Searching Bear amidst Plum Blossom

<A Sketch of Memorable Graphics>

(Log-out ID: 1991300703 => Xmas1999)

(Computer – Communications – Security)

KW Lee Subject Pool (6/40) at MysEnVarsity

Member ([IEEE-US], (ACM-US), BEM-MY, (IEM-MY), (IAENG-HK), IACSIT-SG)

(近打区[Kampar] – 旄马海口[Bukit Beruang] – 基山山径[Api-Api])

| Personal MMU URL | Personal URL | Publication URL | Lecturership | Teaching URL | Schedule | Survey Study |

| (Malaysia Gov: Malim Sarjana) | (MMU Directory of Expertise) | MMU Webmail |

| Roles@MysEnVarsity | Account Clearance at an 18-years-old British Varsity[MYS English Dictionary] | Drawn Ferry |

| Field Seaport & Ferry/Fellowship Captain | Book Keeping of Taught Subjects | Schedule | Subject Pool Licenses[40:6] |

>> Past (Participle) Tenses <<

kwlee Teaching URL (Teaching Notes Platform) & (Year-Ended Accounts)

Faculty of Engineering & Technology (FET), MMU - Melaka Campus

MMLS Melaka Online Lecture Note : http://mmlsmelaka.mmu.edu.my

MMLS Cyberjaya Online Lecture Note : http://mmlscyber.mmu.edu.my

MMLS Email Enquiry : MMLS.Admin@mmu.edu.my

Teaching Notes Platform (25Mar2013): http://mmls.mmu.edu.my

Contact (technical problem): itsdsupport@mmu.edu.my

kwlee Subject Pool Licenses (6/40) URL

(six degree holders outside varsity main doors & (34++, 120) inside KW Lee’s math. pocket)[WITHIN career fields called Computer Quintet(6 Fields)]

Faculty of Engineering & Technology (FET), UTSB-MMU at Melaka Campus

Six-Field Legal Entity (covert type): IEE/IET the British Academy [Creditor on Varsity Systematic Provider] (Present Tense)

Eight-Field e-Life Entity (overt type): IEEE the American Academy [Creditor on e-Varsity Bachelor Textbook Provider] (Future Tense)

Schedule to check up: Schedule.htm

[43] EEM1026 Engineering Mathematics II (3 Credits) Beta Year (Semester 55? 50!)

2nd Semester/ Trimester 21 October 2013 - 16 March 2014

Lecture: LEMddd (replaced)? YES, KW Lee was not getting even a single teaching project.

Tutorial: TEMdddc (replaced)? YES, like above.

Lecture / Tutorial: None.

Subject Coordinator: No.

#Lecturers = 3! + 2?

#Student(lecture) = 150?

#Student(tutorial) = 30?

Scroll down using keyword search for more details…

I. Taught Subjects at Bachelor Degree Level (May 1999 – October 2013)

© Copyright June 2011 – 21 October 2013. Kok-Wah LEE @ Xpree Li. All rights reserved.

Kok-Wah Lee’s Roles (from June 2003 to now March 2013) {

as a Lecturer for subjects on C/C++ languages; data structures & algorithms; assembly language of 8-bit computer; & control engineering.

as a Scholar (over this embedded notes here from Parts A to D), Entrepreneur (outside the UTSB/ MMU University), etc.

UTSB: Universiti Telekom Sdn. Bhd.

Sdn. Bhd.: (Malayan language) private limited.

}

Part A: According to the major/ minor/ normal fields of a knowledge area called ELECTRICAL ENGINEERING.

Major / Minor / Normal Field

(A major subject group >= 20 credit hours) (A minor subject group >= 10 credit hours) {

Subject Name (Lecture (L) / Tutorial (T) / Laboratory (lab) / Moderation of exam paper (M) / Teaching Materials (TM) - Frequency)

}

Mathematics (Pure Mathematics, Statistics, Finite Mathematics, Applied Mathematics) {

Engineering Mathematics II (: Statistics / Matrices & Determinants / Ordinary Differential Equations (ODE) / Integral Transform / Partial Differential Equations (PDE)) (L0 + T0) + Current(L1 + T1)

Engineering Mathematics III (: Multiple integral / Vector calculus / Further matrice / Numerical method) (L1 + T1)

Engineering Mathematics IV (: Operations research / Complex variable / Random variable / Stochastic process) (T1)

}

Power Engineering (DC – Direct Current, AC – Alternating Current [50 Hz / 60 Hz] ) {

}

Telecommunication (Analogue Communications, Digital Communications, Noise Filtering, Data) {

Data Communications & Computer Networking (T2 + lab1)

Communications I (: Analog communications) (T1)

ATM Theory, ATM Enterprise Core Products & Edge Products Training (TM1) (L2)

Analog Communications (T1)

Multimedia Technology and Applications (L2 + T2)

Communication Networks (lab1)

}

Electromagnetics (Free Space, Channel Guided / Waveguide) {

Field Theory (: Fundamental of electromagnetism) (T3)

Electromagnetic Theory I (: Wireless & Wire-line EM Fields) (T2)

}

Control Engineering (Mathematical / Physical / Chemical / Biological / Bio-Chemical / Social Controllers, Noise Filtering),

(Mathematical Controllers: Financial, Computer, AI), (Physical Controllers: Mechanical, Electrical, Electronic), (Hybrid (e.g. mechatronics) Controllers) {

Circuit Theory (T2)

Instrumentation & Control Systems (T1)

Control Theory (T1: BEM/IEM Paper)

Control Theory/Engineering (L0 + T1)

}

Electronics / Circuit Design (milli-meter scale) / Chip Design [Micro-Electronics / Nano-Electronics]

(Electronic Components, Circuits, Logic Gates / TTL [Transistor-Transistor Logics], Devices, Chips, Systems) {

Electronics II (: Small electronic devices like amplifiers/switching circuits) (T2)

Communications Electronics (L1 + T1)

}

Computer (Computer Hardware, Software, Firmware, Data [Multimedia], Database, System, Network / Networks / Networked Systems) {

Digital Logic Design (T2)

Algorithms & Data Structures (L2 + T3)

Operating Systems (T1)

Microprocessor Systems and Interfacing (L2 + T2)

Computer Organization and Architecture (T2)

Computer and Program Design (C language) (L3 + T3)

Computer Programming (C language) (L5 + T5)

Object Oriented Programming with C++ (TM1) (L4 + T4)

}

AI (Artificial Intelligence), aka CI (Computational Intelligence),

(Expert System, ANN – Artificial Neural Networks, FL – Fuzzy Logics, GA / EC – Genetic Algorithms / Evolutionary Computation) {

Knowledge System and Neural Computing (M2)

}

Electrical / Electronic / Computer Systems (a combination of a few major/minor fields in electrical engineering to form a working system),

(Computer Science, IT [Information Technology], Network Engineering, Bio-medical Engineering, Bio-Informatics) {

}

Business-type Licenses under K.-W. Lee’s Licensing & Self-Management

(19Jun2013). (K.-W. Lee’s loaded number of commercial licenses (i.e. business-type and not company-type yet)) {

E&OE+E

[1] Conditions: Since K.-W. Lee is a university lecturer on 01Jan2004; when he is at pre-40-year-old time period; and whenever his taught subjects are not his selected core subjects to be sharpened in future for specialization skills and commercial purposes.

[2] Number of taught subject frequencies not selected by K.-W. Lee as skillful subjects = Miscellanceous(6)

[3] Taught subjects and their frequencies selected by K.-W. Lee as skillful subjects = C_language(8) + C++_language(4)

[4] Taught subjects and their frequencies selected by K.-W. Lee as potentially adjacent subjects = DataStructures&Algorithms(2)

[5] Total business-type licenses under K.-W. Lee’s profiles shall be capped at 20 units per skillful subject selected.

[6] Total weighted business-type licenses (BTL) under K.-W. Lee’s profiles (regardless of varsities or campuses) (dated 19Jun2013)

= (2 users) * [ misc(6 * 0.1) + skillfulSubject(8 * 1.0 + 4 * 1.0) + DSA(2 * 0.3) ] / (2 subjects)

= 2 * 13.2 / 2

= 13.2 units of BTL

IF_WHEN n > 20 BTL, THEN CTL = (n – 20);

[7] Once more than 20 license units per skillful subject being released, then the license type of further licenses will have moved out from the partnership domain, and will start entering the company-type license (CTL) domain.

