Electrical and Electronic Engineering

Program Outcomes

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Program Outcomes (POs)

Program outcomes (POs) or graduate attributes are narrower statements that describe what students are expected to know and be able to do by the time of graduation. These statements relate to the knowledge, skills and attitudes acquired by students while progressing through the program. The students of the B. Sc. in EEE program are expected to achieve the following program outcomes or graduate attributes during the time of their graduation.

  • PO1 Engineering knowledge: Apply the knowledge of mathematics, natural science, engineering fundamentals and an engineering specialization as specified in K1 to K4 respectively to the solution of complex engineering problems.
  • PO2 Problem analysis: Identify, formulate, research the literature and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and the engineering sciences. (K1 to K4)
  • PO3 Design/development of solutions: Design solutions for complex engineering problems and design systems, components or processes that meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations. (K5).
  • PO4 Investigation: Conduct investigations of complex problems using research-based knowledge (K8) and research methods including design of experiments, analysis and interpretation of data, and synthesis of information to provide valid conclusions.
  • PO5 Modern tool usage: Create, select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modelling, to complex engineering problems, with an understanding of the limitations. (K6)
  • PO6 The engineer and society: Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice and solutions to complex engineering problems. (K7)
  • PO7 Environment and sustainability: Understand and evaluate the sustainability and impact of professional engineering work in the solution of complex engineering problems in societal and environmental contexts. (K7)
  • PO8 Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice. (K7)
  • PO9 Individual work and teamwork: Function effectively as an individual, and as a member or leader in diverse teams and in multi-disciplinary settings.
  • PO10 Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
  • PO11 Project management and finance: Demonstrate knowledge and understanding of engineering management principles and economic decision-making and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
  • PO12 Life-long learning: Recognize the need for and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

Knowledge Profiles (K or WK)

Along with the aims to attain the POs, the B. Sc. in Electrical and Electronic Engineering program of DIU is also committed to ensure that its curriculum encompasses all the attributes of the Knowledge Profile (K1 – K8) as included in the PO statements.

 

Attributes
K1 A systematic, theory-based understanding of the natural sciences applicable to the discipline
K2 Conceptually based mathematics, numerical analysis, statistics and formal aspects of computer and information science to support analysis and modelling applicable to the discipline
K3 A systematic, theory-based formulation of engineering fundamentals required in the engineering discipline
K4 Engineering specialist knowledge that provides theoretical frameworks and bodies of knowledge for the accepted practice areas in the engineering discipline; much is at the forefront of the discipline
K5 Knowledge that supports engineering design in a practice area
K6 Knowledge of engineering practice (technology) in the practice areas in the engineering discipline
K7 Comprehension of the role of engineering in society and identified issues in engineering practice in the discipline: ethics and the engineer’s professional responsibility to public safety; the impacts of engineering activity; economic, social, cultural, environmental and sustainability
K8 Engagement with selected knowledge in the research literature of the discipline

Complex Engineering Problem (P or WP)

The attributes and ranges of Complex Engineering Problem Solving (P1 – P7) that will be addressed in the program are given in following table. Complex Engineering Problems have characteristic P1 and some or all of P2 to P7.

Attribute

Complex Engineering Problems
Depth of knowledge required P1: Cannot be resolved without in-depth engineering knowledge at the level of one or more of K3, K4, K5, K6 or K8 which allows a fundamentals-based, first principles analytical approach
Range of conflicting requirements P2: Involve wide-ranging or conflicting technical, engineering and other issues
Depth of analysis required P3: Have no obvious solution and require abstract thinking, originality in analysis to formulate suitable models
Familiarity of issues P4: Involve infrequently encountered issues
Extent of applicable codes P5: Are outside problems encompassed by standards and codes of practice for professional engineering.
Extent of stakeholder involvement and conflicting requirements P6: Involve diverse groups of stakeholders with widely varying needs.
Interdependence P7: Are high level problems including many component parts or sub-problems.

