44042-001-Bakes
M&IS 44042-001
NETWORK THEORY & APPLICATIONS
SPRING 2015
MW 12:30-1:45 pm
Room 106 BSA
INSTRUCTOR: Dr. Catherine M. Bakes
OFFICE: A-405 BSA
OFFICE HOURS: Mon 1:45-4 pm, Thurs 1:15-4 pm, and by appointment
OFFICE PHONE: (330) 672‑1162
E-MAIL: cbakes@kent.edu
TEXT: Data Communications and Computer Networks: A Business User's Approach, Seventh Edition, Curt M. White, Course Technology Cengage Learning, 2013, http://www.cengagebrain.com/shop/isbn/9781133626466
COURSE DESCRIPTION
This course provides an introduction to the basic concepts underlying local and wide area networks and their applications. It includes an overview of data communications protocols, transmission media, wireless technologies, and network hardware, topologies, architectures, and standards. Modulation, error control, multiplexing, and switching techniques are also discussed. In addition, students are to complete a team project focusing on some topic from the field of networking.
LEARNING OUTCOMES
By the end of this course students should:
· Understand network concepts, technology, applications, and terminology.
· Have the knowledge to participate in, and contribute to, discussions about networks with co-workers, consultants, and vendors.
· Have the ability to evaluate existing network technologies.
· Have the skills needed to analyze future network technologies and assess their usefulness in meeting current and future business needs.
· Have an awareness of the implications of network standards and regulations.
· Have the communication skills needed to write clearly and give effective presentations.
· Have strong analytical and problem solving skills.
· Have the ability to work effectively in project teams, as a team member and leader.
GRADING POLICY
Assignment |
Points |
6 class exercises @ 1 pt each |
6 |
Computer based training exercises |
5 |
6 homework assignments @ 1 pt each |
6 |
6 quizzes @ 10 pts each |
60 |
4 guest lecture forms @ 2 pts each |
8 |
Course survey |
1 |
Network tools exercise |
6 |
Project presentation (including PPT file) |
5 |
Project presentation forms |
3 |
Total |
100 |
On their respective due dates, course assignments requiring hard copy submission are to be turned in during class and those requiring electronic submission are to be submitted before 11:59 pm. Unless you have a legitimate excuse with supporting documentation and obtain my permission prior to the due date (or, if that’s impossible, at the first opportunity after the due date), you will receive a zero for a missed or late assignment.
If you have questions concerning a grade you receive on any course assignment, it is your responsibility to inform me within 1 week of the graded assignment being returned. Grades will not be discussed after that time. Also, to protect your privacy, any issues related to your performance in the course will only be discussed in my office or via e-mail.
After rounding your numeric score to the nearest integer, your course letter grade will be assigned according to the scale: A = 93-100; A- = 90-92; B+ = 87-89; B = 83-86; B- = 80-82; C+ = 77-79; C = 73-76; C- = 70-72; D+ = 67-69; D = 60-66; and F = 0-59.
COURSE SCHEDULE
Week |
Module |
Monday |
Tuesday |
Wednesday |
|||
1 |
1 |
1/12 |
|
1/13 |
|
1/14 |
|
2 |
1 |
1/19 |
MLK Day |
1/20 |
|
1/21 |
|
3 |
1/2 |
1/26 |
|
1/27 |
CBT-A & HW#1 Due |
1/28 |
|
4 |
2 |
2/2 |
|
2/3 |
Quiz 1 Due |
2/4 |
|
5 |
2 |
2/9 |
Project Topic Due |
2/10 |
HW#2 Due |
2/11 |
Guest Lecture #1+ |
6 |
3 |
2/16 |
GL #1 Form Due+ |
2/17 |
Quiz 2 Due |
2/18 |
Guest Lecture #2+ |
7 |
3 |
2/23 |
GL #2 Form Due+ |
2/24 |
Survey Due |
2/25 |
|
8 |
3 |
3/2 |
|
3/3 |
CBT-B & HW#3 Due |
3/4 |
|
9 |
4 |
3/9 |
|
3/10 |
Quiz 3 Due |
3/11 |
|
10 |
4/5 |
3/16 |
|
3/17 |
CBT-C & HW#4 Due |
3/18 |
|
Spring Break |
|||||||
11 |
5 |
3/30 |
|
3/31 |
Quiz 4 Due |
4/1 |
|
12 |
5 |
4/6 |
Network Tools Due |
4/7 |
CBT-D & HW#5 Due |
4/8 |
Guest Lecture #3+ |
13 |
6 |
4/13 |
GL #3 Form Due+ |
4/14 |
Quiz 5 Due |
4/15 |
Guest Lecture #4+ |
14 |
6 |
4/20 |
GL #4 Form Due+ |
4/21 |
|
4/22 |
|
15 |
6 |
4/27 |
PPT File Due |
4/28 |
CBT-E & HW#6 Due |
4/29 |
Project Presentations 4/29 Pres Forms Due |
16 |
|
5/4 |
|
5/5 |
Quiz 6 Due |
Thurs++ May 7 10:15 am |
Peer Form Due Project Presentations 5/7 Pres Forms Due |
+ The guest lecture (GL) dates and GL form due dates are subject to change and will be announced in class as they are confirmed.