[8] From a university lecturer to a full professor to survive over the company-type license units, one has to own sufficiently rich MONEY-type copyrighted article(s), like journals, conference proceedings, etc., for cross licensing with the other owners of the taught subject syllabus, whenever the solution models of the copyrighted subject are not yet in public domain in a particular geo-political region.

[9] Once a university lecturer has rich money-type copyrighted article(s) to do CROSS LICENSING with the OTHER RESEARCHER(S), one may consider to increase the BTL/CTL per subject per semester to more than two (2) students or undergraduates, such like for a C++ Language subject in a semester to have increased the BTL/CTL to four (4) units.

[10] Take Care! That’s all so far! Anyone else would like to CALL OUT/ UP any solution model(s) from the research databases.

}

Balance Account on Money-type Solution Models under K.-W. Lee’s Licensing & Self-Management [on His Lecturer Job Salary ONLY]

(20-28Jun & 30-31Jul 2013). (K.-W. Lee as Money-type Accountant here.) {

© June 2013. K.W. Lee @ Xpree Li. All rights reserved.

E&OE+E

Image: SGPool_Fig1.png

Notes:

[1] BTL = Business-Type License; where once BTL > 20, then CTL (Company-Type License) emerges whenever there exists human group cooperation or acquisition via cash by listed public company.

[2] SMU = Solution Model Unit in research databases, such as patent, copyright, university thesis.

[3a] IASTED-ICET-2005-CA => K.W. Lee (as originator & author), “Semantic Error Occurrences in the Multimedia Communications”, Proceedings of the IASTED International Conference on Education and Technology 2005 (IASTED-ICET 2005), Calgary, Alberta, Canada, pp. 227-231, 4-6 July 2005. ISBN: 0-88986-487-X, Publisher: ACTA Press, Anaheim (CA, USA), Calgary (Alberta, Canada), & Zurich (Switzerland). [Download from ACTA Press] [Download here]

[3b] IEEE-CISW-2007-CN => Kok-Wah Lee (as originator & author), Hong-Tat Ewe (as UTSB-MMU-FIT Dean), “Passphrase with Semantic Noises and a Proof on Its Higher Information Rate”, Proceedings of the International Conference on Computational Intelligence and Security Workshops 2007 (CISW 2007), Harbin, Heilongjiang, China, pp. 652-655, 15-19 December, 2007. ISBN: 978-0-7695-3073-4, Publisher: IEEE, Piscataway, NJ, USA. [Download from IEEE Xplore Database] [Download here]

[3c] IEEE-CIS-2006-CN => Kok-Wah Lee (as originator & author), Hong-Tat Ewe (as UTSB-MMU-FIT Dean), “Coinware for Multilingual Passphrase Generation and Its Application for Chinese Language Password”, Proceedings of the 2006 International Conference on Computational Intelligence and Security (CIS 2006), Guangzhou, Guangdong, China, pp. 1511-1514 (Part 2), 3-6 November 2006. ISBN: 1-4244-0604-8, Publisher: IEEE, Piscataway, NJ, USA. [Download from IEEE Xplore Database] [Download here]

[3d] (30Jul2013). UTSB-MMU-M2USIC-2003-MY => Kok-Wah Lee (as originator & author), Hong-Tat Ewe (as UTSB-MMU-FIT Dean), "Faulty Node Detection in the Tripartite ANN based BAP”, Proceedings of the MMU International Symposium on Information and Communications Technologies 2003 (MMU-M2USIC 2003), Petaling Jaya, Selangor, Malaysia, TS 3A-2, pp. 45-48, 2-3 October 2003. Publisher: Multimedia University (MMU), Cyberjaya & Melaka, Malaysia. [Download here from XpreeLi.com]

[3e] In Chinese Chess aka Xiangqi (CN: 中国象棋), there is a special martial art called MaQianZu (CN: 马前卒), wherein English language is called “A Pawn in front of a Knight”. XKW Lee’s SMU tagged as UTSB-MMU-M2USIC-2003-MY is a Frontline Pawn Piece assisting a Backyard Knight Piece to PROCEED FORWARDS to the Enemy Headquarter(s) (HQ).

[4a] UTSB-MMU-FET => Universit Telekom Sdn. Bhd. | Multimedia University | Faculty of Engineering & Technology.

[4b] UTSB-MMU-FIT => Universit Telekom Sdn. Bhd. | Multimedia University | Faculty of Information Technology.

[5a] By Courtesy of UM Main Library => because of KWLee’s article-2 @ Conference IEEE-CISW-2007 has a then cited article, unavailable in the Internet and general research e-databases; but the article by C.E. Shannon on printed English letter frequencies in its offline and paper form is available at UM, Kuala Lumpur, Malaysia; from where K.-W. Lee the Researcher & Outsider of UM Library Membership managed to search out and obtain a duplicated copy.

[5b] UM = University of Malaya, Kuala Lumpur, Malaysia.

[6a] (24Jun2013). On the top few layers of the human pyramid hierarchy for a specific career field, the relevant experts may and shall obey the rules of BARTER SYSTEM to exchange or do cross licensing on one’s SMU pool set, in elementUnit(1, 2, 4, 8, etc.), so as to form a university subject weighing at least 1 credit hour (or one-hour lecture per week for 10 weeks in one semester).

[6b] Thus, it is not easy but rather demanding to travel up to and to stay longingly in the professorship or lecturership of the paradise domain.

[6c] For instance, say 16-SMU persons (from the ONE to eight heads) cooperate as originator, referee, and salesman/promoter; to form two subjects each having eight chapters; then each SMU individual teaches those two subjects in eight different university faculties, and each subject opens at least two BTL licenses to two undergraduate students per semester; whereby coming to here we can know that annual cash income of each SMU individual as university lecturer is the cash value of four BTL from four students per academic year.

[7a] (25-28Jun2013). An SMU may consist of first theoretical part, and second part as application example or sample case, or either one only.

[7b] On SMU cash value per user license for commercial usages:

[8a] For BTL or CTL in British university, one SMU for one subject chapter is convertible to 1-time cash basis at about MYR$10,000 per student user.

[8b] For BTL or CTL at Liverpool U the British university in GB/UK, two connectable SMUs, as two chapters in one subject, are convertible to 5-time cash basis at about MYR$50,000 per student user.

[8c] For BTL or CTL in European university (?), two connectable SMUs, as two chapters bridging between two separate subjects, are convertible to 10/11-time (?) cash basis at about MYR$(100k or 110k) per student user license.

[8d] (28Jun2013). For BTL or CTL in American university (?), three connectable SMUs, as three chapters in one subject, are convertible to 30-time (?) cash basis at about MYR$300k per user license.

[8e] (28Jun2013). For BTL or CTL in American university, three connectable SMUs, as three chapters bridging between three separate subjects, are convertible to 300-time (?) cash basis at about MYR$3m (or ~= USD$1m) per user license.

[8f] (30Jul2013). For BTL or CTL in ChangJiang Casinos (CN: 长江赌局) amidst Chinese Jianghu (中华江湖) (?), four connectable SMUs, as four chapters in one subject, are convertible to 360-time (?) cash basis at about MYR$3.6m per user license.

[8g] (30Jul2013). For BTL or CTL in ChangJiang Casinos (CN: 长江赌局) amidst Chinese Jianghu (中华江湖) (?), four connectable SMUs, as four chapters bridging between four separate subjects, are convertible to 5400-time (?) cash basis at about MYR$54m (or ~= USD$18m taxable off 40% to USD$10.8m as net cash profit) per user license.

[9] In case a business-type partnership or company-type private/public company is involved, and dominant shareholders require official minutes recorded from a committee inside the partnership or company, then this committee must consist of at least six (6) natural humans, and thus the factor of human group bypassing the threshold to compulsory minutes recorded give another multiplicative gearing ratio of six times on the SMU cash value per user license for commercial usages.

Independence Status away from Cash Incomes by Calling up the Monetary Units

under K.-W. Lee’s Licensing & Self-Management [on His SMU Money to balance the cash incomes from His Lecturer Job Salary]

(04Jul2013). (K.-W. Lee as a cash-money Jury here.) {

© July 2013. K.W. Lee @ Xpree Li. All rights reserved.

E&OE+E

[1] (04Jul2013). Since year 1776 till at least today, every year on this day July the 4th is the Independence Day of United States of America (USA/US).

