Bachelor of Science in Electrical Engineering - Automation and Control Systems Engineering (B.Sc. EE-ACSE)

Program Description:

The Bachelor of Electrical Engineering - Automation and Control Systems Engineering (B.Sc. EE-ACSE) is appropriate for students who wish to focus on automation and control systems in electrical engineering. This applied degree program is closely linked to the labor market and emphasizes automation, controls, robotics, artificial intelligence, and related fields. Students in this concentration receive a solid theoretical and practical background in a variety of topics, including: theory, design, development and implementation of automation and control systems, embedded systems; PLCs, DCS and SCADA systems, Cyber Security, and machine learning. Students are exposed to emerging state-of-the-art theories and implementations related to automation, control, human-machine interaction, and robotic applications and technologies.

In the third year of studies students engage in an in-field training experience. In their final year, students conduct and in-depth research study of a complex automation and control systems engineering problem, utilizing a systems approach in the design and presentation of innovative engineering solutions. The consolidation of the skill set developed in the B.Sc. EE-ACSE program through the completion of a capstone project and work placement prepares graduates for exciting careers in the automation and control systems industry.

Program Duration:

4 years

Admission Requirements:

High School or Academic Requirement:

1. High school graduation certificate or equivalent approved by the Ministry of Education and Higher Education with a minimum average of 60%, plus two courses: one Mathematics, and one final year Science ( Chemistry or Physics is preferred);

OR

2. Two-year Automation and Control Engineering Technology Diploma or equivalent approved by the Ministry of Education and Higher Education.

English Language Requirement:

1. The required score on the University English Placement Test or a passing score from another approved internationally recognized English language test, as validated by the Admissions & Registration Directorate;

OR

2. A valid (within two years) IELTS Academic Test Report Form with an overall band of 5.0 with no individual band score (reading, writing, speaking, and listening) below 5.0;

OR

3. Successful completion of Foundation Program requirements.

Mathematics Requirement:

1. A minimum of 60% on the University Math Placement Test;

OR

2. A valid SAT Report Form with minimum score of 480;

OR

3. Successful completion of Foundation Program requirements.

Additional Admission Criteria:

1. Admission is competitive. Eligible applicants are ranked based on their overall final year (Grade 12 or equivalent) high school percentage, placement tests rankings, and Admission Priority Category.

Program Educational Objectives:

Program Educational Objectives (PEOs) describe the knowledge, skills, and competencies a graduate can demonstrate within 2-3 years of graduation.

Within a few years of graduation from the Bachelor of Science in Electrical Engineering – Automation and Control Systems Engineering (B.Sc. EE-ACSE) program, graduates will be able to:

PEO1b. Demonstrate a strong foundation in scientific and technical knowledge

PEO2b. Display problem solving, critical-thinking, teamwork, and communication skills

PEO3b. Establish a successful career in various automation and control professions

PEO4b. Integrate ethical and social codes, environmental regulations, and safety issues actively within professional careers

PEO5b. Demonstrate leadership qualities and commitment in their chosen field

PEO6b. Participate in identifying contemporary challenges and/or proposing action plans as solutions to tackle them

Student Learning Outcomes:

Student Learning Outcomes (SLOs) describe the knowledge, skills, and competencies a graduate can demonstrate immediately upon graduation.

Upon successful completion of the Bachelor of Science in Electrical Engineering – Automation and Control Systems Engineering (B.Sc. EE-ACSE) program, graduates will be prepared to:

SLO01b: Identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics

SLO02b. Apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors

SLO03b. Communicate effectively with a range of audiences

SLO04b. Recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts

SLO05b. Function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives

SLO06b. Develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions

SLO07b. Acquire and apply new knowledge as needed, using appropriate learning strategies

To see the 2022-2023 Study Plan pages, please CLICK HERE!

To see the 2023-2024 Study Plan pages, please CLICK HERE!

