Project: We will use the Java Network Workbench (JNW), software developed at GMU that simulates a protocol stack and displays the results, using a text interface. Students will create modules for Internet stack layers and run them in the JNW environment, as described in the required text by Pullen. JNW is available for download from http://netlab.gmu.edu/compnets. Well commented code must be submitted for grading via an upload webpage at http://netlab.gmu.edu/moodle. Additional projects will be available for extra credit. Student problems with the project are to be addressed to the TA, who may refer them the instructor as needed. Additional project information will be found at http://netlab.gmu.edu/JNWS.

Project credit breakout: JDLC1, JDLC2, JDLC3, JLAN1, JWAN2, JTRN1, JTRN2 five points each; extra credit assignment to be announced.

Missed exams must be arranged with the instructor BEFORE the exam date.

Assignments are due by 19:30 on assigned date. Late assignments lose 10% per class credit. No project submission will be accepted after last lecture day (5/3/2010).

All students are expected to abide by the Honor Code as stated in the GMU catalog and elaborated for Computer Science. Students should be aware that their submissions may be checked by plagiarism detection software.

Grading is proficiency-based (no curve), cutoffs will be in the vicinity of (but not higher than) A  93; A- 90; B+ 87; B 83; B- 80; C 70.

Extra credit is available by doing an extra project; however, no student who fails the final exam will receive a grade higher than C, regardless of extra credit earned.
 

SYLLABUS (subject to revision)
date and topic/readings in Peterson text/project assignment

1-25 Course introduction; network concepts; 7-layer and 5-layer models / Sections 1.1 to 1.4 / JNW Setup introduced

2-1 Physical layer: analog telecommunications / Section 1.5 / Project JDLC1: bit stuffing introduced

2-8 Physical layer: digital telecommunications / Sections 2.1 & 2.2

2-15 Data compression, security principles, integrity, appropriate use / Sections 2.3, 2.4 & 7.2 / Project JDLC1 due; Project JDLC2: CRC introduced

2-22 Mid-term exam

3-1 Data link control; discrete event simulation / Section 2.5 / Project JDLC3: ARQ introduced

3-8 no class; Spring Break

3-15 Local area networks / Sections 2.6 to 2.9 / Project JDLC2 due; Project JLAN1: CSMA/CD LAN introduced

3-22 no class; professor at IETF meeting; work on project

3-29 Network Layer: WANs, X.25, routing / Chapter 3 except Section 3.3 / Project JDLC3 due

4-5 Internet Architecture (IPv4); Metcalfe’s Law / Chapter 4 / Project JLAN1 due; Project JWAN2: Forwarding and Routing introduced

4-12 Queueing basics; transport layer: TCP and UDP; IPv6 / Chapter 5 & Sections 6.1 to 6.4 / Project JTRN1: Reliable Transport introduced

4-19 Multicast, multimedia and ATM networking /Section 6.5, 7.1 & 3.3 / Project JTRN2: congestion window introduced; Project JWAN2 due

4-26 Network Security and Network Management / Chapter 8 / Project JTRN1 due

5-3 Higher layer protocols / Chapter 9; Project JTRN2 due; any extra credit projects due; no project submission accepted after this day

5-10 Final exam (comprehensive) / all chapters listed above / Exam location: classroom