pittlogo.jpg

 

         

IS-2150/TEL-2810

Information Security and Privacy

Fall 2015

Tuesdays, 6:00 8:50PM 

Room: IS 405

Instructor:
James Joshi

Contact Info:
706A, IS Building,

Tel: 412-624-9982

 

Emailjjoshi [AT] mail.sis.pitt.edu 

 

Office Hour

By Appointment


GSA:

Nathalie Baracaldo

 

Office Hour

TBD


Tentative Course Schedule


Announcement

(Lecture 10 added;

NOTE: Final Exam is on Dec 16)


Lecture Schedule


Assignments

 

(Check CourseWeb for HWs)


Reading List


Other Links

LERSAIS

 


 

 

 

Course Description


This course covers fundamental issues and first principles of security and privacy. The course will look at the security & privacy policies, models and mechanisms related to confidentiality, integrity, authentication, identification, and availability issues related to information and information systems. Other topics covered include basics of cryptography (e.g., digital signatures) and network security (e.g., intrusion detection and prevention), risk management, security assurance and secure design principles, as well as e-commerce security. Issues such as organizational security policy, legal and ethical issues in security, standards and methodologies for security evaluation and certification will also be covered.

Special note: The coverage of this course has been primarily guided by the requirements of some of the CNSS standards (about 85% of the content). In addition, the course also attempts to cater to students who are interested in taking a single course but would like to gain a broad understanding of issues in information security.

The overall goal of the course is to develop a broader understanding of the information security field, so that the student can

  • Recognize, analyze and evaluate security problems and challenges in networks and systems.
  • Apply their knowledge to synthesize possible approaches to solve the problems in an integrated way.

More specifically, the goals of the course are to develop the skills to:

  • Analyze and evaluate the fundamentals of security(and privacy) policy models and mechanisms, and their need for different types of information systems and applications
  • Apply the basics of Cryptographic techniques and network security for ensuring the basic security goals of security of information systems.
  • Recognize the various security issues/terminologies related to software, networks and applications to show how they are interrelated and available techniques and approaches to solve/tackle security problems.
  • Describe/identify the various social, legal and non-technical dimensions of security and its relation to technical counterparts.

Prerequisites

  • TEL2000 OR Equivalent Background; Instructor Permission

In essence, the following is expected of the students

  • Basic knowledge of: operating systems, data structures, database systems and networks; Java.
  • Basic mathematics: undergraduate mathematics, some knowledge about mathematical logic, set notation, etc. These issues will be reviewed in the course.

Students not sure about the required background should meet the instructor.

Special note:

  • The course attempts to explore some theoretical issues for which the stated mathematical background is essential.
  • The course will involve some Java programming.

Students are highly encouraged to use office hours (the Instructor's and/or  the GSA's) and make special arrangements with the instructor, if additional help is needed.


 

Textbook:

Introduction to Computer Security: by Matt Bishop (ISBN: 0-201-44099-7), Addison-Wesley (Required)

This is a simplified version of (some topics have been removed!) of the following

Computer Security: Art and Science by Matt Bishop (ISBN: 0-201-44099-7), Addison-Wesley. So if you have a copy of this book, it is fine too.

Other Reference Material

Security in Computing, 2nd Edition, Charles P. Pfleeger, Prentice Hall
Security Engineering: A Guide to Building Dependable Distributed Systems, Ross Anderson, Wiley, John & Sons, Incorporated, 2001 (There is a newer edition)
Inside Java 2 Platform Security: Architecture, API Design, and Implementation
by Li Gong, Gary Ellison, Mary Dageforde

Practical Unix and Internet Security, Simon Garfinkel and Gene Spafford (Online)

          A list of papers will be provided to supplement the book

 

NOTE:

        Some of these books are available online: check: http://proquest.safaribooksonline.com/

         To access online books and article from off-campus, use the following link: sslvpn.pitt.edu

         The following link gives more info: http://www.library.pitt.edu/services/remote.html


 

Course Outline

Security/Privacy Basics

  • General overview and definitions
  • Security models and policy issues
  • Privacy models/policies

Basic Cryptography and Network security

  • Introduction to cryptography and classical cryptosystem
  • Authentication protocols and Key Management, IPSec, VPNs, etc.

Systems Design Issues and Information assurance

  • Design principles
  • Security Mechanisms
  • Auditing Systems
  • Risk analysis
  • System verification and evaluation

 

Intrusion Detection and Response

  • Attack Classification and Vulnerability Analysis
  • Detection, Containment and Response/Recovery

Legal, Ethical Issues

Overview of Miscellaneous Issues

  • Malicious code
  • Security in Cloud, Social Networks, Bigdata

Grading (Tentative)

Lab + Homework/Quiz/Paper Review 55%
Two Exams 30%

Programming Project 15%
Misc. (Seminar, Participation in class) will also be used.


If you have a disability for which you are or may be requesting an accommodation, you are encouraged to contact both your instructor and Disability Resources and Services, 140 William Pitt Union, 412-648-7890 or 412-383-7355 (TTY) as early as possible in the term.  DRS will verify your disability and determine reasonable accommodations for this course.