2024-2025 Study Plan:

COURSE NUMBER	COURSE TITLE	REQUISITE		HOURS/WEEK
COURSE NUMBER	COURSE TITLE	PRE-REQ	CO-REQ	CR	LEC	LAB
SEMESTER 1
AECH1201	Basic Engineering Calculations	-	-	1	0	3
AEEL1101	Fundamentals of Electricity I	-	-	3	3	0
AEEL1201	Fundamentals of Electricity I (Lab)	-	AEEL1101	1	0	2
COMM1010	English Communication I	-	-	3	3	0
MATH1030	Calculus I	MATH1020 OR AMPII Score of 85%	-	3	3	0
PHYS1020	General Physics	-	PHYS1021	3	3	0
PHYS1021	General Physics (Lab)	-	PHYS1020	1	0	3
Effective & Experiential Learning Elective: Select 1 of 2
EFFL1001	Effective Learning	-	-	3	3	0
EFFL1002	Applied & Experiential Learning	-	-	3	3	0
Semester 1 Total:				18	15	8
SEMESTER 2
AEEL1102	Fundamentals of Electricity II	AEEL1101		3	3	0
AEEL1202	Fundamentals of Electricity II (Lab)	AEEL1201	AEEL1102	1	0	2
AETN1102	Network Fundamentals	-	AETN1112 AETN1202	3	3	0
AETN1112	Digital Electronics	AEEL1101	AETN1212	3	3	0
AETN1202	Network Fundamentals (Lab)	-	AETN1102	1	0	3
AETN1212	Digital Electronics (Lab)	AEEL1201	AETN1112	1	0	2
COMM1020	English Communication II	COMM1010	-	3	3	0
MATH2010	Calculus II	MATH1030	-	3	3	0
Semester 2 Total:				18	15	7
SEMESTER 3
AECH1100	Environmental Awareness & Ethics	-	-	2	2	0
AEMA1312	Engineering Graphics	AECH1201	-	3	1	4
AEPC1203	Basic Instrumentation	AEEL1100 & AEEL1200 OR AEEL1101 & AEEL1201	-	2	0	4
Semester 3 Total:				7	3	8
Year 1 Total:				43	33	23

COURSE NUMBER	COURSE TITLE	REQUISITE		HOURS/WEEK
COURSE NUMBER	COURSE TITLE	PRE-REQ	CO-REQ	CR	LEC	LAB
SEMESTER 4
AEAC2101	Industrial Processes, Measurement & Control	AEPC1203	-	3	3	0
AEAC2201	Industrial Processes, Measurement & Control (Lab)	AEPC1203	AEAC2101	1	0	2
AEEP2111	Electrical Machines	AEEL1102	-	3	3	0
AEEP2211	Electrical Machines (Lab)	AEEL1202	AEEP2111	1	0	2
AEEP3121	Advanced Engineering Mathematics & Applications	MATH2010	-	3	3	0
AETN2101	Analog Electronics	AEEL1102	-	3	3	0
AETN2201	Analog Electronics (Lab)	AEEL1202	AETN2101	1	0	2
Semester 4 Total:				15	12	6
SEMESTER 5
AEAC2102	Industrial Instrumentation	AETN2101	-	2	2	0
AEAC2202	Industrial Instrumentation Practices	AETN2201	AEAC2102	1	0	2
AEEP2301	Applied Programming	AEEL1101 MATH1020 OR AMPII Score of 85%	-	2	1	2
AEEP2122	Motor Controls & Drives	AEEP2111 AETN2101	-	3	3	0
AEEP2222	Motor Controls & Drives (Lab)	AEEP2211 AETN2201	AEEP2122	1	0	3
CHEM1010	General Chemistry I	-	CHEM1011	3	3	0
CHEM1011	General Chemistry I (Lab)	-	CHEM1010	1	0	3
AEEP3132	Discrete Mathematics	-	-	3	3	0
Semester 5 Total:				16	12	10
SEMESTER 6
AEAC2103	Control Strategies	AEAC2101	-	2	2	0
AEAC2113	PLC Programming & Control	AEEP2122 AETN1102	-	2	2	0
AEAC2203	Control Strategies (Lab)	AEAC2201	AEAC2103	1	0	2
AEAC2213	PLC Programming & Control (Lab)	AEEP2222 AETN1202	AEAC2113	1	0	3
Semester 6 Total:				6	4	5
Year 2 Total:				37	28	21

