PH.D IN ELECTRICAL ENGINEERING

Ziauddin University vision is to become a prestigious institution of higher education by seeking futuristic approach in imparting knowledge, skills and research/development. Keeping this in view, Ziauddin University, Faculty of Engineering Science and Technology (ZUFEST) initiated postgraduate program in the year 2017 with prior approval of HEC.

ZUFEST offers Master of Science (MS) in Electrical Engineering and Biomedical Engineering with specialization steams. With the successful launch of MS program, ZUFEST also offered PhD in Electrical Engineering as per the guidelines provided by the HEC.

Every Ph.D. student must select one Area of Specialization (AoS) in consultation with FEST RC members. A Ph.D. student must take four courses from AoS as major subjects including Independent Study. There are two compulsory courses for Ph.D. students namely Research Methodology and Simulation & Modeling. A program structure of Ph.D. Electrical Engineering is given as:

Course DescriptionNo. of CoursesCH
Area of Specialization (AoS)412
Compulsory Courses26
Thesis/Dissertation30
Total Coursework Credit Hours48

ELIGIBILITY CRITERIA FOR ADMISSION

  1. 18 Years of education with relevant specialization, Minimum CGPA 3.00/4.00 or First Division (in the Annual System) in M.Phil/M.S/Equivalent is required, Passed NTS/HEC GAT (Subject) or the University admission test.
  2. In the case of GAT Subject test with minimum of 60% marks is required to take admission. Presently following subjects are available for GAT subject test and are eligible to apply for D. in Electrical Engineering:
  • Computer Engineering
  • Telecom Engineering
  • Electronic/Electrical Engineering

If the Test is not available in GAT subject list, then a University Committee consisting of at least three Ph.D. faculty members in the subject area and approved by the HEC will conduct the Test at par with GRE Subject Test and qualifying score for this will be 70% score.

Students admitted in Ph.D. Programs have to submit the requisite GAT Subject or GRE Subject at the time of admission preferably or before the end of first semester of the respective program.

DURATION AND SEMESTER-WISE BREAK-UP

Typical / Average duration for PhD program is 04 years and maximum duration is 8 years. A generalize semester-wise break-up is as follows:

SEMESTER-ISEMESTER-II
Course IDCourse TitleCr. Hrs.Course IDCourse TitleCr. Hrs.
ABC-xxxAoS – I3ABC-xxxAoS – III3
ABC-xxxAoS – II3ABC-xxxAoS – IV3
ABC-xxxResearch Methodology3ABC-xxxSimulation & Modeling3
Semester CH9Semester CH9
SEMESTER-IIISEMESTER-IV
Comprehensive ExamThesis/Dissertation (Proposal Defense)
SEMESTER-VSEMESTER-VI
Thesis/Dissertation (Progress Report-I)Thesis/Dissertation (Progress Report-II)
SEMESTER-VIISEMESTER-VIII
Thesis/Dissertation (Progress Report-III)Thesis/Dissertation (Defense)

PHD COURSE WORK

Course work of 18 credit hours preferably in the first year is required to be completed scoring minimum 3.0 CGPA out 4.0 and followed by a comprehensive examination for granting candidacy as PhD researcher.

 

COMPREHENSIVE EXAMINATION PROCEDURE

After the declaration of the result/completion of all the requirements for the course work, PGP office shall write student to fulfill the administrative requirements for the written comprehensive exam within three weeks’ time. It may includes fee clearance, exam request form submission, proposed date within the allowed duration of six months from the date of declaration of the result of the last course taken by the candidate.

Candidate may be asked to submit a tentative synopsis of the research work/selected specific research area before the written exam. Two relevant courses to that synopsis may be chosen from the candidate’s transcript either by FEST-RC or the candidate by self.

Written exam shall be scenario based that includes a complex problem to be solved by using the knowledge area(s) of interest identified by candidate either by synopsis or the opted courses.

2-3 Experts (internal/external or both) from the relevant area may set the question paper with mutual consultation and assess the paper individually. The qualitative assessment shall be done based on the approach presented to solve the given problem.  The outcomes may be Pass, Pass with condition (to appear and pass the oral examination), Failure with retake and Failure.

