MITM 205 - Advanced Computer Networks

DON MARIANO MARCOS MEMORIAL STATE UNIVERSITY MID-LA UNION CAMPUS City of San Fernando, La Union Philosophy Total human development with appropriate competencies. COURSE SYLLABUS -in- MITM 205 - Advanced Computer Networks Vision A premier and globally competitive university. Mission Provides relevant quality instruction, research and extension. Goal To lead in transforming human resources into productive self-reliant citizens and responsible leaders. Goal of the College To provide quality instruction and engage in research, extension, and resource generation in the field of Information Technology. Objectives of the Program The Master in Information Technology (MIT) program aims to achieve the following: 1. To strengthen the ICT capability of the region in terms of manpower resources to promote the growth of Information and Communications Technology. 2. To develop in its students the effective use of Information Technology (IT), to solve problems, improve or re-engineer process of organizations. 3. To provide students with theoretical or practical knowledge on various aspects of information systems planning, systems implementation, systems integration and project management. 1

I. Degree Program: MASTER IN INFORMATION TECHNOLOGY II. Course Code: MITM 205 III. Course Title: ADVANCED COMPUTER NETWORKS IV. Credit Units: 3 Total No. of Hours: 54 Total No. of Hours Per Week: 3 V. Course Description: The course covers the study of computer network architectures, protocols, and interfaces. will also include end-to-end protocols, congestion control, high speed networking, and network management. VI. VII. VIII. Course Objectives: At the end of the term, the student is expected to be familiar with the underlying principles and theories and applications of computer network along with the data communication within the network. Specifically, the student should be able to: 1. Conceptualize the movement of data among computers involve many different components and methodologies. 2. Apply the theories and operations of the Open Systems Interconnection model. 3. Understand the applicability of the different types of network and the topologies it used. 4. Identify the networking medium, peripherals and devices used in the network. 5. Understand the Local Area Network technologies with the use of Ethernet. 6. Apply the theories and operations of the IP Address that uniquely identifies the devices across the network. 7. Understand the special set of rules that end points in a telecommunication connection. 8. Design and developed the data movement across and internetwork from a source to destination and discovering the best path of data can be sent. 9. Understand the provisions made in an underlying computer network infrastructure, policies adopted by the network administrator to protect the network and the network-accessible resources from unauthorized access and the effectiveness Course Requirements: 1. /s 2. inations 3. Researches/Term Paper 4. Laboratory Activities/Project Methodology: The following are the teaching methodologies/strategies to be used to deliver the content of this course lecture/class discussion conducted by teacher, recitation oral questions by teacher answered orally by students, discussion groups through Online forums/e-groups, library research on topics or problems, lecture-demonstration by teacher/another instructor(s) from a special field (guest speaker), presentation by a panel of instructors, student reports by individuals, and problem solving or case study or project study. MG/TFG Grading: Class Standing (50%) : This includes s, Research Works, Projects and other requirements needed to test competency of the student. s (50%) : s include Midterm and Final Examinations 2

IX. Course Content: Learning Contents/Tasks 1. Vision, Philosophy, and MGOs 1.1 Vision 1.2 Philosophy 1.3 Mission, Goals, and Objectives 2. Introduction to Course, Description of Requirements and other policies Time Allotment 3 hrs Expected Outcome/Values Formation State the MGOs Appreciate the VMGOs 1 hr Describe the course and its contents, requirements and policies. 3. Introduction to Data Communications 5.50 hrs Master the basics of data movement across the network 4. Open Systems Interconnection Model 5.50 hrs Understand the importance of the OSI Model 5. Applications of the Types of Network and its Topologies 6. Networking Medium, Peripherals and Devices 5.50 hrs Know and understand the different types of network and the topologies used. 5.40 hrs Know the mediums used to transfer data and the different peripherals and devices used in the process. 7. Local Area Network Technologies 3.80 hrs Know the technologies used in early development of the network and the Ethernet used in the network interconnection. Teaching Strategies Memorization Case Study Group Group Group Case/Project Study Group Term Paper Instructional Aids PowerPoint presentations, Posters, Info. Bulletin, Syllabus, and others PowerPoint presentations, Posters, Info. Bulletin, Syllabus, and others Syllabus, textbook, power point presentations, researches, online materials (web sites), Evaluation Techniques 3

8. IP Addressing and Subnet Masking 7.80 hrs Know and understand the unique identifier of each devices that are connected to the network. 9. Network Protocols 5.50 hrs Understand the protocol that the network follows in data communication. 10. Router and Routing 5.50 hrs Understand the proper flow of data within the network at identifying the best path for the data to be sent. 11. Network Security 5.50 hrs Understand the security and risk of data that travels across the network. Group Group Term Paper Group Group X. References Books: 1. Evans, Alan. Technology in action 2014 2. Bagad, Vilas S. Advanced computer networks 2014 3. Sharma, Sanjay Computer networks 1 2013 4. Borgatti, Stephen P. Analyzing social networks 2013 5. Peterson, Larry L. Computer networks : a systems approach 2013 6. Senft, Sandra. Information technology control and audit 2013 7. Da Silva, Mario M. Multimedia communications and networking 2012 8. Cannon, Kelly CCNA guide to cisco networking 2012 9. Agarwal, Bharat Bhushan Computer network 2011 10. Tomsho, Greg Guide to networking essentials,6 th ed 2011 11. Boydon, Ernesto C. Website building with joomla 2011 12. Empson, Scott CCNP portable command guide 2011 13. Donohue, Denise CCNP routing and switching quick reference 2010 14. Donohue, Denise CCNA exploration : network fundamentals 2010 4

15. Donohue, Denise CCNA exploration : LAN switching & wireless 2010 16. Donohue, Denise CCNA security lab manual 2010 17. Donohue, Denise CCNA discovery : networking for home and small business 2010 18. Sudhakar, A. Circuits and networks : analysis and synthesis, 4 th ed. 2010 19. Kelley, Jay Network Access control for dummies 2009 20. Graziani, Rick Routing protocols and concepts: CCNA Exploration companion guide 2008 21. Lewis, Wayne LAN Switching and Wireless: CCNA Exploration companion guide 2008 22. Vachon, Bob Accessing the WAN: CCNA Exploration companion guide 2008 23. Dye, Mark Network Fundamentals 2008 24. Weaver, Randy Guide to Network Defense & Countermeasures, 2 nd ed. 2007 e-books: 1. IDC Technologies Communications, Industrial Networking and TCP/IP 2012 2. Harris Andrea Complete Configuration Examples with CISCO ASA Firewalls 2007 3. Harris Andrea CISCO ASA Firewall Fundamentals 3 rd ed 2007 Prepared by: CURRICULUM DEVELOPMENT COMMITTEE 5