++ During finals week we are scheduled to meet on Thursday May 7 at 10:15 am-12:30 pm.
COURSE WEB SITE
Access to the course website is through Blackboard (Bb), the University’s course management system. To log on, go to http://learn.kent.edu and enter your username and password.
CLASS EXERCISES
There will be 6 unannounced class exercises during the semester. Each will be distributed at the start of a class period and due at the end.
COMPUTER-BASED TRAINING EXERCISES
The textbook author has posted 11 sets of interactive computer-based training (CBT) exercises in a zipped folder at http://facweb.cs.depaul.edu/cwhite/cbts.htm. At appropriate times throughout the semester you are to complete 10 sets of these exercises, in a series of 5 batches totaling 48 questions:
Course Module |
CBT Batch |
CBT Module |
No. of Questions |
Topic |
1 |
A |
1 |
6 |
Packet Encapsulation* |
3 |
B |
4 9 10 |
4 5 5 |
Statistical and Synchronous TDM Datagram Networks Virtual Circuit Networks |
4 |
C |
2 5 |
5 4 |
dB Loss and Gain Sliding Window ARQ Error Control |
5 |
D |
6 7 8 |
5 5 5 |
CSMA/CD Packet Transmission Bridges and Bridge Tables Switches |
6 |
E |
11 |
4 |
Domain Name System Resolution |
To install the CBTs on your computer (which only needs to be done once), download the zipped folder and open it. After the installation is complete, you can access the CBTs anytime you wish by running the Animate.exe program. To complete each assignment, run the appropriate CBT module(s) on your computer, note the answers to the questions, and then go to Bb to submit them. At least 5 days will be available for submitting your answers to Bb.
You will be permitted 3 attempts to submit each CBT assignment on Bb, and your best attempt will count towards your course grade. Each correctly answered question will be worth 0.1 points and, if you answer all 48 questions correctly, you will receive a bonus of 0.2 points.
*For the Packet Encapsulation Module, you only need to record the layers being added to the transmitted packet, not the layers being removed from the packet.
HOMEWORK ASSIGNMENTS
Each homework assignment will cover material from the corresponding course module and be available on Bb for at least 5 days. You will be permitted 3 attempts, and your best attempt will count towards your course grade.
QUIZZES
Each quiz will emphasize material discussed in class and cover the corresponding course module as well as any relevant guest lectures. It will be available on Bb for at least 5 days, and you will be permitted 1 attempt.
GUEST LECTURES
COURSE SURVEY
There will be 1 course survey during the semester, which will be available on Bb for at least 5 days.
NETWORK TOOLS EXERCISE
A network tools exercise will be assigned during the semester, for which a stapled hard copy is to be submitted at the start of class on the due date.
TEAM PROJECT
Each team of up to 4 students is to complete a project on a network related topic and present it in class. I will assign you to a team, and then the team will have the option of selecting its topic (which must be relevant to the course and add new information beyond the material I cover) or having me assign one for you. If you choose the former option, you must obtain my approval by the project topic due date. You may do this during office hours or by e-mail. If you do not obtain my approval by the due date, I will assign a topic for you.