[2] This day is chosen because day June the 30th is the last day for a commercial entity, either business or company, to report one’s commercial income(s) before any offence penalty will be imposed on the guilty person.

[3] YES! It is IMPOSITION on a punishment escaper due to the appearance of someone’s similar face or name.

[4] XKW Lee’s provided keywords here are: forex (foreign exchange), monetary unit, money, states/provinces, partnership, cash, separation, integration.

[5] State of cash-money balance is achieved whenever the total cash incomes received, can be fully settled by a money-type solution model, i.e. SMU unit(s), in equivalent cash value, lottery hit rate, or jackpot chances.

[6] Whenever SMU money value is more than the cash income value (money > cash), then the employer-employee relationship may and will be reversed.

[7] In the research world, whenever excessive cash has been received, we have futures market for master’s degree, Ph.D. degree the normal doctorate, Sc.D. degree the higher doctorate, and introducer-type fellowship.

[8] In case those researchers’ playing SMU futures encounter investment failure, then none of them can be avoided from searching out, being an sub-ordinate, and obeying to an ACTUAL FELLOW and the actual fellowship.

[9] For those researchers’ failed in playing SMU futures, whenever an actual fellowship is found, a futures-failed researcher normally will try as hard as possible to get one’s invention bridged to the actual fellowship, and patent granted for a protection period of 20 years.

[10] Once a futures-failed researcher obtains patent, then on the factor of patents law, its monopoly rights grant the unfortunate one the rights to price one’s SMU at six times (6x) faster the depreciation time rate, which means the SMU selling, leasing, rental or royalty rate, can be maximally at six (6) times the normal price per human head.

[11] In other words, considering the factor of human group for at least six (6) persons, and factor of patents law for six (6) times faster the depreciation rate of one’s commercial rights, then it is 36 (= 6 * 6) times, which can give the futures-failed researcher higher chances to get rid of the employment debt on an actual fellowship.

[12] YES! Six times on the time factor; and six times on the human group factor.

[13] NO WAY ELSE! This rate at 36 times is the final hope or ultimatum for a futures-failed researcher to get rid of slave-like employment or slavery, as quickly the rate as possible, as in analogy with the Japanese Chess or Shogi, because getting a third factor of strategic land at maximally six (6) times, will become 666 meaning the Devil’s 3-digit number.

[14] On the Shogi chessboard, each side has 18 regular pieces and 2 super-powerful pieces respectively, where either side in smart moves can sometimes capture up to 36 servant pieces on single side.

[15] After time factor and human group factor, it is a serious warning by XKW Lee here that factor of strategic land cannot be considered at all, as an overall collection of highly profitable commercial products, because triple SIX (666) means DEVIL in the Christianity.

[16] Who, to Whom, and by Whose, will be able to pay up to 216 (= 6 * 6 * 6) times of the basic entry price level???!!!???

[17] Do use one’s time tokens, money tokens, and cash tokens smartly!

[18] Time token has a strange age value at 70 years; money token has memory limit; and cash token has freedom-safety trade-offs.

}

Part B: According to the major/ minor/ normal fields of a knowledge area called MECHANICAL ENGINEERING.

© Copyright March 2012 – March 2013. Kok-Wah LEE @ Xpree Li. All rights reserved.

Major / Minor / Normal Field {

Subject Name (Lecture (L) / Tutorial (T) / Laboratory (lab) / Moderation of exam paper (M) / Teaching Materials (TM) - Frequency)

}

Mathematics (Pure Mathematics, Statistics, Finite Mathematics, Applied Mathematics) {

Engineering Mathematics III (: Multiple integral / Vector calculus / Further matrice / Numerical method) (refer to Part A on Electrical)

Engineering Mathematics IV (: Operations research / Complex variable / Random variable / Stochastic process) (refer to Part A on Electrical)

}

Control Engineering (Mathematical / Physical / Chemical / Biological / Bio-Chemical / Social Controllers, Noise Filtering),

(Mathematical Controllers: Financial, Computer, AI), (Physical Controllers: Mechanical, Electrical, Electronic), (Hybrid (e.g. mechatronics) Controllers) {

Circuit Theory (refer to Part A on Electrical)

Instrumentation & Control Systems (refer to Part A on Electrical)

Control Theory (refer to Part A on Electrical)

}

Mechanics (Solid Mechanics, Fluid Mechanics),

(Hydraulics [Pressurized Liquid], Pneumatics [Pressurized Gas]) {

}

Heat Science / Thermal Science (Conduction, Convection, Radiation),

(Normal Scale, Macroscopic Scale, Microscopic Scale), (Paper Calculation, Computer Calculation) {

}

Mechatronics / Robotics (Mechanics, Control Engineering, Computer) {

}

Engineering Drawing (By Hand Tools, By Computer) {

}

Materials Science (Physical Chemistry, Inorganic Chemistry, Organic Chemistry, Analytic Chemistry) {

}

Manufacturing Engineering / Industrial Engineering (Factory Process [Assembly Line], Process Optimization, Precision Engineering) {

}

Mechanical Systems (a combination of a few major/minor fields in mechanical engineering to form a working system),

(Automotive Technology, Shipbuilding Technology, Aerospace Engineering [Aeronautical, Astronautical], Weaponry, Nuclear Engineering) {

}

Part C: Enquiry on the Needs for Further Studies at Master’s degree level, either by COURSEWORK or by RESEARCH, or even further to normal doctorate (i.e. Ph.D. degree) level

© Copyright 04 May 2012 – 19 October 2012. Kok-Wah LEE @ Xpree Li. All rights reserved.

At the bachelor degree level, do you feel confusing about so many flowering subjects about/over 40 in the major/minor/normal fields of knowledge?

Then, to save my time and effort to repeatedly explain the more-or-less alike the same story, please follow a few sentences at about 10 to 20, or about 300 words, as follows here.

From the major/ minor/ normal fields one has studied at bachelor degree level, then during one’s working time for full-time or part-time career, please try to pick up a few learnt subjects from the schools, and to-be-learnt subjects from the bookshops and libraries, into a set of knowledge subject, so as to form a working system based on one’s interests, abilities, and available resources.

There is an Internet idiom saying that: “To live one year in the Internet silicon world is equivalent with seven years living in the physical carbon world.”

At master’s degree by coursework level, we learn to handle and manage a working system. For example, the MBA (Master in Business Administration) degree let one to learn how to manage a human group systemically. Thus, getting firstly a full-time and/or part-time job, or project title and direction, so as to collect or earn working experience, will enable one to know what knowledge subjects that one is in need for actually to form a set of knowledge subjects towards a working system. In short, get a bachelor degree, and then work first to know what working system one will plan to form. Around the core, one needs supports.

The names of the major/ minor/ normal fields are the road signs for one planning to form a working system for oneself.

At master’s degree by research level or even higher at Ph.D. or normal doctorate level, one shall know that it is very risky to invest the golden times of two to seven years per research project, when one is young and energetic to climb the corporate ladder in one’s working career. Let me telling you a truth here. To do research is to compete globally on Earth planet for the time mainly. The time here always means the fastest time of completion. Then, other competing arenas are usable/useful information, experimental equipment set, experts’ guidance, etc.

(19Oct2012). Nevertheless, do be reminded that in western university degree system, the highest degree award is higher doctorate degree, aka Habilitation degree. In art stream, it is called Doctor of Letters; whereas in science stream, it is called Doctor of Science (Sc.D.). According to the statistics in USA and Europe, a talented person, who does research continuously, obtains this honor at the age of 50 years old in average. HIGHER DOCTORATE degree is very close to a scholar’s summit in the scholastic domain, whose seat is called FELLOW in well-known and widely recognized SCHOLASTIC ACADEMY, especially national and international types. Here, an established scholastic academy, full with talented persons, can enable the establishment of a school, college, varsity, or even university. To qualify for a higher doctorate degree, one has to do and to succeed in “field (land) formation”. For example, the subject on “gravity forces” is a knowledge field, formed by (Sir) Isaac Newton from United Kingdom (UK) circa year 1700 AD.

Part D: Special Case from Kok-Wah Lee as an Academic Lecturer in the Knowledge Area of ELECTRICAL ENGINEERING.

© Copyright 13 June 2012 – 14 June 2012. Kok-Wah LEE @ Xpree Li. All rights reserved.

Major / Minor / Normal Field

(A major subject group >= 20 credit hours) (A minor subject group >= 10 credit hours).

