Program Learning Outcomes (PLOs)

Introduction

The twelve graduate attributes provided by the PEC as per Manual of Accreditation 2014 have been adopted by the Department of Electronic Engineering MUET Jamshoro as the PLOs for its Bachelor in Electronic Engineering Program. It is ensured that these PLOs are achieved by respective CLOs of Electronic Engineering curriculum as assessed through both direct and indirect methods.

List of PLOs

The twelve PLOs for BE Electronic Engineering Program are:

Engineering Knowledge
An ability to apply knowledge of mathematics, science, engineering fundamentals and an engineering specialization to the solution of complex engineering problems.
Problem Analysis
An ability to identify, formulate, research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences.
Design/Development of Solutions
An ability to 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.
Investigation
An ability to investigate complex engineering problems in a methodical way including literature survey, design and conduct of experiments, analysis and interpretation of experimental data, and synthesis of information to derive valid conclusions.
Modern Tool Usage
An ability to create, select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modeling, to complex engineering activities, with an understanding of the limitations.
The Engineer and Society
An ability to 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 solution to complex engineering problems.
Environment and Sustainability
An ability to understand the impact of professional engineering solutions in societal and environmental contexts and demonstrate knowledge of and need for sustainable development.
Ethics
Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice.
Individual and Team Work
An ability to work effectively, as an individual or in a team, on multifaceted and /or multidisciplinary settings.
Communication
An ability to communicate effectively, orally as well as in writing, 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.
Project Management
An ability to demonstrate management skills and apply engineering principles to one’s own work, as a member and/or leader in a team, to manage projects in a multidisciplinary environment.
Lifelong Learning
An ability to recognize importance of, and pursue lifelong learning in the broader context of innovation and technological developments.

These PLOs have also been published on notice boards.

Mapping of PLOs to PEOs

The mapping of PLOs to PEOs is shown in the table:

Program Learning Outcomes (PLOs)

PEOs

PLO 1

Engineering Knowledge

PLO 2

Problem Analysis

PLO 3

Design/Development of Solutions

PLO 4

Investigation

PLO 5

Modern Tool Usage

PLO 6

The Engineer and Society

PLO 7

Environment and Sustainability

PLO 8

Ethics

PLO 9

Individual and Team Work

PLO 10

Communication

PLO 11

Project Management

PLO 12

Lifelong Learning

Mapping of Courses to PLOs

Mapping between the courses and the PLOs for all semesters is shown in table . In order to meet the objectives of those PLOs which cannot be covered by engineering courses, some non-engineering courses are designed so they can focus more on the partially covered PLOs.

Mapping between the courses and the PLOs

Sr #

Semester

Course Code

Course Name

PLOs

MTH-108

Applied Calculus

BS TE

Basic Electrical & Electronic

ENG-111

Functional English

ES-102

Electronics Workshop

EL-116

Applied Physics

CS-150

Introduction to Computing

MTH-112

Linear Algebra & Analytical Geometry

CS-113

Computer Programming

ES-112

Basic Electronics

EL-107

Electrical Circuits

PS-106

Pakistan Studies

IS-111

Islamic Studies

SS-125

Professional Ethics

SS-104

Ethics

Applied Physics

Basic Electronics

Basic Electrical & Electronics

Basic Electronics

MTE

Electronic Devices & Circuits

Basic Electronics

TL-

Digital Logic Design

TL-

Amplifiers & Oscillators

MTE

Digital Logic Design

MT-

Instrumentation & Control

BS GM

Electrical & Electronic Circuits

Electronic Engineering

ES-203

Electronic Circuit Design

CS-215

Computer Aided Engineering Drawing

INM-291

Engineering Management

MTH-201

Differential Equations & Fourier Series

ES-223

Measurements & Instrumentation

ES-225

Digital Electronics

Introduction to Embedded Systems

MTE

Electronic Circuit & Design

Electronic Circuit Design

ENG-201

Communication Skills

ES-233

Sequential Circuit Design

ES-243

Electromagnetic Fields

ES-253

Integrated Electronics

EL-

Introduction to Embedded Systems

TL-

Microprocessor & Microcontroller

EL-202

Electrical Machines

MTH-211

Complex Variables & Transforms

EL-319

Power Electronics

SS-338

Sociology for Engineers

MTH-310

Numerical Methods

MTE-

Microcontroller & Embedded Systems

EL-

Signals & Systems

ES-324

Probability & Random Signals

IN-

Instrumentation & Control

ES-304

Signals & Systems

ES-314

Introduction to Embedded Systems

ES-385

Communication Systems

ES-353

Control Systems

ES-363

Digital Instrumentation Systems

ES-324

Probability and Random Signals

MTE

Power Electronics

ES-384

FPGA Based System Design

ES-397

Optoelectronics

CSE

Embedded Systems

Microprocessor & Embedded Systems

ES-413

Digital Control Systems

TL-411

Computer Communication & Networking

ES-423

Embedded System Design

ENG-402

Technical Report Writing & Presentation Skills

ES-499

Electronic Engineering Project-1

ES-451

Mechatronics Systems and Applications

ES-433

Digital Signal Processing

SS-411

Entrepreneurship

CS-490

Artificial Intelligence

Assessment of Program Learning Outcomes

The PLOs are assessed by both indirect and direct assessment methods. At the time of graduation, all PLOs must be attained as per the set KPI from both direct and indirect assessment methods.

These assessing methods for course outcomes are evaluated and corrective recommendations are prepared by the DQAC. The description of these assessment methods is given in the following sections.

KPI for PLO Attainment

PLO	Strategy	KPI	When measured
	Exit Survey (Indirect)	Feedback on relevant questions should be above 60%	End of graduation
Program Learning Outcomes 1 to 12	Employers' feedback on internships (Indirect)	Feedback on relevant questions should be above 60%.	During graduation
	Attainment via CLOs (Direct)	PLO attainment for graduating batch should be above 50% at the end of graduation.	At the end of eighth semester

Indirect Assessment of PLOs

Along with direct measurements from CLOs, the PLOs are also assessed indirectly using feedback taken from employers and graduating students' alumni survey. The indirect assessment methods are:

A. Graduating Students Exit Survey

The graduating students exit survey is carried out at the end of every academic year by the graduating batch. The survey seeks graduating student input on quality of education they received in their program and the level of expertise they gained during their stay at the university. The purpose of this survey is to assess the quality of the academic programs of the Department.