Pass: All or majority of experts are satisfied

Pass with Condition: Majority of the experts are partially satisfied

Failure with retake: None of the experts are satisfied at all. Candidate should follow the whole process as defined for written comprehensive exam and reappear.

Failure: None of the experts are satisfied at all in the second attempt. It leads to termination from the Ph.D. program. The transcript may be issued for the taken courses after due clearance.

The Director PGP shall convey the decision to the students and the FEST-RC not later than three weeks from the date of conduct of the written examination.

 

ORAL EXAMINATION

The focal person is the AD-PGP for all the relevant communications between student and FEST-RC. FEST-RC shall fix the date and examiner panel for the said exam. The date must be communicated to the student and the expert panel (essentially same as that for written examination) at least two weeks before the commencement.

The Panel shall be composed of at least two FEST-RC members preferably with the relevant expertise. The satisfied experts of the comprehensive exam may be excluded from the panel of oral examination. Qualitative assessment of the panel shall result in Pass, Retake or Failure.

Pass: Majority including all experts (for written exam) are satisfied

Retake: Majority (FEST-RC Members only), but none of the experts (for written exam) is satisfied

Failure: Majority (either FEST-RC Members or the experts) of the panel is not satisfied. Candidate should re-attempt the Comprehensive written exam following the defined procedures.

Result must be announced within 5 working days of the date of conduct of the oral examination.

DESIGNATING A SUPERVISOR

After the successful completion of Comprehensive examination candidate should choose the supervisor preferably must be a full time faculty member of ZU (essentially HEC approved PhD supervisor) with relevant expertise to the research topic/submitted synopsis.

In case of unavailability of the required expertise in the given pool of ZU supervisor, candidate may propose any HEC approved PhD Supervisor name with the consent and resume of the proposed supervisor.

In either case candidate should request to Director PGP for the allocation of Supervisor. This request then will be forwarded to FEST-RC by the Director PGP for the final decision.

The FEST-RC shall also allocate an internal Co-Supervisor

  1. For the candidates having main supervisors outside the ZUFEST pool.
  2. Supervisors’ commitment with more than 5 Ph.D students
  • Supervisor leaves the job
  1. Supervisor disqualifies HEC criteria

The AD-PGP shall communicate the FEST-RC decision to the candidate and the supervisor(s).

FORMATION OF GRADUATE EVALUATION COMMITTEE (GEC)

A doctoral GEC will be formed right after the supervisor(s) assignment. There must be three Ph.D members (preferably FEST-RC members with relevant specialization) in additions to the supervisor and co-supervisor (if any). At least one GEC member must be from reputed university/relevant industry/ R&D organization. The GEC shall be formed by the Director PGP with the consultation of assigned supervisor(s). The approval for the formed GEC must be taken from Director PGP and VC ZU

Once GEC is constituted, the composition of the committee can only be changed upon recommendation by both the faculty research advisor and the Director PGP and the approval of FEST-RC.

The Director PGP shall inform the candidate about GEC and ask to submit a written proposal within 6 weeks of the date of information.

In case of delay the PGP office shall write to the candidate and supervisor. Upon the appropriate response the two weeks’ time may be given for submission of proposal.

PROPOSAL SUBMISSION AND DEFENSE PROCEDURE

Passing the proposal phase is partially achieved by acceptance of all/majority committee members (FEST-RC/ZU-BASR) of the written proposal.

Written proposal must be well structured with all the required ingredients like the title must be well elaborated and specific to the scope of work. Motivation Problem identification, Problem definition, Literature Review, proposed methodology, measurable objectives and timeline.

Proposal with missing or lacking in any of the aforementioned details shall not be accepted and candidate may be asked to resubmit either with the same or different title. Although in case of minor deficiency(ies), with the consent of the members of the committee candidate may qualify for oral defense.

After the decision of the FEST-RC/ZU-BASR, Director PGP shall communicate the same to the candidate and the supervisor for further required action.

For the oral defense, the proposal defense date may be proposed by the supervisor and the candidate not later than a week from the date of the decision received.