K.W. Lee’s offered subject groups for teaching as a major field is Computer, and as a minor field is Telecommunication.

A full professor is responsible for a major field of subject group; whereas an associate professor is responsible for a minor field of subject group.

K.W. Lee’s academic job title at MMU is a LECTURER, so he is only needed to be responsible for one to two subjects, or an undergraduate student’s tuition fee per year.

For the major field in computer (or computer system), the global topmost leading companies in this arena of career till June 2012 were as follows:

[0] Computer Component the Component Field Type: Company Name (Country locating the Physical Headquarter).

[1] CPU the Hardware: IBM Corporation (US), Intel Corporation (US), AMD Incorporated (US).

[2] OS the Software: Microsoft Corporation (US), Apple Computer Incorporated (US), Linux Foundation (US, JP, KR).

[3] DB the (Data Structure / Memory): Oracle Corporation (US), Google Incorporated (US), Yahoo! Incorporated (US), Facebook Incorporated (US), Baidu Incorporated (CN).

[4] I/O the Device: Various electronic/magnetic/optical/mechanical device types allocated to multiple companies located in multiple countries.

N.B. (Nota Bene):

CPU = Central Processing Unit

OS = Operating System

DB = Database

I/O = Input/Output

II. KW Lee’s Lecturership (December 2007 – August 2013)

Part A: Kok-Wah Lee’s Lecturership in the Knowledge Focus of (subject name):

(general name) Cryptology in HCI Network Security & Electronic Commerce;

(particular name) Data-Fed ANN based BAP.

© Copyright 05 August 2013 – 05 August 2013. Kok-Wah LEE @ Xpree Li. All rights reserved.

[1] KW Lee called his Log-out ID at UTSB-MMU-(FOE / FET): 1991300703 (UTSB-MMU Master Student ID)

For further enquiries within UTSB-MMU at Melaka campus, one is asked by KW Lee to refer to his another webpage on His Lecturership. <Click here>

[44] ECCdddd Number Theory to Keep a Brain (3 Credits) Gamma Year (Semester 56? 51!)

(up to 4 chapters or total 48 equations; capped at 4*0.5 GB (Gold Bucket) value)

3rd Semester/ Trimester 17 March 2014 - 01 June 2014

K.W. Lee’s job scope: Lecturer, tutor, lab demonstrator, consultant, examiner, admin officer, etc.

Lecture: LEMddd (withdrawn)? YES, KW Lee as UTSB-MMU-FE Lecturer would take only one to two subjects per academic year, totaled to four (4) licenses.

Tutorial: TEMdddc (withdrawn? YES, like above.

Lecture / Tutorial: None.

2014Jun30: Last Turn of Lecturership Shipment at MysEnVarsity due to NOT SIGN-UP Consultant Service Contract by both parties.

[43] EEM1026 Engineering Mathematics II (3 Credits) Beta Year (Semester 55? 50!)

2nd Semester/ Trimester 21 October 2013 - 16 March 2014

Lecture: LEMddd (replaced)? YES, KW Lee was not getting even a single teaching project.

Tutorial: TEMdddc (replaced)? YES, like above.

Lecture / Tutorial: None.

Subject Coordinator: No.

#Lecturers = 3! + 2?

#Student(lecture) = 150?

#Student(tutorial) = 30?

Passing Rate (Exam-1): ?

Statistical Analysis (Exam-1): ?

Passing Rate (Exam-2): ?

Compensation Cash or Penalty Cash

[1a] (21Oct2013: Week-1). Football Game:> Tournament Matching (0.25% work progress on initial planning): Pending Cash Penalty (XKW Lee the Engineering Mathematics Lecturer *1 : RB Besar the FET Dean *3 *#OldRecords)(30Sep-20Oct 2013) = MYR$50 : (MYR$150 *#rec)

[1b] (22Oct2013). Football Game:> Kick-Off (10% work progress on class started): Pending Cash Penalty (XKW Lee the Engineering Mathematics Lecturer *3 : RB Besar the FET Dean *11 *#OldRecords)(30Sep-20Oct-21Oct 2013) = (MYR$1500 + NOT::$500) : ((MYR$5500 + NOT::$500) *#rec)

[1c] Football Game:> Bi-weekly Sessions (added 10% work progress on every bi-week up to 90%): How do the Penalties carry on???

[1d] Football Game:> Examinations (final 10% work progress on overall examinations): How do the Penalties carry on???

[1e] Ending Cash Penalty on Faulty Person’s Final Decision = (Multiplier of #InvolvedPersons) will be added.

[1f] (14Nov2013: Week-4). Final Football Match (1 against 3): KW Lee the Lecturer (M$2000 FINE) >> vs. << Rosli Besar the FET Dean (M$6000 FINE).

[2a] Total Cash Penalty shall be released to the football game winner(s) in the Share Options format convertible to Ordinary Share Units at paid-up capital price.

[2b] An employee getting his compensation cash in share option format, has an option to convert to ordinary share units, and then sells the normal shares to exchange one’s monetary values executed inside the company during a football game with the cash difference between paid-up capital price and share market price.

[2c] Subsequently, the game winner’s monetary values are then officially part of the issued share price, whereby the total convertible share options added with the paid-up share capital units cannot be more than the issued share capital, i.e.:

(Issued Share Capital) >= (Paid-up Share Capital) + (Convertible Share Options as Compensation Cash to All Employees).

[2d] In short, relationships among the employees, management teams, and directors’ board in a company, are convertible to become the company asset, via the government approved pool of issued share capital.

Prerequisite for Assignment: Basics of C Language (Compiler: Microsoft Visual C++ Express Edition)

Lab: EEM 1026 A numerical method to implement PDE (Choose only one: Wave; Heat transfer; or Laplace/Poisson equations).

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Semester 55)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

[42] ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Semester 54)

1st Semester/ Trimester 03 June 2013 - 20 October 2013

K.W. Lee’s job scope: Gray Author, C&C (Computer & Communications) Engineer, Lecturer, tutor, lab demonstrator, consultant, Examiner, admin officer, etc.

Lecture: LEM411 (Mon. 10.00am – 12.00nn @ FSER3015) (Thu. 03.00pm – 04.00pm @ FSER3014).

Tutorial: TEM411A (Wed. 05.00pm - 07.00pm @ L4/004). L4/004 is the room number for FET Microprocessor Lab on the 4th Floor.

Lecture / Tutorial: None.

Subject Coordinator: Yes.

#Student = 29 28

Quota Range for #BachelorStudents to do commercial usage = 2-20 (minimum 2, and if more demand, then outside negotiation).

#License(a subject on C++ language) to be released in Y1314S1 = 4 (FOUR)

[Note: Not ONE (1) to remove Singularity. Not ZERO (0) to remove Nuisance of Infinity. Not More Than Twenty (>20) to remove Off-set Condition so as to keep a Partnership alive, and not yet to form a (non-listed or listed) Private/Public Limited Company to avoid a management loophole called RED TAPE.]

Registered Students = 30; Drop-outs = 2.

Passing Rate (Exam-1): 28/28 = 100.00%; mean = 57.98 marks;

Statistical Analysis (Exam-1): sigma = 5.04 marks; 68% Range (52.94 to 63.02 marks); 95% Range (67.90 to 68.06 marks).

Passing Rate (Exam-2): No need.

Compensation Cash or Penalty Cash

[1a] (22Oct2013). Pending Cash Penalty (XKW Lee the C++ Language Examiner *3 : RB Besar the FET Dean *11)(13May-03Jun-21Oct 2013) = MYR$15,000 : MYR$55,000

[1b] (22Oct2013). Ending Cash Penalty on Faulty Person’s Final Decision = MYR$5,000 will be added.

[1c] (28Oct2013). Final Message at XKW Lee’s side was that RB Besar the FET Dean made mistake series, to have TRESPASSED the valuable final exam questions belonging to the Q&A owner.

[1d] (28Oct2013). Thus, putting aside the monetary matters first, XKW Lee claims penalty cash at MYR$60,000/=, on RB Besar the FET Dean for his mistakes on examination procedures, multipliable on RB Besar’s collectively similar mistake previously done, maximally capped at a punishment on changing the database, such like resignation from the job position.

[2a] (22Oct2013). Total Cash Penalty shall be released to the football winner(s) in the Share Options format convertible to Ordinary Share Units at paid-up capital price.

ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Semester 54)

Lab: ECP 4206 Object Oriented Programming with C++.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Semester 54)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

(Dated 21May2013). For an engineering bachelor degree at UTSB-MMU FET within the British University Degree System:

[1] Study fees (Batch Year 2011/2012, 139 credit hours) = MYR$50,000 (local Malaysian); MYR$62,500 (foreigner to Malaysia).

[2] Study fees (Batch Year 2012/2013, 139 credit hours) = MYR$60,000 (local Malaysian); MYR$75,000 (foreigner to Malaysia).

[3] Upon completion of a bachelor degree, FIVE (5) YEARS are estimated to earn enough SKILLS in at least ONE (1) subject.

[4] For study fee of bachelor degree at about MYR$60,000 per student head, MAXIMUM TWO subjects can be sharpened for commercial usages.

[5] When using more than two (>2) subjects for commercial usages, a graduate may subject to cash donation, upon fund raising from the university management, or gray author(s) of that subject book, or the Father/Founder of that particular subject.

[6] Others, if any.

MMU (Multimedia University) is a trade name branded by UTSB (Universiti Telekom Sdn. Bhd.).

FET (Faculty of Engineering & Technology), Melaka Campus

[41] EPM2036 Control Theory (3 Credits) Gamma Year (Semester 53)

3rd Semester/ Trimester 11 March 2013 - 02 June 2013

K.W. Lee’s job scope: Lecturer, tutor, lab demonstrator, consultant, examiner, admin officer, etc.

Lecture: None.

Tutorial: 5-6 weeks.

TEM201C (Thu. 10.00 - 11.55 am @ FSER5022).

TEM202C (Fri. 05.00 - 06.55 pm @ ACR1001).

Lecture / Tutorial: None.

Assignment: Two tutorial groups.

Subject Coordinator: No.

#Student(lecture) = 0

#Student(tutorial)(estimation) = 180/7 ~= 30?

#Student(tutorial)(actual) = (16+16) ~= 32!

EPM2036 Control Theory (3 Credits) Gamma Year (Semester 53)

Lab: EPM2036 Control Theory. One (1) lab session for three hours.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Semester 53)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

[40] ECP1036 Computer Programming (3 Credits) Beta Year (Semester 52)

2nd Semester/ Trimester 22 October 2012 - 10 March 2013

Lecture: LEM112 (Mon. 8.00 – 8.55 am @ CLCR2007) (Wed. 8.00 – 9.55 am @ Studio B).

Tutorial: TEM112A (Thu. 01.00 - 02.55 pm @ CDESN).

- CDESN: Computer Design Lab.

Lecture / Tutorial: None.

Subject Coordinator: Yes.

#Student(lecture) = 4

#Student(tutorial) = 4

Passing Rate (Exam-1): 4/4 = 100.00%; mean = 58.65 marks;

Statistical Analysis (Exam-1): sigma = 2.24 marks; 68% Range (56.41 to 60.89 marks); 95% Range (54.17 to 63.13 marks).

Passing Rate (Exam-2): No need.

ECP1036 Computer Programming (3 Credits) Beta Year (Semester 52)

Lab: ECP 1036 Computer Programming.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Semester 52)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

[39] ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Semester 51)

1st Semester/ Trimester 04 June 2012 - 21 October 2012

Lecture: LEM322 (Mon. 12.00 pm – 01.55 pm @ CLCR3007) (Wed. 01.00 – 01.55 pm @ CLCR3005).

Tutorial: TEM322A (Thu. 05.00 - 06.55 pm @ L3/004). L3/004 is the room number for FET Computer Lab 1.

Lecture / Tutorial: None.

Subject Coordinator: Yes.

#Student = 11

Passing Rate (Exam-1): 9/10 = 90.00%; mean = 59.21 marks;

Statistical Analysis (Exam-1): sigma = 10.92 marks; 68% Range (48.29 to 70.13 marks); 95% Range (37.37 to 81.05 marks).

Passing Rate (Exam-2): 1 absent; 1 pass.

ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Semester 51)

Lab: ECP 4206 Object Oriented Programming with C++.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Semester 51)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

For an engineering bachelor degree at MMU FET:

Tuition fees (Batch Year 2011/2012, 139 credit hours) = MYR$50,000 (local Malaysian); MYR$62,500 (foreigner to Malaysia).

Tuition fees (Batch Year 2012/2013, 139 credit hours) = MYR$60,000 (local Malaysian); MYR$75,000 (foreigner to Malaysia).

MMU (Multimedia University)

FET (Faculty of Engineering & Technology), Melaka Campus

[38] ECP 2036 Microprocessor Systems and Interfacing (3 Credits) Gamma Year (Trimester 49)

3rd Trimester 12 March 2012 - 03 June 2012

K.W. Lee’s job scope: Lecturer, tutor, lab demonstrator, consultant, examiner, admin officer, etc.

Lecture: LEM207 (Mon. 12.00 - 01.55 p.m. @ CLCR2006) (Thu. 14.00 – 15.55 p.m. @ CLCR 3005) (Fri. 10.00 – 11.55 a.m. @ CLCR2007).

Tutorial: TEM207C (Thu. 10.00 - 11.55 a.m. @ CLCR3012).

Lecture / Tutorial: None.

Subject Coordinator: No.

Planned class size at a ratio of teacher to students (1 : 30).

#Student(lecture: plan) = 180/4 = 45 per lecturer?

#Student(tutorial: plan) = 180/6 = 30 per tutor?

#Student(lab: plan) = 2*180/9/5 = 8 per lab session?

#Student(lecture: actual LEM207) = 41

#Student(tutorial: actual TEM207C) = 4

ECP 2036 Microprocessor System and Interfacing (3 Credits) Gamma Year (Trimester 25)

Lab: MP1: Familiar with 8051 Trainer (3/9 sessions): [CBT Lab @ 4th Floor (Mon. 02.00 - 05.00 p.m.) (Wed. 9.00 – 12.00 nn) (Fri. 02.30 – 05.30 p.m.)];

MP2: Timing & Display (0/9 sessions): [CBT Lab @ 4th Floor (Mon. 02.00 - 05.00 p.m.) (Wed. 9.00 – 12.00 nn) (Fri. 02.30 – 05.30 p.m.)].

CBT (Computer based training)

[37] ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 48)

2nd Trimester 17 October 2011 - 04 March 2012

Lecture: LEM119 (Tue. 10.00 – 10.55 am @ FSER2016) (Thu. 10.00 – 11.55 am @ FSER3016).

Tutorial: TEM119A (Mon. 05.00 - 06.55 pm @ CL02).

Lecture / Tutorial: None.

Subject Coordinator: Yes.

#Student(lecture) = 11

#Student(tutorial) = 11

ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 48)

Lab: ECP 1036 Computer Programming.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Trimester 48)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

ECP3126 Knowledge System and Neural Computing (3 Credits) Delta Year (Trimester 48)

Exam Paper: Moderator of exam papers (final/supplementary questions & answers) –> 2 x 4 Qs.

[36] ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Trimester 47)

1st Trimester 06 June 2011 - 16 October 2011

Lecture: LEM320 (Wed. 04.00 – 04.55 pm @ FSER2016) (Thu. 10.00 – 11.55 am @ FSER2016).

Tutorial: TEM320A (Mon. 05.00 - 06.55 pm @ CDESN);

TEM320B (Thu. 05.00 - 06.55 pm @ L3/004).

Lecture / Tutorial: None.

Subject Coordinator: Yes.

#Student = 18

ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Trimester 47)

Lab: ECP 4206 Object Oriented Programming with C++.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Trimester 47)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

For an engineering bachelor degree at MMU FET:

Tuition fees (Year 2011/2012, 139 credit hours) = MYR$50,000 (local Malaysian); MYR$62,500 (foreigner to Malaysia).

MMU (Multimedia University)

FET (Faculty of Engineering & Technology), Melaka Campus

EXXNNNN Nil (3 Credits) Epsilon Year (Trimester 46)

3rd Trimester 07 March 2011 - 05 June 2011

Lecture: None.

Tutorial: None.

Lecture / Tutorial: None.

[35] ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 45)

2nd Trimester 18 October 2010 - 06 March 2011

Lecture: LEM111 (Wed. 9.00 – 10.55 am @ FSER2023) (Thu. 09.00 – 09.55 am @ ACR1006).

Tutorial: TEM111A (Mon. 12.00 - 01.55 pm @ CL02);

TEM111B (Tue. 02.00 - 03.55 pm @ CL02).

