342 264: Mobile and Wireless Technology (Spring 2020)

Course Description:
Introduction to wireless networks, fundamental to physical, frequency media, radio propagation, modulation and coding, multiplexing, fundamental to computer networks, Wireless Local Area Networks (WLANs), Wireless Personal Area Networks (WPANs), sensor networks, ad hoc routing, Wireless Metropolitans Area Networks (WMANs), cellular networks, Mobile Internet Protocol (MobileIP), Internet of Thing, wireless network security.

Prerequisite: C and JAVA programming, Data Communication OR Computer Network (may be needed for the project) OR permission of the instructor.

Instructor: Chakchai So-In, Ph.D., chakso AT kku.ac.th
Office: SC 6706
Office Hours: Monday from 08.00 am to 10.00 am (or email me for appointment)
Class homepage: https://csperson.kku.ac.th/chakchai/342264_Spring20/
CNAP CCNA Wireless material: Cisco Network Academy CCNA Wireless
Teaching Assistant:

Phet Imtongkhum phet AT kkumail.com, Office hour Saturday 05.00pm to 07.00pm @SC9524

Chatchai Poonriboon chatchai AT kkumail.com, Office hour Sunday 05.00pm to 07.00pm @SC9524

Location:
Section I: - the class meets on Tuesday at room SC9524 from 10.00am to 12.00pm for lecture; and Monday from 03.00pm to 05.00pm for Lab.
Section II: - the class meets on Monday at room SC9524 from 10.00am to 12.00pm for lecture; and from 01.00pm to 03.00pm for Lab.
Facebook Group: Facebook
Email: cs342264 AT gmail.com

Textbook
The main textbooks for the course are
1. Mobile and Wireless Networking Technology, Chakchai So-In, 2011-2018
2. Introduction to Wirless and Mobile Systems by Dharma Prakash, 2011
3. ¤ÙèÁ×Í¡ÒÃ¾Ñ²¹ÒáÍ¾¾ÅÔà¤ªÑ¹ Android ÍÂèÒ§Á×ÍÍÒªÕ¾ by ´Ã. ¨Ñ¡ÃªÑÂ âÊÍÔ¹·Ãì, ¾§ÉìÈ¸Ã ¨Ñ¹·ÃìÂÍÂ áÅÐ ³Ñ°³ÔªÒ ÇÕÃÐÁ§¤ÅàÅÔÈ, 2011
4. Android App Development ©ºÑºÊÁºÙÃ³ì by ´Ã. ¨Ñ¡ÃªÑÂ âÊÍÔ¹·Ãì, ¾§ÉìÈ¸Ã ¨Ñ¹·ÃìÂÍÂ áÅÐ ³Ñ°³ÔªÒ ÇÕÃÐÁ§¤ÅàÅÔÈ, 2011
5. Ad Hoc Wireless Network: Architectures and Protocols, C. Siva Ram Murthy and B. S. Manoj, 2004

Supplementary
1. Wireless Communications and Network, by William Stallings, 2005
2. Fundamentals of Wireless Communication by David Tse et al., 2005 (free access click here)
3. WiMAX: Technology for Broadband Wireless Access by Loutfi Nuaymi, 2007
4. 3G Evolution, Second Edition: HSPA and LTE for Mobile Broadband, Erik Dahlman et al., 2008
5. Wireless LAN 2nd Edition, Aunnop Kuntikul, 2018
6. Wireless LAN, Anan Ponpherm, 2007
7. Basic Android App Development, Chakchai So-In and Pongsathorn Janyoi, 2018
8. Advanced Android Programming, Chakchai So-In and Pongsathorn Janyoi, 2018
9. Basic Window Phone 7 Programming, C. So-In, Kasidit Wijitsopon, Nutnicha Weeramongkonlert, and Saryut Poolsanguan, 2018
Most importantly, please READ all Wiki related topics.
Note that all books are on 3 hours-reserved at ComSci LIB.