The GEC and the candidate shall be informed after the approval of the date by the FEST-RC. The Director PGP shall be responsible for the necessary arrangements and announcements regarding the oral defense. GEC members will assess the proceedings. The assessment will be quantitative (Performa) as well as qualitative in terms of remarks. The outcomes may be Pass, Conditional Pass, Retake or Failure.

OutcomeQualitative CommentsQuantitative ScoreStatus/Action
PassSatisfied80% or aboveProposal Approved
Conditional PassNeeds improvement60% – 79%Proposal approved but with a condition e.g extra course in the perceived area of weakness, external evaluation required or as suggested by house
Re-takeMajor problem in the proposed methodology or feasibility issue50% – 59%Proposal neither approved nor rejected till the re-exam. The revised presentation in compliance to the given observations is required for the re-exam.
FailureUnsatisfactory/Weak problem definition /exhausted area of study/conventional solution with known resultsLess than 50%Proposal rejected

The result shall be announced within a week time by the PGP office. For the Pass candidate the first progressive is due within 8 to 10 months of the proposal approval. For Conditional Pass, the candidate should fulfill the condition within maximum 6 months from the date of announcement of the result.

In case of external evaluation, the PGP office should send the case to Dean with the pool of examiners within 10 working days from the date of announcement of result. The pool shall be formed by PGP office with the consultation of the supervisor but the final examiner will be confidentially set by the Dean within a week time upon the response. PGP office will then send the proposal for evaluation. The evaluation must be sent to the GEC members, the candidate, the Dean and the Director. The candidate must report to the Supervisor with the revised proposal (if required) within a month or two at maximum. If supervisor is satisfied with the modifications and revisions then the proposal must be sent to PGP office for further submission and final approval to GEC.

Only one retake is allowed. For a re-take, a new date will be proposed by the supervisor in consultation with the candidate to the PGP office. The date should not be farther than 6 months’ time from the date of announcement of result.

First time failure leads to the resubmission of written proposal with all pre defined procedures as that for first time submission. Second time failure is the termination from the program.

PHD CANDIDACY

Qualification and advancement to PhD candidacy is subject to:

  • Passing PhD coursework with required CGPA
  • Passing PhD qualifying examination
  • Formulation of Guidance & Examination Committee (GEC)
  • Writing and successfully defending the research proposal

DISSERTATION CREDITS

In addition to coursework, all PhD scholars must register in doctoral research of 30 Cr Hrs and submit progress reports approved by the supervisor.

PH.D. PROGRESS EVALUATION PROCEDURE

There will be three progressive presentations before the final defense. The first progress evaluation should be done within 8-10 months’ time from the date of the approval of the Research Proposal. The second and the third progress evaluation are due after every 6 months (minimum) or 8 months (maximum) of the successful previous evaluation. The Supervisor should request for the date of due evaluation (1, 2 or 3) based upon the respective checklist.

Checklist for 1st Progress Presentation:

  1. Literature review; any new development relevant to the proposed methodology since the time of proposal defense
  2. In case of external evaluation of the research proposal, the recommendations and observations (if any) of the expert are incorporated and addressed.
  3. Magnitude of the work done; status of targeted objectives (as per given time line at the time of proposal defense) must be completed. In case of partially achieved objectives due justification must be provided by the candidate.
  4. Preliminary results; in terms of development and implementation of the proposed methodology /Test bed/ verification platform/protocol design
  5. Next target identification for the 2nd progressive

Checklist for 2nd Progress Presentation:

  1. Review Paper/ Preliminary results published or at least accepted for publication in any ISI indexed conference proceedings. (List of ISI Indexed conferences available at Thomas Reuter’s official website)
  2. Completion of milestones as committed in 1st progress evaluation
  3. Observation(s) received by the panel in the previous evaluation are incorporated
  4. Current status of results is satisfactory and in the direction of the goal set for the study
  5. Next target identification for the 3rd progressive

Checklist for 3rd Progress Evaluation:

  1. Publication requirement must be fulfilled as per HEC criteria / ZUFEST Ph.D. policy
  2. Observation(s) received by the panel in the previous evaluation are incorporated
  3. Final results are obtained
  4. Analysis of results is sufficient to draw a conclusion
  5. Research outcomes/ preliminary conclusion is clearly defined
  6. First draft of the thesis is ready to present (optional)

