MIS 44042 Fall 2010 Bakes
M&IS 44042-001
NETWORK THEORY & APPLICATIONS
FALL 2010
TR 5:30-6:45 PM
324 BSA
INSTRUCTOR: Dr. Catherine M. Bakes
OFFICE: A-405 BSA
OFFICE HOURS: TR 2:30-3:30 & 6:45-7 pm, W 1:30-4 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, Sixth Edition, Curt M. White, Course Technology Cengage Learning, 2011 (ISBN-10:0538452617 or ISBN-13:9780538452618)
COURSE DESCRIPTION
This course provides an introduction to the basic concepts underlying local and wide area networks, their applications, and an understanding of the relevant terminology. It includes an overview of transmission media, data communications protocols, and network configurations, a description of modulation, error control, multiplexing, and switching techniques, and a discussion of current network technologies, services, standards, and regulations. In addition, students are to complete a team project focusing on some topic from the networking field.
LEARNING OBJECTIVES
· To understand network concepts, technology, applications, and terminology.
· To have the knowledge to participate in, and contribute to, discussions about networks with co-workers, consultants, and vendors.
· To have the ability to evaluate existing network technologies.
· To have the skills needed to analyze future network technologies and assess their usefulness in meeting current and future business needs.
· To have an awareness of the implications of network standards and regulations.
· To have the communication skills needed to write clearly and give effective presentations.
· To develop strong analytical and problem solving skills.
· To have the ability to work effectively in project teams, as a participant, presenter, and leader.
GRADING POLICY
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6 class exercises @ 1 pt each |
6 points |
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6 homework assignments @ 1 pt each |
6 points |
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6 quizzes @ 10 pts each |
60 points |
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Computer based training exercises |
5 points |
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2 guest lecture forms @ 2.5 pts each |
5 points |
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Network tools exercise |
6 points |
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Project outline |
2 points |
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Project summary |
5 points |
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Project presentation |
5 points |
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Total (excluding extra credit) |
100 points |
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6 extra credit project presentation forms @ 0.5 pts each |
3 points |
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Total (including extra credit) |
103 points |
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 completed before 11 pm. No assignment will be accepted for credit after its deadline.
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 to you. Grades will not be discussed after that time.
After rounding your numeric score to the nearest integer, your course letter grade will be assigned according to the scale: A = 90-103; B = 80‑89; C = 70‑79; D = 60‑69; and F = 0‑59.
IMPORTANT DATES
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Week |
Monday |
Tuesday |
Thursday |
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1 |
8/30 |
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8/31 |
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9/2 |
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2 |
9/6 |
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9/7 |
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9/9 |
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3 |
9/13 |
HW#1 Due |
9/14 |
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9/16 |
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4 |
9/20 |
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9/21 |
Quiz 1 |
9/23 |
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5 |
9/27 |
HW#2 Due |
9/28 |
Project Topic Due |
9/30 |
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6 |
10/4 |
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10/5 |
Quiz 2 |
10/7 |
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7 |
10/11 |
CBT#1 Due HW#3 Due |
10/12 |
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10/14 |
Project Outline Due |
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8 |
10/18 |
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10/19 |
Quiz 3 |
10/21 |
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9 |
10/25 |
CBT#2 Due HW#4 Due |
10/26 |
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10/28 |
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10 |
11/1 |
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11/2 |
Quiz 4 |
11/4 |
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11 |
11/8 |
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11/9 |
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11/11 |
Veterans Day |
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12 |
11/15 |
CBT#3 Due HW#5 Due |
11/16 |
Guest Lecture #1+ |
11/18 |
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13 |
11/22 |
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11/23 |
GL #1 Form Due+ Quiz 5 |
11/25 |
Thanksgiving |
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14 |
11/29 |
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11/30 |
Network Tools Due Guest Lecture #2+ |
12/2 |
Project Summary Due |
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15 |
12/6 |
CBT#4 Due HW#6 Due |
12/7 |
GL #2 Form Due+ |
12/9 |
Project Presentations 5/6 Pres Forms Due |
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16 |
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12/14 |
NOTE: On Dec 14, we are scheduled to meet at 5:45-8 pm Peer Form Due; Project Presentations; 12/14 Pres Forms Due; Quiz 6 |
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+ The guest lecture (GL) dates and GL form due dates are subject to change and will be announced in class once they have been confirmed. Each GL form will be due at the beginning of class 1 week after that guest lecture.
COURSE WEB SITE
Access to the course website is through Vista, the University’s course management system. You can log on to Vista by going to http://vista8.kent.edu and entering your username and password.