Lecture / Tutorial: None.

Subject Coordinator: Yes.

#Student = 27

ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 45)

Lab: ECP 1036 Computer Programming.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Trimester 45)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

ECP3126 Knowledge System and Neural Computing (3 Credits) Delta Year (Trimester 45)

Exam Paper: Moderator of exam papers (final/supplementary questions & answers) –> 2 x 5 Qs.

EXXNNNN Nil (3 Credits) Epsilon Year (Trimester 44)

Special Trimester 04 October 2010 - 17 October 2010

Lecture: None.

Tutorial: None.

Lecture / Tutorial: None.

[34] ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Trimester 43)

1st Trimester 07 June 2010 - 17 October 2010

Lecture: LEM322 (Mon. 5.00 – 06.55 pm @ CLCR2001) (Tue. 06.00 – 06.55 pm @ CLCR2002).

Tutorial: TEM322A (Mon. 10.00 - 11.55 am @ CDESN);

TEM322B (Wed. 04.00 - 05.55 pm @ CDESN).

Lecture / Tutorial: None.

Subject Coordinator: Yes.

#Student = 32

ECP4206 Object Oriented Programming with C++ (3 Credits) Delta Year (Trimester 43)

Lab: ECP 4206 Object Oriented Programming with C++.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Trimester 43)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

EPT4066 Industrial Training (5 Credits) Epsilon Year (Trimester 43)

Working committee: Member.

Presentation by Students: Examiner and moderator, as usual as in the past semesters.

[33] ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 42)

3rd Trimester 18 January 2010 - 06 June 2010

Lecture: LEM107 (Thu. 4.00 – 05.55 pm @ ACR1006) (Fri. 03.30 – 04.25 pm @ ACR1006).

Tutorial: TEM107A (Mon. 12.00 - 01.55 pm @ CL02);

TEM107B (Mon. 05.00 - 06.55 pm @ CL02).

Lecture / Tutorial: None.

Subject Coordinator: Yes.

ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 42)

Lab: ECP 1036 Computer Programming.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Trimester 42)

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

No subject taught. Epsilon Year (Trimester 41)

2nd Trimester 26 October 2009 - 17 January 2010

Lecture: Nil.

Tutorial: Nil.

Lecture / Tutorial: None.

EPT4046 Final Year Project (2*4 Credits) Epsilon Year (Trimester 41) as usual since academic year 2002/2003

Lab: Six undergraduate projects have been proposed for undergraduate student’s selection.

[32] ECP1016 Computer and Program Design (3 Credits) Beta Year (Trimester 40)

1st Trimester 15 June 2009 - 25 October 2009

Lecture: LEM107 (Tue. 8.00 – 09.55 am @ FBLR4022) (Fri. 05.30 – 06.25 pm @ FBLR4022);

LEM108 (Mon. 2.00 – 03.55 pm @ FBLR4022) (Fri. 04.30 – 05.25 pm @ FBLR4022).

Tutorial: TEM107B (Mon. 05.00 - 06.55 pm @ CDESN);

TEM107E (Wed. 05.00 - 06.55 pm @ CDESN).

Lecture / Tutorial: None.

ECP1016 Computer and Program Design (3 Credits) Beta Year (Trimester 40)

Lab: ECP 1016 Computer and Program Design.

[31] ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 39)

3rd Trimester 02 February 2009 - 14 June 2009

Lecture: LEM108 (Mon. 13.00 – 13.55 pm @ CLCR2007) (Wed. 12.00 – 13.55 pm @ FET4 CBT).

Tutorial: TEM108A (Tue. 13.00 – 13.55 pm @ CDESN);

TEM108B (Thu. 18.00 – 18.55 pm @ CDESN).

Lecture / Tutorial: None.

Subject Coordinator: Yes.

ECP1036 Computer Programming (3 Credits) Beta Year (Trimester 39)

Lab: ECP 1036 Computer Programming.

Computing Exercises.

Implementation of Semester System (Two Terms Annually) (Beginning from academicians without PhD degree) (Trimester 38)

Note (dated 14Mar2012): Seemed to be not actually enforced and back to the trimester system.

2nd Trimester 10 November 2008 - 01 February 2009

Lecture: Nil.

Tutorial: Nil.

Lecture / Tutorial: None.

Implementation of Semester System (Two Terms Annually) (Beginning from academicians without PhD degree) (Trimester 38)

Lab: Nil.

[30] ECP1016 Computer and Program Design (3 Credits) Beta Year (Trimester 37)

1st Trimester 16 June 2008 - 09 November 2008

Lecture: LEM107 (Tue. 8.00 – 09.55 am @ CLCR0001) (Fri. 03.30 – 04.25 pm @ CLCR0002);

LEM108 (Thu. 8.00 – 09.55 am @ CLCR0001) (Fri. 02.30 – 03.25 pm @ CLCR0002).

Tutorial: TEM107C (Tue. 12.00 - 01.55 pm @ CL02);

TEM107D (Tue. 05.00 - 06.55 pm @ CL02);

TEM108D (Thu. 12.00 - 01.55 pm @ CL02);

TEM108E (Thu. 05.00 - 06.55 pm @ CL02).

Lecture / Tutorial: None.

ECP1016 Computer and Program Design (3 Credits) Beta Year (Trimester 37)

Lab: ECP 1016 Computer and Program Design.

[29] ECP1026 Algorithms and Data Structures (3 Credits) Beta Year (Trimester 33-36?)

3rd Trimester 28 January 2008 - 15 June 2008

Lecture: LEM105 (Wed. 05.00 – 06.55 pm @ CLCR0003) (Thu. 05.00 – 05.55 pm @ CLCR0003).

Tutorial: TEM105B (Mon. 05.00 – 06.55 pm @ CL02);

TEM105D (Tue. 05.00 – 06.55 pm @ CL02);

TEM105F (Thu. 12.00 – 01.55 pm @ CL02).

Lecture / Tutorial: None.

ECP1026 Algorithms and Data Structures (3 Credits) Beta Year (Trimester 30-36?)

Lab: ECP 1026 Algorithms and Data Structures.

Computing Exercises.

[28] EEN1036 Digital Logic Design (3 Credits) Beta Year (Trimester 32)

2nd Trimester 05 November 2007 - 27 January 2008

Lecture: Nil.

Tutorial: TEM103C (Tue. 10.00 - 10.55 am @ CLCR 3002) (Thu. 11.00 - 11.55 am @ FSER 5021);

TEM104C (Tue. 11.00 - 11.55 am @ CLCR 3002) (Thu. 12.00 - 12.55 pm @ FSER 5021).

Lecture / Tutorial: None.

EEN1036 Digital Logic Design (3 Credits) Beta Year (Trimester 32)

Lab: DL1*: Logic Gates and Applications (1 session): Robotics Lab @ 2nd Floor (Fri. 09.00 - 12.00 p.m.);

DL2*: Flip-Flop and Applications (2 sessions): Robotics Lab @ 2nd Floor (Fri. 09.00 - 12.00 p.m.)

[27] ECP3086 Multimedia Technology and Applications (3 Credits) Delta Year (Trimester 31)

1st Trimester 18 June 2007 - 04 November 2007

Lecture: EM315 (Tue. 05.00-06.55 pm @ Studio A) (Fri. 04.00-04.55 pm @ Studio A);

EM316 (Mon. 08.00-09.55 am @ FSER3023) (Fri. 02.00-02.55 pm @ FBLR4022).

Tutorial: EM315B (Thu. 01.00-01.55 pm @ CLCR3015);

EM316D (Thu. 05.00-05.55 pm @ CL02).

Lecture / Tutorial: None.

ECP3086 Multimedia Technology and Applications (3 Credits) Delta Year (Trimester 31)

Lab: MT1 Image Edge Processing Operation; MT2 Synthesis of Audio Signals.

[26] ECP1026 Algorithms and Data Structures (3 Credits) Beta Year (Trimester 30)

3rd Trimester 29 January 2007 - 17 June 2007

Lecture: LEM108 (Mon. 03.00 – 03.55 pm @ CLCR0001) (Wed. 10.00 – 11.55 am @ FBLR4022).

Tutorial: TEM105C (Mon. 05.00 - 06.55 pm @ CL02);

TEM105D (Tue. 12.00 - 01.55 pm @ CL02);

TEM105G (Mon. 12.00 - 01.55 pm @ CL02).