The outcomes of the 1st progressive may be Satisfactory, Partially satisfactory or Unsatisfactory based upon the qualitative assessment done by the GEC on a prescribed Performa.  The major attributes to be checked will be point 3 and 4 of the respective checklist. The results should demonstrate the following:

  1. Key parameters of the study
  2. Effect of input on expected outputs
  • Validation of results by comparing either with experimental data & theoretical model or with reference to the published results
  1. Highlighting deviations/improvements and their justifications
OutcomeQuantitative ScoreAction
Satisfactory80% or aboveThrough for the 2nd progress evaluation
Partially Satisfactory60% – 79%Through for the 2nd progress evaluation with the condition that point 3 given in the checklist for the aforementioned is compulsory to be fulfilled before the next evaluation
UnsatisfactoryBelow 60%1st Attempt: Re-take the Progress evaluation within 3 months of the date of conduct of the 1st evaluation
2nd Attempt: Candidate may choose among the two options; 1.Termination from the Ph.D degree program with a Post Graduate Diploma (PGD), 2. Repeat the procedure for the re-submission of the fresh Research Proposal

The outcomes of the 2nd progressive may be Satisfactory, Partially satisfactory or Unsatisfactory based upon the qualitative assessment done by the GEC on a prescribed Performa.

OutcomeQuantitative ScoreAction
Satisfactory80% or aboveThrough for the 3rd  progress evaluation
Partially Satisfactory60% – 79%Through for the 3rd progress evaluation with the condition that point 2 given in the checklist for the aforementioned is compulsory to be fulfilled before the next evaluation
UnsatisfactoryBelow 60%1st Attempt: Re-take the Progress evaluation within a month time from the date of conduct of the evaluation
2nd Attempt: Termination from the Ph.D degree program with a Post Graduate Diploma (PGD)

The outcomes of the 3rd progressive may be Satisfactory, Partially satisfactory or unsatisfactory based upon the qualitative assessment done by the GEC on a prescribed Performa. The FEST-RC members should also be invited to witness the 3rd progress evaluation.

OutcomeQuantitative ScoreAction
Satisfactory80% or aboveThrough for the thesis submission and evaluation
Partially Satisfactory60% – 79%Through for the thesis submission and evaluation after complying all the observations and recommendations of the GEC. The supervisor will check the compliance.
UnsatisfactoryBelow 60%1st Attempt: Comply all the observations and recommendations of the GEC and submit within a month from the date of evaluation. DRC shall check the compliance (either by documented evidence or by hearing candidate) to approve the case for thesis submission and evaluation.
2nd Attempt: Candidate may choose either termination from the Ph.D degree program with a Post Graduate Diploma (PGD) or to appear for M.Phil Exam

THESIS SUBMISSION AND EVALUATION PROCEDURE

Candidate should submit the thesis in specified format to the office of AD PGP with the proper approval of assigned supervisor(s) not later than 3 months of 3rd Progress Evaluation.

Director PGP shall send thesis for the scanning to the PGP examination department within 3 days. Scanning report should not be delayed more than 5 working days from the date of received by the examination.

If the report is satisfactory then Director PGP should write to the supervisor to submit the pool of external (foreign) and internal (national) evaluators for the thesis, not later than 10 working days of the request.

If the report is unsatisfactory then Director PGP should communicate the result to the candidate and share the report with the supervisor. The candidate should resubmit the revised thesis draft within a month time for rescan.

The Dean/ZU-BASR shall finalize two evaluators from each pool. The Director PGP shall acquire the consent and send the thesis draft to the chosen experts. In case of regret, the case may be redirected to the Dean for the re-nomination of the evaluator(s).

The Evaluation reports should be received in 3-4 months time. If not then a reminder may be sent by Director PGP to the relevant expert. The evaluation report should be immediately sent to the GEC and the candidate.

In case of minor revisions, the supervisor may request and propose the date for the thesis defense in consultation with the candidate. FEST-RC shall take decision in this regard.

In case of major revisions, GEC shall advise the FEST-RC about the required time to address and remove the observations made by the experts.