CLASS EXERCISES
There will be 6 unannounced class exercises during the semester. Most will deal with class material, and some might be surveys. Each class exercise is due in class on the day it is assigned.
HOMEWORK ASSIGNMENTS
Each homework assignment will emphasize material from the corresponding course module and consist of 10 objective questions. It will be available on Vista for at least 5 days and graded online. You will be allowed 3 attempts until the deadline, and your final attempt will count towards your course grade.
QUIZZES
The quizzes will emphasize the material discussed in class and consist of objective questions. Each quiz will be approximately 15 minutes long and given at the end of a class period.
A makeup quiz (which may be different from the original) will only be given if you have a legitimate excuse (i.e., sickness, athletic event, religious observation, military responsibility, or death in immediate family), obtain my permission prior to the scheduled quiz time, and provide written documentation. Otherwise you will receive a zero for a missed quiz.
While taking a quiz, you may refer to one 1-sided 8 ½ x 11” page of notes which you are to show me when you turn in your quiz. I strongly recommend being very selective in deciding what to include on the page. This should help you to prepare better for the quiz and save you time while taking the quiz. Except for your page of notes, each quiz will be closed book and closed notes.
COMPUTER-BASED TRAINING EXERCISES
The textbook author has posted 10 sets of interactive computer-based training exercises on his web site at http://facweb.cti.depaul.edu/cwhite/books.htm. At appropriate times throughout the semester you are to complete 9 sets of these exercises, in a series of 4 batches totaling 48 questions, and submit your answers online using Vista. For each batch you will be allowed 3 attempts until the deadline, and your final 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.
GUEST LECTURE FORMS
You are required to attend both guest lectures and to submit a guest lecture form (available on Vista) for each. Carefully follow all the instructions provided on the form and submit a hard copy.
NETWORK TOOLS EXERCISE
A network tools exercise will be announced in class towards the end of the semester, and a hard copy of the output is to be submitted at the start of class on the due date.
TEAM PROJECT
Each team of 3 or 4 students is to complete a project on a network related topic. 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 of a topic by the due date, I will assign one for you.
For ideas on possible project topics, I suggest that you browse through the text, explore the Internet, visit a library, and/or consult the following list:
Computer telephony integration/Unified communications
Data, audio, and video compression
Directory services and protocols
Domain name system
Fiber optic networks (PONs, SONET, WDM)
Messaging and collaboration tools
Network protocols
Network security
Peer-to-peer file sharing
Regulation and deregulation (telecom legislation, net neutrality)
Radio-frequency identification
Routing algorithms and protocols
Video communications (IPTV, videoconferencing)
Virtual private networks
Virtualization
Voice over IP
Wireless communications (WLANs, Bluetooth, WiMax, cellular)
Wireless sensor networks
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.
PROJECT OUTLINE
Each team is to submit in hard copy format a project outline. It should be at least 1 page long and provide a detailed outline of the topics and subtopics to be addressed in your project. Use size 12 Times New Roman font and 1.5 line spacing. All members of the same team will receive the same project outline grade.
PROJECT SUMMARY
The project summary should be at least 2 pages long and give a clear, complete, and concise summary of the project. It should address each of the following items as they relate to your topic: (1) background and overview (e.g., what it is, what it does, and how); (2) available options; (3) strengths and limitations versus alternatives; (4) business applications; and (5) future trends. Use size 12 Times New Roman font, 1.25 inch margins (for all 4 margins), 1.5 line spacing, left justification (only) and, instead of separating paragraphs with blank lines, start each paragraph with a tab character.
The summary should also have a cover page, which includes (1) the project title, (2) your team number, (3) team members’ names, and (4) the date, and an appendix with illustrative figures and tables.
PROJECT PRESENTATION
Each team (including every member) is to present their project in class at the end of the semester. You are strongly encouraged to (1) use PowerPoint, (2) not read the information you present, (3) begin the presentation by introducing your team and topic and providing an outline of the subtopics to be addressed, (4) include a hands-on demonstration if appropriate, (5) conclude the presentation with a summary of the key findings, and (6) rehearse your presentation to ensure that it fits the allotted time (this will be based on the class size and announced in class approx. 2 weeks before the presentations begin). You may assume that a computer and projector will be provided, although I strongly recommend that you have a backup plan in case of equipment failures.
PEER EVALUATION FORM
All team members are expected to contribute equally to completing a high-quality, 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.