Lecture / Tutorial: None.

ECP1026 Algorithms and Data Structures (3 Credits) Beta Year (Trimester 30)

Lab: ECP 1026 Algorithms and Data Structures.

[25] ECP2046 Computer Organization & Architecture (3 Credits) Gamma Year (Trimester 29)

2nd Trimester 06 November 2006 - 28 January 2007

Lecture: Nil.

Tutorial: TEM202C (Tue. 01.00 - 02.55 pm @ ACR 1004);

TEM203C (Thu. 05.00 - 06.55 pm @ CLCR 3008).

Lecture / Tutorial: None.

ECP2046 Computer Organization & Architecture (3 Credits) Gamma Year (Trimester 29)

Lab: COA1: Bus Operations & Memory Interfacing (1 session): Microprocessor Lab @ 4th Floor (Mon. 02.00 - 05.00 p.m.);

COA2: Study of a CPU Using Simulation (2 sessions): Computer Lab 1 @ 3rd Floor (Fri. 02.30 - 05.30 p.m.)

[24] ECP1016 Computer and Program Design (3 Credits) Beta Year (Trimester 28)

1st Trimester 19 June 2006 - 05 November 2006

Lecture: LEM108 (Tue. 12.00 – 01.55 pm @ CLCR0004) (Fri. 03.00 – 03.55 pm @ CLCR0001);

LEM109 (Thu. 10.00 – 11.55 am @ CLCR0004) (Fri. 02.00 – 02.55 pm @ CLCR0001).

Tutorial: TEM109A (Mon. 12.00 - 01.55 pm @ CL02);

TEM108D (Tue. 05.00 - 06.55 pm @ CDESN);

TEM109D (Thu. 05.00 - 06.55 pm @ CDESN).

Lecture / Tutorial: None.

ECP1016 Computer and Program Design (3 Credits) Beta Year (Trimester 28)

Lab: ECP 1016 Computer and Program Design.

[23] PEM2046 Engineering Mathematics IV (3 Credits) Gamma Year (Trimester 27)

3rd Trimester 06 February 2006 - 18 June 2006

Lecture: None.

Tutorial: TEM201A (Mon. 09.00 - 09.55 a.m. @ CLCR2012);

TEM201D (Tue. 09.00 - 09.55 a.m. @ CLCR3012);

TEM202A (Tue. 02.00 - 02.55 p.m. @ CLCR3011);

TEM202D (Wed. 01.00 - 01.55 p.m. @ CLCR3009);

TEM201F (Thu. 09.00 - 09.55 a.m. @ CLCR2014).

Lecture / Tutorial: None.

ECP 2056 Data Communications and Computer Networking (3 Credits) Gamma Year (Trimester 27)

Lab: DC2: Communication Protocol Simulation (11 sessions): Computer Lab II @ 3rd Floor (Wed. 09.00 - 12.00 n.n.);

[22] ECP 2046 Computer Organization and Architecture (3 Credits) Gamma/Delta Year (Trimester 26)

2nd Trimester 14 November 2005 - 05 February 2006

Lecture: None.

Tutorial: TEM203E (Wed. 04.00 - 04.55 p.m. @ FBLR0006B) (Wed. 05.00 - 05.55 p.m. @ FBLR0006B);

Lecture / Tutorial: None.

ECP 2046 Computer Organization and Architecture (3 Credits) Gamma/Delta Year (Trimester 26)

Lab: COA 1: Bus Operations (5 sessions): Microprocessor Lab @ 4th Floor (Mon. 02.00 - 05.00 p.m.);

COA 2: Study of A CPU Using Simulator (0 session).

[21] ECP 2036 Microprocessor System and Interfacing (3 Credits) Gamma Year (Trimester 25)

1st Trimester 13 June 2005 - 13 November 2005

Lecture: LEM204 (Wed. 16.00 - 16.55 p.m. @ CLCR0003) (Wed. 17.00 – 17.55 p.m. @ CLCR0003) (Thu. 17.00 – 17.55 p.m. @ CLCR0004);

LEM205 (Mon. 09.00 - 09.55 a.m. @ CLCR0002) (Wed. 18.00 – 18.55 p.m. @ CLCR0003) (Thu. 18.00 – 18.55 p.m. @ CLCR0003).

Tutorial: TEM204C (Fri. 08.00 - 08.55 a.m. @ CLCR3014);

TEM204F (Tue. 13.00-13.55 p.m. @ FSER4016);

TEM205C (Mon. 17.00-17.55 p.m. @ CLCR3008).

Lecture / Tutorial: None.

ECP 2036 Microprocessor System and Interfacing (3 Credits) Gamma Year (Trimester 25)

Lab: MSI 1: Familiar with 8051 Trainer (15 sessions): Computer Lab 1 @ 3rd Floor (Mon. 02.00 - 05.00 p.m.) (Wed. 9.00 – 12.00 nn) (Fri. 02.30 – 05.30 p.m.);

MSI 2: Stepper-Motor Control (15 sessions): Computer Lab 1 @ 3rd Floor (Mon. 02.00 - 05.00 p.m.) (Wed. 9.00 – 12.00 nn) (Fri. 02.30 – 05.30 p.m.).

[20] ECP 2056 Data Communications and Computer Networking (3 Credits) Gamma Year (Trimester 24)

3rd Trimester 20 December 2004 - 15 May 2005

Lecture: None.

Tutorial: TEM205D (Wed. 12.00-12.55 p.m. @ CLCR2014); TEM206B (Thu. 11.00-11.55 a.m. @ CLCR3010);

TEM206F (Thu. 17.00-17.55 p.m. @ CLCR2014).

Lecture / Tutorial: None.

ECP 2056 Data Communications and Computer Networking (3 Credits) Gamma Year (Trimester 24)

Lab: DC1: Modem (8 sessions): CBT Lab @ 4th Floor (Fri. 02.30 - 05.30 p.m.);

[19] EEN 1026 Electronics II (3 Credits) Beta Year (Trimester 23)

2nd Trimester 20 September 2004 - 19 December 2004

Lecture: None.

Tutorial: TEM101E (Tue. 09.00-10.00 a.m. @ CLCR2012); TEM102C (Wed. 09.00-10.00 a.m. @ CLCR3008);

TEM101E (Wed. 17.00-18.00 p.m. @ FSER5022); TEM102C (Thu. 12.00-13.00 p.m. @ FSER2016).

Lecture / Tutorial: None.

EEN 1026 Electronics II (3 Credits) Beta Year (Trimester 23)

Lab: AE1: FET Amplifier Frequency Response (2 sessions): Project Lab & Electronics Lab @ 4th Floor (Fri. 09.00 - 12.00 noon);

AE2: IC Multi-Vibrator Circuits (2 sessions): Project Lab & Electronics Lab @ 4th Floor (Fri. 09.00 - 12.00 noon).

[18] ECP 3086 Multimedia Technology and Applications (3 Credits) Delta Year (Trimester 22)

1st Trimester 03 May 2004 - 19 September 2004

Lecture: LEM307 (Fri. 02.30 - 04.30 p.m. @ FBLR4022);

LEM308 (Mon. 08.00 – 10.00 a.m. @ CLCR0004).

Tutorial: TEM308D (Tue. 08.00-09.00 a.m. @ CLCR2012).

Lecture / Tutorial: LEM307 (Tue. 08.00 - 09.00 a.m. @ FBLR0006) or TEM307C (Tue. 08.00-09.00 a.m. @ CLCR3010);

LEM308 (Fri. 08.00 - 09.00 a.m. @ FBLR4022) or TEM308A (Fri. 08.00-09.00 a.m. @ CLCR2015).

ETM 3056 Communication Networks (3 Credits) Delta Year (Trimester 22)

Lab: CN1 (6 sessions) Telecommunications Lab @ 4th Floor (Thu. 02.00 - 05.00 p.m.);

CN2 (2 sessions) Computer Lab I @ 3rd Floor (Thu. 02.00 - 05.00 p.m.).

Exam Paper: Moderator.

[17] EEN 3096 Communications Electronics (3 Credits) Delta Year (Trimester 21)

3rd Trimester 15 December 2003 - 11 April 2004

Lecture: LEM302 (Mon. 3-5 p.m. FBLR4022; Tue. 6-7 p.m. CLCR0001);

LEM303 (Tue. 8-9 a.m. CLCR2006; Fri. 5-7 p.m. CLCR2001).