Depending upon the quantum of change, in the results and conclusion that may occur due to the required revisions, the FEST-RC shall take decision about the re-evaluation. If the re-evaluation of the thesis is required then the thesis should be preferably sent to the same evaluator provided his consent. In case of regret the case may be redirected to the Dean for the re-nomination of the evaluator(s).

The FEST-RC decision shall be immediately conveyed to the candidate and the supervisor(s).

FINAL THESIS DEFENSE PROCEDURE

Upon receiving the decision of FEST-RC about the supervisor’s request to conduct the Thesis Defense, the Director PGP should get the consent of the internal evaluators of the thesis to assess the oral defense as an external examiner. In case of regret the Dean and the Vice Chancellor shall nominate the external examiner from the submitted list of internal evaluators/examiners’ pool by the supervisor.

The examination panel shall include nominated external examiners and GEC members, Director PGP. The Dean must also be invited by the Director PGP.

The outcome of the defense may be Successful, Conditionally Successful or Unsuccessful based upon the qualitative assessment done by the GEC on a prescribed Performa.

OutcomeAction
SuccessfulNo revisions required, degree should be awarded after necessary formalities
Conditionally SuccessfulMinor revisions suggested by external examiner; re-submit the final draft after compliance with the approval from the supervisor with in the given time by the examination panel. Degree should be awarded after necessary formalities
Unsuccessful1st Attempt: Lack of information or fails to provide enough data to establish the evidence for the drawn conclusion. Re-take the oral defense with complete resources and evidence.
2nd Attempt: M. Phil may be awarded

POLICY FOR PUBLICATIONS

  • A student must have a minimum of 02 research papers published/accepted for publication, preferably presented in HEC approved journals/international conferences of good repute, out of which at least one research paper must be published in an ISI indexed journal (with impact factor) in the relevant area as specified by FEST-RC.
  • Only those publications related to the research work will be counted in which the student name appears as 1st author and supervisor or co-supervisor as 2nd or 3rd author and clearly mentions student affiliation with Ziauddin University, Faculty of Engineering Sciences and Technology.
  • FEST-RC is the final authority on determining whether the research publication meets the prescribed standards and requirements.

PLAGIARISM TEST

It is a mandatory part of dissertation evaluation process. The supervisor will make sure that prior to submission, research work passes through anti-plagiarism software before it is sent for evaluation.

PH.D. ELECTRICAL ENGINEERING DEGREE REQUIREMENT

  • 18 Cr. Hr. Coursework with CGPA 3.0 or above
  • 30 Cr. Hr. Thesis with two Research Publication in HEC Approved Journal List.