Final Project

Example: 342264: Mobile and Wireless Technology (Class in 2019)

Example: 342264: Mobile and Wireless Technology (Class in 2018)

Example: 322264: Mobile and Wireless Technology (Class in 2017)

Example: 322264: Mobile and Wireless Technology (Class in 2016)

Example: 322262: Wireless Networks (Class in 2014-2015)

Example: 322262: Wireless Networks (Class in 2013)

Example: 322261: Wireless and Mobile Communication Networks (Class in 2011)

Example: 322749: Mobile and Wireless Application (Class in 2011)

Example: 322261: Wireless and Mobile Communication Networks (Class in 2010)

News

04/12/2019: Midterm Exam date = Saturday 08/02 at 08.30am - 11.30am
01/12/2019: Download Homework/Lab cover letter here
01/12/2019: Lecture #1 is available.
01/12/2019: Web site created.

Tentative Schedule (Subject to Change)

Class	Day	Date	Topic
1	Monday	02/12/2019 (Graduation Ceremony) => Saturday 21/12/2019 (09.00am - 04.00pm)	Course Overview
2	Monday	09/12/2019	Wireless Local Area Network (WLAN)
3	Monday	16/12/2019	(Cont.)
4	Monday	23/12/2019	Wireless Personal Area Network (WPAN)
5	Monday	30/12/2019 (Holiday) => Saturday 21/12/2019 (09.00am - 04.00pm)	Introduction to Internet of Things (IoT)
6	Monday	06/01/2020	Network Protocol + Mobile IP + TCP Over Wireless
7	Monday	13/01/2020	Ad Hoc Network
8	Monday	20/01/2020	Mobile and Wireless Networking Project/App/Testbed Selection Proposal Presentation + Review for Midterm + Encoragement + Dhamma #1 + Dhamma #2
9	Monday	27/01/2020	Mid-Term Exam (week 27/01-31/01) = Saturday 08/02 at 08.30am - 11.30am
10	Monday	03/02/2020	VANET + Introduction to Wireless Cellular Network
11	Monday	10/02/2020 (Holiday) => Saturday 21/12/2019 (09.00am - 04.00pm)	Cellular 1G-4G
12	Monday	17/02/2020	(Cont.)
13	Monday	24/02/2020	Wireless Physical Layer (WPHY)
14	Monday	02/03/2020	(Cont.)
15	Monday	09/03/2020	Wireless Network Security
16	Monday	16/03/2020	Review for Midterm + Final Mobile and Wireless Networking Project/App/Testbed Presentation PPT + Demo + .Doc + Poster + Video (youtube) + Code/Configuration/Testbed
17	Monday	23/03/2020	Final Exam (week 23/03-05/04) = 31/03 (01.00pm - 04.00pm)

Homework/Lab Assignments (Spring 2020 schedule) (Subject to Change) Ten or eleven Lab Homeworks will be assigned (at the end of lab chapter) throughout the course (a whole week). Note: Some of the questions will be used as QUIZ during the lecture.
Submission:
All assignment should be turned via Google Drive = 342264_Spring20. Late lab homework will be assessed a 30% penalty.
Each pair-homework should include title prefix = "GroupID_SubGroupID_HWID" such that ID is your Group/Groupd_SubGroup/HW number.
Each pair-lab should include title prefix = "GroupID_SubGroupID_LabID" such that ID is your Group/SubGroup/Lab number.
Each pair-lab homework should include title prefix = "GroupID_SubGroupID_LabHWID" such that ID is your Group/SubGroup/LabHW number.
Note: For homework and lab assignment; you MUST include the cover letter with students' signature OTHERWISE they WILL NOT be graded.

Lab	Description
1	Lab 1: OS (Windows + Linux) Installation + Mobile Phone + User Account
2	Lab 2: WLAN Adhoc vs. Infrastructure
3	Lab 3: WLAN Simulator
4	Lab 4_1 + 4_2: WLAN Access Point
5	Lab 5: WLAN P2P and P2MP
6	Lab 6: WLAN Wireless Router
7	Lab 7: WPAN Bluetooth + NFC/RFID + Homeplug + Powerline
8	Lab 8: WPAN ZigBee
9	Midterm Lecture Exam (allow 1 A4)
10	Lab 9: IoT Simulator
11	Lab 10: IoT Testbed
12	Lab 11_1 + 11_2: VANET (Simulator) + MQTT + CoAP
13	Lab 12: Adhoc Networks (Simulator)
14	Lab 13: Wireless Sensor Network (Simulator)
15	Lab 14: Cellular Networks (Simulator)
16	Lab 15: WLAN Security
17	Final Lecture Exam (allow 1 A4)

Note: For homework and lab assignment; you MUST include the cover letter with students' signature OTHERWISE they WILL NOT be graded.

