CS 461

CS 461 - Computer Security I

Fall 2024

TitleRubricSectionCRNTypeHoursTimesDaysLocationInstructor
Computer Security ICS461ADA69008DIS01000 - 1050 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security ICS461ADB69009DIS01100 - 1150 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security ICS461ADC69010DIS01200 - 1250 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security ICS461ADD69013DIS01300 - 1350 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security ICS461ADE66966DIS01400 - 1450 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security ICS461ADH66969DIS01500 - 1550 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security ICS461AL449547LEC41230 - 1345 T R  1320 Digital Computer Laboratory Nikita Borisov
Computer Security ICS461ALG72159LEC41230 - 1345 T R  1320 Digital Computer Laboratory Nikita Borisov
Computer Security IECE422ADA69017DIS01000 - 1050 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security IECE422ADB69018DIS01100 - 1150 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security IECE422ADC69019DIS01200 - 1250 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security IECE422ADD69022DIS01300 - 1350 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security IECE422ADE66982DIS01400 - 1450 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security IECE422ADH66984DIS01500 - 1550 W  0220 Siebel Center for Comp Sci Nikita Borisov
Computer Security IECE422AL449549LEC41230 - 1345 T R  1320 Digital Computer Laboratory Nikita Borisov
Computer Security IECE422ALG72176LEC41230 - 1345 T R  1320 Digital Computer Laboratory Nikita Borisov

Documents

Official Description

Fundamental principles of computer and communications security and information assurance: ethics, privacy, notions of threat, vulnerabilities, and risk in systems, information warfare, malicious software, data secrecy and integrity issues, network security, trusted computing, mandatory and discretionary access controls, certification and accreditation of systems against security standards. Security mechanisms: authentication, auditing, intrusion detection, access control, cryptography, security protocols, key distribution. Course Information: Same as ECE 422. 4 undergraduate hours. 4 graduate hours. Prerequisite: One of CS 241, CS 341 or ECE 391, or a combination of CS 233 and CS 340.

Text(s)

Computer Security: Principles and Practice, 2nd. Ed., by William Stalling and Lawrence Brown

Learning Goals

Assess and address Security and Privacy (S&P) issues for policy and humans. That is, characterize and classify the threats based on human conformance to policy and evaluate the effectiveness of a range of countermeaures. (1)
Provide S&P risk analysis for basic scenarios based on core principles, specifically the Confidentiality, Integrity, Availability (CIA) requirements. (1)
Apply cryptographic hashes, pseudorandom generators, symmetric, and asymmetric cryptography with appropriate tradeoffs. (1,2,3)
Evaluate options for authentication based on secrets, tokens, and biometrics. (1)
Understand network, application, and systems security. (1,2)
Formulate access control models for basic situations. (1,2)
Write and mitigate malicious code and characterize basic means of its propagation. (1,2,3)
Assess the threat of basic Denial of Service (DoS) attacks. (1)
Provide network securty protections using firewalls and IDSs. (1,2)
Assess threats based on physical layer. (1)
Apply legal and ethical rules for S&P. (4)

Topic List

Human issues in S&P
S&P risk assessment
History of cryptography
Symmetric key encryption
Asymmetric key encryption
Systems security
Database security
Application security
Web application security
Network security
Digital signatures
Cryptology
Authentication
Authorization
Malicious code
Threat Modeling
DoS
Intrusion Detection & Firewalls
Legal and Ethical Isssues in S&P
Trusted Operating systems
Evaluation and Auditing
Physical layer security threats

Required, Elective, or Selected Elective

Selected Elective.

Last updated

3/6/2019by Ryan Cunningham