Project grades will be assigned initially based on how well you satisfy the requirements outlined above, as well as the project’s overall quality and degree of professionalism. However, I reserve the right to make adjustments to individual grades based on information you are to provide on a peer evaluation form. You are to use this form (available on Vista) to award points that indicate the value of the contributions of each member of your team and to provide written comments justifying the points you award. Carefully follow all the instructions provided on the form and submit a hard copy. Failure to complete and submit a peer evaluation form by the specified deadline is likely to result in a negative adjustment to your own project grades.
EXTRA CREDIT PROJECT PRESENTATION FORMS
You are required to attend all the project presentations at the end of the semester and have the option of submitting project presentation forms (available on Vista) for up to 6 presentations (other than your own!). On each form enter your name, the date, the presenters’ team number, and the topic being presented, and then complete the form during class time making sure that you write legibly and carefully follow all the instructions provided.
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. To receive credit for a class exercise, you must be in class on the day the exercise is assigned.
You are expected to be respectful of our guest speakers, other students, and the instructor at all times during the semester. Come to class on time and stay until the class has ended. Unless you have a legitimate reason for doing so, do not come to class late or leave early. It is not fair to cause a disruption by the noise and disturbance of a late arrival or early departure. Any time you have questions 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 you. Similarly, any time you have relevant comments, please share them. Use of cell phones or pagers is not permitted during class. They must be turned off before class begins and not turned back on until after class ends. 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 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 Fall 2010, the course withdrawal deadline is Sunday, November 7, 2010.
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 through Student Accessibility Services (contact 330-672-3391 or visit http://www.registrars.kent.edu/disability/ 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, September 5, 2010 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.
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://#.
GRADUATION INFORMATION FOR SENIORS
It is your responsibility to apply for graduation before the set deadline. 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. The graduation application deadlines are follows:
Graduation Application Deadlines:
May Graduation: Apply before September 15th
August Graduation: Apply before December 15th
December Graduation: Apply before March 15th
To apply for graduation complete the following steps:
1. Log onto your Flashline account
2. Click on the Student Tools tab
3. Look in the Graduation Planning Tool Box
4. Click on Application for Graduation
**If an error message appears, you must contact your advisor.
TENTATIVE CLASS SCHEDULE
NOTE: A tentative class schedule is provided on the following page. I will make every effort to follow this schedule and to cover the topics in the order listed. 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.
TENTATIVE CLASS SCHEDULE
Weeks 1 & 2: Module 1 (Ch. 1-2 & pgs 356-364)
Introduction to course
Analog & digital data & signals
Digital coding schemes (NRZ-L, NRZI, Manchester, differential Manchester, bipolar-AMI, 4B/5B)
Modulation schemes (AM, FM, PM, QAM, PCM)
Internet access alternatives (56k modem, cable modem, DSL)
Weeks 3 & 4: Module 2 (Ch. 3 & pgs 351-356, 364-365, & 374-377)
Transmission media (twisted-pair, coaxial cable, optical fiber, microwave, satellite)
Telephone system, PBXs & Centrex
Wireless communications (cellular, IR, WiMax, Bluetooth, WLANs)
Weeks 5 & 6: Module 3 (Ch. 5 & pgs 126-128, 276-289, 297-300, 364-374, & 377-380)
Multipoint lines & polling
Multiplexing (FDM, DMT, TDM, T carrier system, ISDN, SONET/SDH, STDM, WDM)
Inverse multiplexing
Circuit & packet (datagram, virtual circuit) switching
Frame relay & ATM (congestion, QoS)
Weeks 7 & 8: Module 4 (Ch. 6 & pgs 42-44, 70-74, 118-119, & 122-126)
HDX, FDX, & simplex transmission
Asynchronous, synchronous, & isochronous transmission
Noise (white noise, impulse noise, crosstalk, echoes, attenuation, dBs)
Error prevention & detection (parity, checksum, CRC)
Error correction & flow control (stop-and-wait, sliding window)
Weeks 9 to 11: Module 5 (Ch. 7 & pgs 98, 148-150, 316-317, & 409-416)
LAN topologies and access methods (bus, tree, star, ring, CSMA/CD, token-passing)
Ethernet LANs (IEEE 802.3 frame format, shared & switched, VLANs, standards)
Internetworking devices (repeaters, switches, routers, firewalls, MPLS)
Wireless LANs (IEEE 802.11)
Weeks 12 to 15: Module 6 (Ch. 10 & pgs 15-27, 225, 287-289, 293-297, 372-375, & 447-448)
OSI & Internet reference models
Internet protocols & services (IP, TCP, ICMP, UDP, MPLS, ARP, DHCP, NAT, VPNs, HTTP, DNS, E-mail, FTP, telnet, VoIP, RTP, RTSP, SNMP, OSPF, RIP)
IP addressing, IPv6, and Internet2