Scheme of Studies: PhD in Electrical Engineering

S. NoSpecialization Course CodeCourse TitleCredit Hrs
1Power System EngineeringEE 801Research Methodology3+0
2EE 802Analysis of Stochastic Systems3+0
3EE 803Advanced Simulation and Modeling3+0
4EE 804Advanced Digital Signal Processing3+0
2EE 822Advanced Instrumentation3+0
3EE 851Power System Reliability3+0
4EE 852Advanced Smart Grid3+0
5EE 853Advanced Renewable Energy Systems3+0
6EE 854Advanced Electrical Machines and Drives3+0
7EE 855Modeling and Simulation of Power System Components3+0
8EE 856Modeling and Simulation of Electrical Machines3+0
9EE 857Distribution System Modeling and Analysis3+0
11EE 805Optical Communication Systems3+0
13EE 806Satellite, Fixed and Mobile Radio Systems3+0
14EE 808Queuing Theory3+0
15EE 810Telecommunication Traffic Engineering3+0
16EE 811Linear System Theory3+0
17EE 812QoS Architecture for Multimedia Wireless Networks3+0
18EE 813Optimization Theory3+0
19EE 813Optimization Theory3+0
20EE 821Electronic System Design3+0
21EE 823Advanced Power Electronics3+0
22EE 824Robotics3+0
23EE 825Advanced Digital System Design3+0
24EE 826Adaptive Control Systems3+0
25EE 826Adaptive Control Systems3+0
26EE 827PLCs and Control Systems3+0
27EE 828Advanced Classical Control Systems3+0
28EE 830Network and Embedded Control Systems3+0
29EE 831Error Control Coding3+0
30EE 834Process Control3+0
31EE 840Selected Topics in Control and Automation3+0
32EE 841Convex Optimization3+0
33EE 842Multivariable Control Theory3+0
34EE 843Non-Linear Control Systems3+0
35EE 844Optimal Control Systems3+0
36EE 845Predictive Control3+0
37EE 846Mobile Robotics3+0
38EE 850Adaptive Filter Design3+0
39EE 860Neural and Fuzzy Systems3+0
40EE 861Advanced Computer Networks3+0
41EE 862Internetworking Architectures, Protocols and Applications3+0
42EE 863Advanced Digital Communication3+0
43EE 864Wireless and Mobile Communication Systems3+0
44EE 865Multimedia Networking3+0
45EE 866High Speed Broadband Networks3+0
46EE 867Network Performance Analysis3+0
47EE 868Network Management3+0
48EE 869Wireless Multiple Access Communication3+0
49EE 870Information Theory and Coding3+0
50EE 871Next Generation Networks3+0
51EE 872Wireless Sensor Networks3+0
52EE 873Computer and Network Security3+0
53EE 874Selected Topics in Communication Systems3+0
54EE 875Machine Vision3+0
55EE 876RF and Microwave Engineering3+0
56EE 881Advanced Communication Networks3+0
57EE 882Advanced Artificial Intelligence3+0
58EE 883Selected Topics in Computer and Communication Networks3+0
59EE 884Web Services and Service Oriented Architecture3+0
60EE 885Cloud Computing3+0
61EE 886Cryptography3+0
62EE 887Ubiquitous Computing3+0
63EE 888Graphics Programming3+0
64EE 895Internet Protocols3+0
65EE-858Power Quality3+0
66EE-859Digital Signal Processing in Power System3+0
67EE-889Energy Management3+0
68EE-890Energy Audit3+0
70EE-891Artificial Intelligence Techniques in Power System3+0
71EE-892Selected Topics in Power Systems3+0
75EE-893Advanced Electrical Machine Design3+0
76EE-894Nuclear Energy Engineering3+0
Control and AutomationEE 801Research Methodology3+0
EE 802Analysis of Stochastic Systems3+0
EE 803Advanced Simulation and Modeling3+0
EE 804Advanced Digital Signal Processing3+0
78EE 811Linear System Theory3+0
79EE 813Optimization Theory3+0
80EE 815Machine Learning3+0
81EE 820Smart Grid Architecture3+0
82EE 821Electronic System Design3+0
83EE 822Advanced Instrumentation3+0
84EE 823Advanced Power Electronics3+0
85EE 824Robotics3+0
86EE 825Advanced Digital System Design3+0
87EE 826Adaptive Control Systems3+0
88EE 827PLCs and Control Systems3+0
89EE 828Advanced Classical Control Systems3+0
90EE 830Network and Embedded Control Systems3+0
91EE 834Process Control3+0
92EE 840Selected Topics in Control and Automation3+0
93EE 841Convex Optimization3+0
94EE 842Multivariable Control Theory3+0
95EE 843Non-Linear Control Systems3+0
96EE 844Optimal Control Systems3+0
97EE 845Predictive Control3+0
98EE 846Mobile Robotics3+0
99EE 850Adaptive Filter Design3+0
100EE 860Neural and Fuzzy Systems3+0
EE 875Machine Vision3+0
101EE 896Internet of Things3+0
Telecommunication SystemsEE 801Research Methodology3+0
EE 802Analysis of Stochastic Systems3+0
EE 803Advanced Simulation and Modeling3+0