Tutorial: TEM302B (Tue. 6-7 p.m. CLCR2015); TEM303A (Tue. 8-9 a.m. FSE3015).

Lab: Delta Year Electronics Lab (Tue. 9.00 – 12.00 noon), Microprocessors Lab (Thu. 2.00 – 5.00 p.m.).

Lab Demonstrator: At least about 3 hours per week.

[16] ETM 2016 Analog Communications (3 Credits) Gamma Year (Trimester 20)

2nd Trimester 22 September 2003 - 14 December 2003

Tutorial: TEM207B (Tue. 12-2 p.m. CLCR3010); TEM207D (Mon. 12-2 p.m. FBLR5033); TEM207E (Mon. 5-7 p.m. CLCR2016).

Lab: Gamma Year Telecommunications Lab (Fri. 2.30 -5.00 p.m.).

[15] PEM 2036 Engineering Mathematics III (3 Credits) Gamma Year (Trimester 19)

1st Trimester 05 May 2003 - 21 September 2003

Lecture: LEM201 (Tue. 2-3 p.m. CLCR0002; Thu. 2-3 p.m. CLCR0002; Fri. 8-9 a.m. CLCR0001);

LEM202 (Tue. 3-4 p.m. CLCR0002; Thu. 3-4 p.m. CLCR0002; Fri. 9-10 a.m. CLCR0001).

Tutorial: TEM201D (Tue. 12-1 p.m. CLCR2016); TEM201H (Wed. 1-2 p.m. CLCR3012); TEM202D (Wed. 2-3 p.m. CLCR3012); TEM202H (Thu. 9-10 a.m. CLCR2013).

Lab: Gamma Year Applied EM Lab (Mon. 2-5 p.m.).

Lab Demonstrator: At least about 3 hours per week.

[14] ECP 2066 Operating Systems (3 Credits) Gamma Year (Trimester 18)

3rd Trimester 16 Dec 2002 - 30 March 2003

Tutor: TEM208C (Wed. 8-9 a.m. CLCR2015); TEM208B (Thu. 12-1 p.m. CLCR3008); TEM208D (Fri. 5-6 p.m. CLCR2009).

Lab Demonstrator: At least about 3 hours per week.

[13] ATM Theory, ATM Enterprise Core Products & Edge Products Training Working Professionals

01 Jan 2001 - 31 Dec 2002

Instructor, Marconi Training Centre (later known as ATM Training Centre).

Till this date, teaching up to two times: Once for community from MMU at Melaka campus, and another for community from Marconi Hong Kong (China SAR).

[12] ETM 3046 Communications I (3 Credits) Gamma Year (Trimester 16)

1st Trimester 06 May 2002 - 18 August 2002

Tutor: TEM215C (Mon. 12-1 p.m. CLCR3011); TEM216C (Wed. 12-1 p.m. CLCR3010);

TEM216D (Thu. 3-4 p.m. CLCR3014); TEM301A (Fri. 4-5 p.m. CLCR3009).

Lab Demonstrator: At least about 3 hours per week.

***********************************************************************************************

[11] ECP 2056 Data Communications & Computer Networking (3 Credits) Gamma Year (Trimester 15)

3rd Trimester 10 Dec 2001 - 31 March 2002

Tutor: TEM201E (Wed. 8-9 a.m. CLCR2016); TEM201F (Tue. 9-10 a.m. CLCR2014);

TEM202E (Fri. 5-6 p.m. CLCR2011); TEM202F (Tue. 5-6 p.m. CLCR2010).

Lab Demonstrator: At least about 3 hours per week.

[10] EEN 1026 Electronics II (3 Credits) Beta Year (Trimester 14)

2nd Trimester 24 Sep 2001 - 18 Nov 2001

Tutor: TEM112D (Mon. 6-7pm CLCR3008; Tue. 8-9pm CLCR3009).

Lab Demonstrator: At least about 3 hours per week.

[9] EMG 2016 Electromagnetic Theory (3 Credits) Gamma Year (Trimester 13)

1st Trimester 07 May 2001 - 19 Aug 2001

Tutor: TEM206C (Tue. 2-3pm LCR2014); TEM206D (Mon. 5-6pm LCR3006).

Lab Demonstrator: At least about 3 hours per week.

***********************************************************************************************

[8] Certification Courses: ATM Theory & Hardware Practices (Marconi Brand)

3rd Trimester 01 Jan 2001 - 08 Apr 2001

Being instructor for the establishment and development of hardware equipment in Marconi ATM Laboratory.

Marconi ATM is a company previously called as FORE ATM.

ATM (Asynchronous Transfer Mode) networks.

Preparation works and hardware setup including Marconi core and edge ATM switches.

[7] EPM 2022 Instrumentation & Control Systems (3 Credits) Gamma Year (Trimester 11)

2nd Trimester 16 Oct 2000 - 09 Dec 2000

Tutor: TEM305 (Wed. 8-9am LCR2009; Fri. 9-10am B3L014); TEM307 (Tue. 9-10am B3L013; Wed. 6-7pm LCR3006).

Lab Demonstrator: At least about 3 hours per week.

[6] EMG 2012 Electromagnetic Theory I (3 Credits) Gamma Year (Trimester 11)

2nd Trimester 16 Oct 2000 - 09 Dec 2000

Tutor: TEM323 (Mon. 10-11am LCR2009; Thu. 10-11am LCR2011).

Lab Demonstrator: At least about 3 hours per week.

Supervision of Experiments (Trimester 11)

2nd Trimester 16 Oct 2000 - 09 Dec 2000

Lab Demonstrator: At least about 3 hours per week.

Applied Electromagnetic Lab

Tuesday 2.00-5.00 p.m.

Friday 3.00-6.00 p.m.

Saturday 9.00-12.00 noon

[5] ECT 1012 Circuit Theory & Field Theory (3 Credits) Beta Year (Trimester 10)

1st Trimester 29 May 2000 - 24 Sep 2000

Tutor

Lab Demonstrator: At least about 3 hours per week.

[4] ECT 1026 Field Theory (3 Credits) Beta Year (Trimester 10)

1st Trimester 29 May 2000 - 24 Sep 2000

Tutor

Lab Demonstrator: At least about 3 hours per week.

Supervision of Experiments (Trimester 10)

1st Trimester 29 May 2000 - 24 Sep 2000

Lab Demonstrator: At least about 3 hours per week.

Microprocessor Lab

Tuesday 2.00-5.00 p.m.

Thursday 2.00-5.00 p.m.

Friday 3.00-6.00 p.m.

***********************************************************************************************

[3] ECP 1032 Algorithm & Data Structure (3 Credits) Beta Year (Trimester 09)

3rd Trimester 17 Jan 2000 - 14 May 2000

Tutor

Lab Demonstrator: At least about 3 hours per week.

[2] EEN 1032 Digital Logic Design (3 Credits) Beta Year (Trimester 08)

2nd Trimester 01 Nov 1999 - 02 Jan 2000

Tutor

Lab Demonstrator: At least about 3 hours per week.

[1] ECT 1012 Circuit Theory & Field Theory (3 Credits) Beta Year (Trimester 07)

1st Trimester 14 Jun 1999 - 10 Oct 1999

Tutor for both Circuit Theory and Field Theory Subjects.

Lab Demonstrator: At least about 3 hours per week.

For an engineering bachelor degree at MMU FOE:

Tuition fees (Batch Year 1999/2000, 139 credit hours) = MYR$42,000 (local Malaysian); MYR$42,000 (foreigner to Malaysia).

MMU (Multimedia University)

FOE (Faculty of Engineering), Melaka Campus & Cyberjaya Campus

Later, FOE was split into FOE at Cyberjaya Campus only, and FET (Faculty of Engineering & Technology) at Melaka Campus.

| Personal MMU URL | Personal URL | Publication URL | Lecturership | Teaching URL | Schedule | Survey Study |

Veni Vedi Vinci : I come I see I conquer.

Email here : kwlee[a]mmu.edu.my | E96LKW@hotmail.com

E&OE+E (Errors & Omissions Exempted, plus Estimations)

Created on 14 June 1999

Truncated on 04 July 2013 (USA Independence Day)

Ended-1 on 31 July 2013

Restarted on 05 August 2013

Ended-2 on 17 March 2014

Ended-3 on 10 January 2015

Updated on 21 September 2021 （八月十五日·中秋节）