Academic Integrity
Students at Khon Khan University are engaged in the first step for their professional career with the highest standards. Please follow the academic integrity guideline at Cheating and Plagiarism [@CMU]. All these rules are enforced for the entire course.

Project/Lab - Group of up to 2-6 students
Main Project
Project Ideas:

Ideas at Virtual Labs

Ideas at Planet Labs

Ideas at EMULAB

Ideas at OMNET

Ideas at NS2

Ideas at NS3

Ideas at OPNET

Ideas at Hawaii.edu

Ideas at MIT.edu

Ideas at Toronto.edu

Ideas at Sunysb.edu

Ideas at Berkeley.edu

Ideas at Upenn.edu

Ideas at Cmu.edu

This semester, (not limited to) we will focus on Internet of Thing; Android Emulator will be our main tool (require JAVA skill - eclispe)
Links here are useful for Android programming: http://developer.android.com/guide/developing/tools/emulator.html, http://developer.android.com/sdk/index.html.
Some of Android application: http://www.android.com/market/#app=com.wsl.CardioTrainer; http://androidapplications.com/
However, we do not limit to Android platform. Iphone OS application, WII-based applicaiton, Kinect application, WP7 application AND Sensor Network are also possible.
The quality of the project is to submit for NSC contest, Microsoft Imagine Cup, and Samart Innovation.
Project Ideas Example (Look at Mobile Application section - please also update the projects passing into the final round)
Some cool projects@youtube: Iphone Robot; Kinect Robot; Cool Android App; Kinect; Window Phone App

Cisco Netrider Contest (Networking Competition)
Network Security Contest
National Software Contest
Click Here

Project Milestone	Description	Completion Date
#1	Mobile and Wirelss Networking Project/App/Testbed Selection Proposal + 10 mins PPT Presentation (what is it) = Topic + (2)Related Work + What makes different/What is it? + Example Source Code	20/01/2020
#2	Final Network Testbed Submission 20 mins Presentation = Poster + PPT + Video (youtube) + Code + Demo	16/03/2020

Note: These are group projects BUT grading individually *write who do what in what%?*

Grading: (Tentative)

Mid-Term Exam	20%
Final-Term Exam	25%
Homework + Class Participation + Quiz	10% +/- 5%
Lab + HW_Lab	20% +/- 5%
Mobile and Wireless Networking Project/Testbed	20% +/- 5%(grading individually)

The students are allowed to bring only "ONE" piece of A4 paper in each exam. The final exam material will be after the mid-term; however, all related contents will be also covered.
The exam includes 1. True/False (+1, -1, and 0), 2. Numerical and Analysis, and 3. Fill in the blank.
The final grade will be curved based on the overall performance of the whole class (probablistic clear cut-off point).
Note that students are allowed to bring only "ONE" piece of A4 paper in each exam with additional non-memorized calculator
The final exam material will be after the mid-term; however, all related contents will be also covered.
The exam includes 1. True/False (+1, -1, and 0), 2. Numerical and Analysis, and 3. Fill in the blank.
The final grade will be curved based on the overall performance of the whole class (probablistic clear cut-off point).
Note: Extra Credits:

+2.5 to 5% 1st round competition

+5 to 10% Final round competition; Published Paper/NSC/Imagine Cup/Samart etc.