Complex Engineering Activities (A or EA)

The attributes and ranges of Complex Engineering Activities (A1 – A5) that will be addressed in the program are given in following table. Complex activities means (engineering) activities or projects that have some or all of the following characteristics.

Attribute Complex Engineering Activities
Range of resources A1: Involve the use of diverse resources (and for this purpose resources include people, money, equipment, materials, information and technologies)
Level of interaction A2: Require resolution of significant problems arising from interactions between wide-ranging or conflicting technical, engineering or other issues
Innovation A3: Involve creative use of engineering principles and research-based knowledge in novel ways.
Consequences for society and the environment A4: Have significant consequences in a range of contexts, characterized by difficulty of prediction and mitigation
Familiarity A5: Can extend beyond previous experiences by applying principles-based approaches

Mapping Program Outcomes (POs) with Program Educational Objectives (PEOs)

 

PEO 1

PEO 2

PEO 3
PO 1    
PO 2    
PO 3    
PO 4    
PO 5    
PO 6    
PO 7    
PO 8    
PO 9    
PO 10    
PO 11    
PO 12    

Alignment of University and Department’s Mission vs PEOs

 

Department Mission

University Mission

 

1

2

3

1

2

3

4

5
PEO 1      
PEO 2        
PEO 3        

Category of Courses

Core

 Group 1: EEE Courses 75 Credits 52.1%
Group 2: General Education and Sciences Courses 46 Credits 31.9%
Group 3: Other Engineering Courses 6 Credits 4.2%

Elective

 Group 4: Technical Electives 17 Credits 11.8%

 

 Total 144 Credits 100%

EEE Courses

Category

Course Code

Course Title

Type

Credit

Contact Hours

EEE Courses

(Core)

 0713-111 Electrical Circuits I T 3 3
0713-121 Electrical Circuits II T 3 3
0713-122 Electrical Circuits Laboratory L 1 2
0713-124 Circuit Simulation Laboratory L 1 2
0714-211 Electronics I T 3 3
0713-213 Energy Conversion I T 3 3
0713-215 Electrical Properties of Materials T 3 3
0714-217 Continuous Signals and Linear Systems T 3 3
0714-221 Electronics II T 3 3
0714-222 Electronics Laboratory L 1 2
0713-223 Energy Conversion II T 3 3
0713-224 Energy Conversion Laboratory L 1 2
0714-225 Electromagnetic Fields and Waves T 3 3
0713-227 Transmission and Distribution of Electrical Power T 3 3
0714-311 Communication Engineering T 3 3
0714-312 Communication Engineering Laboratory L 1 2

0714-313

Digital Signal Processing

T

3

3

0714-314

Digital Signal Processing Laboratory

L

1

2

0713-315

Power System Analysis

T

3

3

0713-316

Power System Analysis Laboratory

L

1

2

0713-320

Engineering Drawing and Services Design Laboratory

L

1

2

0714-321

Control Systems

T

3

3

0714-322

Control Systems Laboratory

L

1

2

0714-323

Digital Electronics

T

3

3

0714-324

Digital Electronics Laboratory

L

1

2

0713-325

Measurement and Instrumentation

T

3

3

0714-327

Power Electronics

T

3

3

0714-328

Power Electronics Laboratory

L

1

2

0714-411

Microprocessor and Interfacing

T

3

3

0714-412

Microprocessor and Interfacing Laboratory

L

1

2

0713-421

Power Stations and Substations

T

3

3

0719-410

Industrial Training

 

1

 

0719-400

Capstone Project

 

5

 