EE 804Advanced Digital Signal Processing3+0
103EE 805Optical Communication Systems3+0
104EE 806Satellite, Fixed and Mobile Radio Systems3+0
105EE 807Digital Design for Communication Systems3+0
106EE 808Queuing Theory3+0
107EE 809Radar Systems3+0
108EE 810Telecommunication Traffic Engineering3+0
109EE 811Linear System Theory3+0
111EE 812QoS Architecture for Multimedia Wireless Networks3+0
112EE 814Electromagnetic Compatibility and Interface3+0
113EE 820Smart Grid Architecture3+0
114EE 831Error Control Coding3+0
115EE 832GIS and Remote Sensing3+0
116EE 850Adaptive Filter Design3+0
117EE 861Advanced Computer Networks3+0
118EE 862Internetworking Architectures, Protocols and Applications3+0
119EE 863Advanced Digital Communication3+0
120EE 864Wireless and Mobile Communication Systems3+0
121EE 866High Speed Broadband Networks3+0
122EE 867Network Performance Analysis3+0
123EE 868Network Management3+0
124EE 869Wireless Multiple Access Communication3+0
125EE 870Information Theory and Coding3+0
126EE 871Next Generation Networks3+0
127EE 872Wireless Sensor Networks3+0
128EE 873Computer and Network Security3+0
129EE 874Selected Topics in Communication Systems3+0
130EE 876RF and Microwave Engineering3+0
131EE 877IP Telephony and Voice over IP3+0
132EE 878Multilayer Switching Architecture3+0
133EE 879Machine Learning3+0
134EE 881Advanced Communication Networks3+0
EE 895Internet Protocols3+0
135EE 896Internet of Things3+0
Computer and Communication NetworksEE 801Research Methodology3+0
EE 802Analysis of Stochastic Systems3+0
EE 803Advanced Simulation and Modeling3+0
EE 804Advanced Digital Signal Processing3+0
137EE 805Optical Communication Systems3+0
138EE 810Telecommunication Traffic Engineering3+0
140EE 811Linear System Theory3+0
141EE 812QoS Architecture for Multimedia Wireless Networks3+0
142EE 816Advanced Computer Architecture3+0
143EE 820Smart Grid Architecture3+0
144EE 850Adaptive Filter Design3+0
145EE 860Neural and Fuzzy Systems3+0
146EE 861Advanced Computer Networks3+0
147EE 862Internetworking Architectures, Protocols and Applications3+0
148EE 863Advanced Digital Communication3+0
149EE 864Wireless and Mobile Communication Systems3+0
150EE 865Multimedia Networking3+0
151EE 866High Speed Broadband Networks3+0
152EE 867Network Performance Analysis3+0
153EE 868Network Management3+0
154EE 869Wireless Multiple Access Communication3+0
155EE 870Information Theory and Coding3+0
156EE 871Next Generation Networks3+0
157EE 872Wireless Sensor Networks3+0
158EE 873Computer and Network Security3+0
159EE 876RF and Microwave Engineering3+0
160EE 877IP Telephony and Voice over IP3+0
161EE 878Multilayer Switching Architecture3+0
162EE 879Machine Learning3+0
163EE 880Internet Programming3+0
164EE 881Advanced Communication Networks3+0
165EE 882Advanced Artificial Intelligence3+0
166EE 883Selected Topics in Computer and Communication Networks3+0
167EE 884Web Services and Service Oriented Architecture3+0
168EE 885Cloud Computing3+0
169EE 886Cryptography3+0
170EE 887Ubiquitous Computing3+0
171EE 888Graphics Programming3+0
172EE 895Internet Protocols3+0
EE 830Error Control Coding3+1
173EE 896Internet of Things3+0

 

FEE STRUCTURE

Tution fee/ courseExam fee/courseNo. of  course / semTution feesExam feesSem registration feeActivity fee / semAdmission feeSecurity DepositEnrollment fees Semester fees
150003000345000900020000500010000          89,000

Note: Any additional taxes imposed by the government will be the liability of the students/parents/guardian.

The University reserves the right to increase the fees if required according to the recommendation of the Governing Body.

At the time of admission, selected candidates will be required to deposit fee either under Option 1 or Option 2. Therfore monthly or semester fee will be deposited by students within two weeks of commencement of every semester in advance accoring to the official notification on the notice board. 2% surcharge per month will be levied on outstanding fees after the due date.

The students claiming exemptions from any course or courses will be required to pay exemption fee @ Rs. 2,500/- per subject in the beginning of semester.

Fees once deposited are not refundable, except security deposits, for any reason whatsoever.