For ideas on possible project topics, I suggest that you browse through the text, explore the Internet, and/or consult the following list:
Cloud computing
Data, audio, and video compression
Directory services and protocols
Domain name system
Fiber optic networks (Google Fiber, FiOS, PONs, SONET, U-verse, WDM)
Intelligent transportation systems
Internet of Things/Internet of Everything
IPv6
Messaging and collaboration tools
Mobile and wireless networks (WLANs, Bluetooth, cellular, wireless sensor networks)
Multiprotocol label switching
Near field communications
Network security
Radio-frequency identification
Smart grid
Telecom regulation and deregulation (telecom legislation, net neutrality)
Unified communications
Video communications (IPTV, videoconferencing)
Virtualization
Voice over IP
Note that your team’s topic does not have to be on this list, nor is it guaranteed that I will approve a topic that is on the list.
Each team (including every member) is to present their project in class at the end of the semester. The presentation should give a clear, complete, and concise summary of the project and have a section for each of the following:
(1) Background and overview (i.e., what the topic is, what it does, and how)
(2) Types and options
(3) Strengths and limitations versus alternatives
(4) Business applications and implications
(5) Future trends and conclusion
Use PowerPoint to develop your presentation and submit the final version of your PPT file (i.e., you will not be permitted to make changes to the file after submitting it) via e-mail. Name the file “44042 Team X Topic” where “X” is your team number and “Topic” is the title of your project, e.g., “44042 Team 3 Network Security.”
When giving your presentation, you are strongly encouraged to (1) not read the information you present, (2) begin by introducing your team and topic, (3) provide an outline of the subtopics to be addressed, (4) include illustrative figures and tables (and a hands-on demonstration if appropriate), (5) conclude with a summary of the key findings, and (6) rehearse your presentation to ensure that it fits the allotted time. i.e., 5 minutes per team member. You may assume that a computer and projector will be provided, although I strongly recommend having a backup plan in case of equipment failures.
PROJECT PRESENTATION FORMS
PEER EVALUATION FORM
All team members are expected to contribute equally to completing a high-quality, integrated, professional project. Each team will be self-managed and responsible for determining the roles played by its members, and the nature of the contributions may differ across team members. It is up to the team to make these decisions appropriately, and all team members should ensure that their contributions are on track and sufficient.
MISA
The Management Information Systems Association (MISA) is the student organization for CIS majors or any other students interested in the role of information systems in today's business environment. Representatives from area businesses, recent IT retirees, and local technology "experts" give presentations at MISA meetings. MISA also hosts networking socials with experienced professionals as well as tours of local corporate data centers. MISA members enjoy preferred scholarships, certification exam reimbursements, networking opportunities, guidance in CIS classes, and a great way to land an internship or job. To learn more visit http://misa.bsa.kent.edu.
ATTENDANCE AND CLASSROOM BEHAVIOR
Attendance is not mandatory but is highly recommended if you wish to do well in the course. You are responsible for all material presented in class and should not expect any special consideration if you miss material due to being absent.
You are expected to be respectful of our guest speakers, other students, and the instructor at all times during the semester. It is not fair to others to cause a disruption by the noise and disturbance of a late arrival or early departure. Therefore, unless you have a legitimate reason for doing so, do not come to class late or leave early. Also, if you must leave the classroom temporarily, please do so quietly.
Any time you have questions please ask them, in class (raise your hand and, if someone else is speaking, wait until they have finished), during office hours, or via e-mail. This is likely to benefit other students as well as yourself. Also, any time you have relevant comments, please share them.
Use of cell phones is not permitted during class. They must be turned off before class begins, stored somewhere they are not in view, and not taken out or turned back on until after class has ended.
Improper classroom behavior will not be tolerated and is grounds for dismissal from the course, resulting in a grade of F.
COLLEGE AND UNIVERSITY POLICIES
Prerequisites: Students attending the course who do not have the proper prerequisite risk being deregistered from the class.