General Education and Sciences Courses

Category Course Code Course Title Type Credit Contact Hours
Language(Core) 0232-111 Functional Bengali Language T 2 2
0231-112 Professional English I L 1 2
0231-122 Professional English II L 1 2
0231-212 Professional English III L 1 2
Humanities(Core) 0222-111 Emergence of Bangladesh T 2 2
0314-113 Sociology T 2 2
0223-121 Art of Living and Engineering Ethics T 3 3
0709-311 Engineering Economics and Accounting T 2 2
0031-421 Employability T 3 3
0421-311 Industrial Laws and Management T 2 2
0709-321 Project Management and Finance T 3 3
Basic Science(Core) 0533-111 Physics T 3 3
0533-112 Physics Laboratory L 1 2
0531-111 Chemistry T 3 3
0531-112 Chemistry Laboratory L 1 2
Mathematics(Core) 0541-111 Differential and Integral Calculus T 3 3
0541-121 Linear Algebra and Complex Variable T 3 3
0541-123 Ordinary and Partial Differential Equation T 3 3
0541-211 Coordinate Geometry and Vector Analysis T 3 3
0541-213 Numerical Methods T 3 3
0542-221 Probability and Statistics T 3 3
Other Engineering(Core) 0613-122 Programming I L 1 2
0613-222 Programming II L 1 2
0715-121 Basic Mechanical Engineering T 3 3
0788-414 Industrial Automation and Robotics L 1 2

Other Engineering Courses

Category Course Code Course Title Type Credit Contact Hours
Other Engineering(Core) 0613-122 Programming I L 1 2
0613-222 Programming II L 1 2
0715-121 Basic Mechanical Engineering T 3 3
0788-414 Industrial Automation and Robotics L 1 2

Technical Elective Courses

Category: Power and Energy
Elective I Course Code Course Title Type Credit Contact Hours
0713-431 Power System Protection T 3 3
0713-432 Power System Protection Laboratory L 1 2
0713-433 High Voltage Engineering T 3 3
0713-434 High Voltage Engineering Laboratory L 1 2
0713-435 Renewable Energy T 3 3
0713-436 Renewable Energy Laboratory L 1 2
0713-437 Power System Operation and Control T 3 3
0713-438 Power System Operation and Control Laboratory L 1 2
Elective II 0713-439 Special Machines T 3 3
0713-441 Energy Economics T 3 3
0713-443 Power System Reliability T 3 3
Category: Electronics
Elective I  Course Code Course Title Type Credit Contact Hours
0714-445 VLSI Circuits T 3 3
0714-446 VLSI Circuits Laboratory L 1 2
0714-447 Optoelectronic Devices T 3 3
0714-448 Optoelectronic Devices Laboratory L 1 2
0714-449 Biomedical Electronics T 3 3
0714-450 Biomedical Electronics Laboratory L 1 2
Elective II 0714-451 Solid State Devices T 3 3
0714-453 Compound Semiconductor Devices T 3 3
0714-455 Nano-Electronics and Nanotechnology T 3 3
Category: Communication and Signal Processing
Elective I  Course Code Course Title Type Credit Contact Hours
0714-457 Telecommunication Engineering T 3 3
0714-458 Telecommunication Engineering Laboratory L 1 2
0714-459 Optical Fiber Communication T 3 3
0714-460 Optical Fiber Communication Laboratory L 1 2
0714-461 Microwave Engineering T 3 3
0714-462 Microwave Engineering Laboratory L 1 2
Elective II 0714-463 Wireless and Cellular Communication T 3 3
0714-465 Random Signal Processing T 3 3
0714-467 Digital Filter Design T 3 3
0714-481 Satellite and Radar Communication T 3 3

 

Category: Computer and Information Technology
Elective I Course Code Course Title Type Credit Contact Hours
0714-469 Microprocessor System Design T 3 3
0714-470 Microprocessor System Design Laboratory L 1 2
0714-471 Web Design and Software Development Fundamentals T 3 3
0714-472 Web Design and Software Development Fundamentals Laboratory L 1 2
0714-473 Embedded System Design T 3 3
0714-474 Embedded System Design Laboratory L 1 2
Elective II 0714-475 Machine Learning and Artificial Neural Network T 3 3
0714-477 Information and Coding Theory T 3 3
0714-479 Data Communication and Computer Networks T 3 3