Course number
XCO.T473
Credits
2
Academic year
2017
Offered quarter
1Q
Syllabus updated
2017/3/21
Lecture notes updated
-
Language used
Japanese
Access Index

Course description and aims

Cybersecurity is important for our daily lives including various types of activities. There is a growing demand for students who can be researchers and engineers capable of understanding cybersecurity.
In order to satisfy this demand, Tokyo Tech has launched Progressive Graduate Minor in Cybersecurity in April, 2016. We design the curriculum of Progressive Graduate Minor in Cybersecurity in collaboration with NRI as the core, also with Rakuten, NTT, AIST, and NISC. The following six courses are organized in School of Computing: Foundation of Cybersecurity (1Q, 2-0-0), Theory of Cryptography for Cybersecurity (3Q, 2-0-0), Cybersecurity Governance (3Q, 1-1-0), Attack and Defense on Cybersecurity I (2Q, 1-1-0), Attack and Defense on Cybersecurity II (3Q, 1-1-0), and Attack and Defense on Cybersecurity III (4Q, 1-1-0).
This course is one of the core courses in this minor. This course aims to help students to understand the overview and the background of cybersecurity. This course also focuses on the relationships between cybersecurity and other research topics in computer science, and on the primitives and the tools in cybersecurity.

Student learning outcomes

By the end of this course, students will be able to understand:
1) the backgrounds of cybersecurity
2) the overview of cybersecurity
3) the relationships between cybersecurity and other research fields in computer science
4) the primitives and the tools used in cybersecurity.

Keywords

security, information security, cybersecurity, cryptography, network, software, programming, web application, algorithm, computational complexity

Competencies that will be developed

Intercultural skills Communication skills Specialist skills Critical thinking skills Practical and/or problem-solving skills
- -

Class flow

The class offers a standard type of lecture. The instructors give the small exams solved in classes or as homework assignments.

Course schedule/Required learning

  Course schedule Required learning
Class 1 The overview of this course (Keisuke Tanaka (School of Computing)), and the basic notions of cybersecurity (Satoshi Matsuura (GSIC)) Understand the basic notions of cybersecurity.
Class 2 Fundamental elements of cybersecurity (Masahiko Tomoishi (GSIC)) Understand the fundamental elements of cybersecurity.
Class 3 Theoretical computer science as a foundation of cybersecurity (Osamu Watanabe (School of Computing)) Understand the notion of theoretical computer science.
Class 4 Theory of algorithms as a foundation of cybersecurity (Toshiya Ito (School of Computing)) Understand the notion of algorithms.
Class 5 Theory of cryptography as a fundamental element of cybersecurity (Wakaha Ogata (School of Engineering)) Understand the notion of cryptography.
Class 6 Information and communication network and its security (Katsunori Yamaoka (School of Engineering)) Understand the notion of Information and communication network.
Class 7 Exercise-style lecture for understanding the elements for cybersecurity (Keisuke Tanaka (School of Computing)) Understand the elements for cybersecurity.
Class 8 Concurrent systems and its security (Shin-ya Nishizaki (School of Computing)) Understand the notion of concurrent systems.
Class 9 Database and its security (Haruo Yokota (School of Computing)) Understand the notion of database.
Class 10 Visualization of security information (Ken Wakita (School of Computing)) Understand the techniques for visualization.
Class 11 Web security and its techniques (Yasuhiko Minamide (School of Computing)) Understand the notion of web security.
Class 12 Machine learning and its application to cybersecurity (Taiji Suzuki (School of Computing)) Understand the notion of machine learning.
Class 13 Formal methods and secure programming (Takuo Watanabe (School of Computing)) Understand the notion of formal methods and secure programming.
Class 14 Intrusion detection in cybersecurity (Hideki Koike (School of Computing)) Understand the notion of intrusion detection.
Class 15 Programming language design and its application to cybersecurity (Hidehiko Masuhara (School of Computing)) Understand the notion of programming language design.

Textbook(s)

Textbooks will be used in this course.

Reference books, course materials, etc.

References will be announced in each class.

Assessment criteria and methods

The evaluation consists of the small exams solved in classes or as homework assignments. The weights of the scores of the small exams are equal. The total score is calculated by omitting the worst three scores.

Related courses

  • XCO.T474 : Theory of Cryptography for Cybersecurity
  • XCO.T478 : Cybersecurity Governance
  • XCO.T475 : Attack and Defense on Cybersecurity I
  • XCO.T476 : Attack and Defense on Cybersecurity II
  • XCO.T477 : Attack and Defense on Cybersecurity III

Prerequisites (i.e., required knowledge, skills, courses, etc.)

None. However, the knowledge on the basic notions of computer science can help students to understand the contents of the course smoothly.

Contact information (e-mail and phone)    Notice : Please replace from "[at]" to "@"(half-width character).

keisuke[at]is.titech.ac.jp

Office hours

Appointment by e-mail is required.

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