Academic Honesty: Cheating means to misrepresent the source, nature, or other conditions of your academic work (e.g., tests, papers, projects, assignments) so as to get undeserved credit. In addition, it is considered to be cheating when one cooperates with someone else in any such misrepresentation. The use of the intellectual property of others without giving them appropriate credit is a serious academic offense. It is the University's policy that cheating or plagiarism result in receiving a failing grade for the work or course. Repeat offenses result in dismissal from the University.
Course Withdrawal: For Spring 2015, the course withdrawal deadline is Sunday, March 22, 2015.
Students with Disabilities: University policy 3342-3-01.3 requires that students with disabilities be provided reasonable accommodations to ensure their equal access to course content. If you have a documented disability and require accommodations, please contact the instructor at the beginning of the semester to make arrangements for necessary classroom adjustments. Please note, you must first verify your eligibility for these accommodations through Student Accessibility Services (contact 330-672-3391 or visit http://www.kent.edu/sas/index.cfm for more information on registration procedures).
Course Registration: Students have responsibility to ensure they are properly enrolled in classes. You are advised to review your official class schedule (using Student Tools on FlashLine) during the first two weeks of the semester to ensure you are properly enrolled in this class and section. Should you find an error in your class schedule, you have until Sunday, January 25, 2015 to correct the error. If registration errors are not corrected by this date and you continue to attend and participate in classes for which you are not officially enrolled, you are advised now that you will not receive a grade at the conclusion of the semester for any class in which you are not properly registered.
Graduation Information: If you are eligible to graduate, it is your responsibility to apply for graduation before the set deadline (May Graduation: Apply before September 15th August Graduation: Apply before December 15th December Graduation: Apply before March 15th). If you apply after the deadline you will be assessed a $200 late fee. Please see your academic advisor as soon as possible if you are uncertain as to your progress toward graduation. To apply for graduation, log onto your Flashline account and complete the following steps:
1. Click on the Student Tools tab
2. Look in the Graduation Planning Tool Box
3. Click on Application for Graduation
If an error message appears, you must contact your advisor.
COURSE MODULES
Module 1: Data & Signal Fundamentals
Refer to Ch. 1-2 & pgs 312-318 & 326-327
Analog & digital data & signals
Digital coding schemes
Analog modulation schemes
Pulse code modulation
Cable modems, DSL, & other Internet access alternatives
Module 2: Conducted & Wireless Communications Media
Refer to Ch. 3 & pgs 116, 264-265, 307-312, 318-319, & 327-330
Wired & wireless transmission media
Telephone system history
PBXs & unified communications
Cellular communications
Module 3: Polling, Multiplexing, & Switching
Refer to Ch. 5 & pgs 113-115, 247-252, 261-265, 318-327, & 330-333
Multipoint lines & polling
Multiplexing, T carrier system, ISDN, & SONET
Circuit & packet switching
Frame relay & ATM
Congestion control, QoS, & service level agreements
Module 4: Transmission Alternatives, Error Control, & Flow Control
Refer to Ch. 6 & pgs 37-39, 51-57, 64-68, 106, 110-113, & 232-233
HDX, FDX, & simplex transmission
Synchronous transmission & throughput
Noise, distortion, & decibels
Error control & flow control
Data codes
Module 5: LANs & Internetworking
Refer to Ch. 7 & pgs 67-68, 88, 134-136, 208-214, 242-246, 282-283, & 359-368
LAN topologies & structured cabling systems
Ethernet
VLANs, Power over Ethernet, & Metro Ethernet
IEEE 802.11 wireless LANs
Internetworking devices & Multiprotocol Label Switching
Module 6: Network Architectures, Protocols, & Services
Refer to Ch. 10 & pgs 14-24, 197-198, 252-261, 325-328, & 392-393
IPv4 & IPv6
Classful addressing, CIDR, & NAT
OSI & Internet reference models
TCP/IP protocols & services
NOTE: I will make every effort to follow the schedule on page 2 and to cover topics in the order listed above. However, depending on the pace of the class, we may cover some topics earlier or later than planned. Any schedule changes will be announced in class, or you will be notified by e-mail.