COURSE NUMBER	COURSE TITLE	Requisite		HOURS/WEEK
COURSE NUMBER	COURSE TITLE	PRE-REQ	CO-REQ	CR	LEC	LAB
SEMESTER 7
AEAC3101	System Automation & Embedded Systems	AEEP2301	-	3	3	0
AEAC3111	Process Control Applications	AEAC2103	-	2	2	0
AEAC3201	System Automation & Embedded Systems (Lab)	AEEP2301	AEAC3101	1	0	2
AEAC3211	Process Control Applications (Lab)	AEAC2203	AEAC3111	1	0	2
AECH2112	Sustainability & Renewable Energy	AECH1100	-	3	3	0
RSST3002	Probability & Statistical Analysis	MATH2010	-	3	3	0
Mathematics & Natural Sciences Elective: Select 1 of 3
BIOL1001	Inquiry-Based Biology	-	-	3	3	0
BIOL1002	Introduction to Botany	-	-	3	3	0
BIOL1003	Fundamentals of Ecology	-	-	3	3	0
Semester 7 Total:				16	14	4
SEMESTER 8
AEAC3102	Safety Shutdown & Instrumented Systems	AEAC3111	-	2	2	0
AEAC3112	DCS & SCADA	AEAC2113	-	3	3	0
AEAC3122	Industrial Process Analysis	AEAC2101	-	2	2	0
AEAC3202	Safety Shutdown & Instrumented Systems (Lab)	AEAC3211	AEAC3102	1	0	2
AEAC3212	DCS & SCADA (Lab)	AEAC2213	AEAC3112	1	0	3
AEAC3222	Industrial Process Analysis (Lab)	AEAC2201	AEEP3122	1	0	2
AEEP3112	Control Systems Design	AEEP3121	-	3	3	0
AEEP3212	Control Systems Design (Lab)	AEEP3121	AEEP3112	1	0	2
Semester 8 Total:				14	10	9
SEMESTER 9
AEAC3000	Work Placement	Min 85 Credits	-	9	360 Total HRs
Semester 9 Total:				9	0	0
Year 3 Total:				39	24	13

COURSE NUMBER	COURSE TITLE	requisite		HOURS/WEEK
COURSE NUMBER	COURSE TITLE	PRE-req	CO-req	CR	LEC	LAB
SEMESTER 10
AEAC4101	Robotics & Intelligent Control	AEAC3101	-	3	3	0
AEAC4201	Robotics & Intelligent Control (Lab)	AEAC3201	AEAC4101	1	0	2
AEAC4311	Capstone Project I	Min 80 CR	AEEP4100	0	1	2
AEEP4100	Project Management	-	AEEP4301 OR AEAC4311	3	3	0
COMM3010	Research & Reporting	COMM1020	-	3	3	0
Mathematics & Natural Sciences Elective: Select 1 of 3
BIOL1001	Inquiry-Based Biology	-	-	3	3	0
BIOL1002	Introduction to Botany	-	-	3	3	0
BIOL1003	Fundamentals of Ecology	-	-	3	3	0
Semester 1 Total:				13	13	4
SEMESTER 11
AEAC4102	AI & Machine Learning for Process Control	AEAC4101 MATH2010 (RSST3001 OR RSST3002)	-	2	2	0
AEAC4112	Cyber Security & Industrial IoT	AEAC3101 AEAC3112	-	2	2	0
AEAC4202	AI & Machine Learning for Process Control (Lab)	AEAC4201 MATH2010 (RSST3001 OR RSST3002)	AEAC4102	1	0	2
AEAC4212	Cyber Security & Industrial IoT (Lab)	AEAC3212 AEAC3201	AEAC4112	1	0	2
AEAC4322	Capstone Project II	AEAC4311	-	3	3	0
Semester 11 Total:				9	7	4
Year 4 Total:				22	20	8
B.Sc. EE-ACSE Program Total:				141	105	65

Graduate Future Pathways:

Graduates of Bachelor of Science in Electrical Engineering – Automation and System Control Systems Engineering (B.Sc.EE-ASCE) are equipped to pursue further specialization in their field or graduate research.

Graduate Career Opportunities:

The Bachelor of Science in Electrical Engineering – Automation and Control Systems Engineering (B.Sc. EE-ACSE) is an applied degree with learning outcomes closely linked to the labor market. A wide range of career opportunities in the field currently exist and include, but are not limited to, the following:

Automation and Control Engineer
SCADA and DCS Engineer
Control Systems Engineer
Systems Engineer
Instrumentation and Control Engineer
Robotics Engineer
QA Engineer - Automation
Field Service Engineer
System Design Engineer

Program Contact:

Wesam Rohouma

Department Head, Electrical Engineering

Email

wesam.rohouma@udst.edu.qa

Phone

+974-4495-2748