+1% for taking a mobile application contest exam

+5% passing Mobile/Wireless Certifications

+1% if >80% of all students = course evaluation

Other related wireless networking research links

WiMAX research, WiMAX-NS2 Module, Chang Gung University (Prof. Jenhui Chen), http://ndsl.csie.cgu.edu.tw/wimax_ns2.php
Wireless Communication Technologies Group, NIST, http://w3.antd.nist.gov/wctg/
Wireless Communications Research, MIT (Prof. Moe Win), http://wgroup.lids.mit.edu/
The Wireless Systems Lab (WSL), Stanford, (Prof. Andrea Goldsmith), http://systems.stanford.edu/
Wireless Communications Research Group, Stanford (Prof. Donald C. Cox), http://wireless.stanford.edu/
Network Research Lab, UCLA (Prof. Mario Gerla and M.Yahya Sanadidi), http://netlab.cs.ucla.edu/
UCLA Wireless Research and Development, UCLA (Dr. Michael Fitz), http://www.unwired.ee.ucla.edu/index.html
Center for Wireless Communications (CWC), UCSD (Prof. Anthony S. Acampora), http://www-cwc.ucsd.edu/
Broadband Wireless Networking Laboratory, (Prof. Ian F. Akyildiz) http://www.ece.gatech.edu/research/labs/bwn/
The Berkeley Wireless Research Center, Berkeley, http://bwrc.eecs.berkeley.edu/
Wireless Networking & Communications Group (WNCG), Utexas (Prof. Jeff Andrews, Ted Rappaport, Lili Qiu, and Sanjay Shakkottai), http://wncg.ece.utexas.edu/
Wireless Communications Laboratory (WCL), TAMU (Prof. Costas N. Georghiades), http://wclb.tamu.edu/
Wireless Systems Research Laboratory, Univeristy of Cincinnati (Dr. James Caffery Jr), http://www.ececs.uc.edu/~wsrl/main_page.htm
Wireless Communications Research Laboratory, WISC (Prof. Akbar Sayeed), http://dune.ece.wisc.edu/
WINLAB, Rutger (Prof. Dipankar Raychaudhuri), http://www.winlab.rutgers.edu/
Wireless Networking and Security Laboratory, WPI (Prof. Wenjing Lou), http://ece.wpi.edu/~wjlou/htmls/research.html
Center for Wireless Information Network Studies, WPI (Prof. Kaveh Pahlavan), http://www.cwins.wpi.edu/
Multimedia Networks Laboratory, UMass (Prof. Aura Ganz), http://dvd1.ecs.umass.edu/wireless/
Computer Networks Research Group, UMass (Prof. Jim Kurose and Don Towsley), http://www-net.cs.umass.edu/
The Wireless Networks Laboratory (WNL), Cornell (Prof. Zygmunt J. Haas), http://people.ece.cornell.edu/haas/wnl/
Center for Wireless Systems and Applications (CWSA), Purdue (Prof. Mark Bell), http://cwsaweb.ecn.purdue.edu/index.php
Center for Research in Wireless Communications, Clemson (Prof. Michael B. Pursley), http://www.clemson.edu/crwc/index.htm
Advanced Networking Laboratory, NJIT (Prof. Nirwan Ansari), http://web.njit.edu/anl/index.htm
Broadband Communications Research, University of Waterloo (Dr. X. Sherman Shen and Weihua Zhuang), http://bbcr.uwaterloo.ca/
Wireless Information Networking Group (WING), University of Florida (Dr. Yuguang Fang and Janise McNair), http://wireless.ece.ufl.edu/
Radio Systems Group, Lund University (Prof. Andreas Molisch), http://www.es.lth.se/radiocom/
Wireless Communications and Networking Group, Rochester (Prof. Wendi Heinzelman), http://www.ece.rochester.edu/research/wcng/
Wireless Communications Research, UTK (Prof. Mostofa K. Howlader), http://wcrg.ece.utk.edu/

Other Wireless Classes

Wireless Classes at Stanford and other Wireless Classes Links, Stanford (Prof. Andrea Goldsmith), http://www.stanford.edu/class/ee359/
Wireless Broadband Networks Class, RPI (Prof. Shivkumar Kalyanaraman), http://www.ecse.rpi.edu/Homepages/shivkuma/
Short course on Fundamental to Wireless (Prof. David Tse), http://www.jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=550
Wireless Classes, Berkeley (Prof. David Tse), http://inst.eecs.berkeley.edu/~ee224b/sp06
Wireless Communication, UTexas (Prof. Ted Rappaport), http://users.ece.utexas.edu/~wireless/classes.php
Wireless Classes, Washington University (Prof. Raj Jain), http://www.cse.wustl.edu/~jain/
Protocol and Systems Design for Wireless Mobile Networks, UCLA (Prof. Songwu Lu), http://www.cs.ucla.edu/classes/fall03/cs211/
Other resource of William Stallings text book, http://williamstallings.com/Wireless1e.htmL

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