Information And Communication Engineering

INFORMATION AND COMMUNICATION ENGINEERING

Home

DEPARTMENT OF INFORMATION AND COMMUNICATION ENGINEERING

Information and Communications Engineering is a 5-year or ten semester degree programme. Nine semesters of coursework and laboratory practical are spent in the Institute. The long vacation of eight weeks between the 200 level and 300 level is devoted to SWEP (Students‟ Work Experience Programme) in the different works and production centres of the Institute (e.g., Wood mill, batching plant, metal fabrication workshop, bakery, CLMT, construction sites, etc.). At 400 level, students embark on SIWES (Students Industrial Experience Scheme) which involves six months of industrial training, starting immediately after the First Semester. As a result, the first three years, that is, 100, 200, 300 levels, are 100% common to the other Engineering programmes offered in the Faculty of Ground and Communications Engineering.

Philosophy of the Department

The philosophy of the programmes in the Department of Information and Communications Engineering is “To transform AFIT into a word class institution and first choice for the study of Aerospace and Defense Engineering related programmes. Information and Communications Engineering, as the backbone of a knowledge-based economy, is highly dynamic and versatile. Therefore, the Department’s programmes aim to contribute effectively and sufficiently to the knowledge-based economy by putting in place curricula that meet these challenges in Computer Engineering, Electrical and Electronic Engineering, and Information and Communications Engineering. The training is to produce graduates, who will be producers rather than mere consumers of knowledge and who upon graduation, will be functional engineers in industries, research assistants, scholars in academia, or successful entrepreneurs in the Information and Communications Engineering sectors.

Aim and Objectives

In order to actualize the philosophy of the Department, emphasis is placed on the following objectives:

To facilitate a good grasp of a broad spectrum of engineering principles by students.
To facilitate the acquisition of practical work experience.

To inculcate entrepreneurial, marketing, and management skills in students.

To enable students to engage extensively in electrical and information engineering research and development.

The evolution of microelectronics and computer technology brought about Information and Communication Engineering (ICE) to become economically the most promising activities. Transmission of information via picture, voice or data is a fundamental prerequisite for the development of modern society. New computer technologies have significantly improved automatic control in processing industry, ship handling, flying an aircraft, sophisticated robots and modern medical equipment. Well-educated professionals, capable of keeping abreast of the latest developments, are the fundamental prerequisite of quick and prestigious development. It is therefore only by excellent education that we can successfully keep pace with modern scientific achievements and with technological challenges.

It is pertinent to note that: sustainable, reliable, and affordable electric power and information services are indispensable to achieving these goals.

The Department of Information and Communications Engineering offers courses that are designed to train students to make original contributions and play leading roles in a global context. In all the programmes students are expected to be able to:

Design electrical and information engineering projects and supervise their constructions.
Design and make electrical and electronic components, devices and systems.
Design and develop innovative products and production techniques in the electrical and information engineering industries.
Install and maintain electrical and information engineering systems for optimal performance in the local environment.
Adapt and adopt exogenous technology in order to solve local engineering problems.
Investigate and develop systems according to specifications. vii. Function on multidisciplinary projects and
Guide projects from specifications, through design, simulation, production, and testing.

Therefore, the programme is designed to provide the requisite human capacity in electrical and information industries which are essential to drive the government’s development agenda.

Admission Requirements

In addition to the general entry requirements from Joint Admission and Matriculation Board (JAMB) and requirements for Unified Tertiary Matriculation Examination (UTME), candidates seeking admission into Department of Computer Science at Air force Institute of Technology must possess the following requisite requirements:

i)Five credits in the Senior Secondary Certificate Examination (SSCE) or its equivalent in relevant subject areas, including English Language, Mathematics and Physics in not more than two sittings.

ii) Candidates for admission by Direct Entry (DE) must have credit passes inGeneral Certificate in Education (GCE) ‘A’ Level examinations or Interim Joint Matriculation Board (IJMB) or its equivalent in minimum of two science subjects.

Course Requirements

The courses terminologies are defined as follows:

i)Core/Compulsory Course (C):

A course which every student must compulsorily take and pass in any particular programme at a particular level of study.

ii) Elective Course (E):

A course that students take within or outside the faculty. Students may graduate without passing the course provided the minimum credit unit for the course had been attained.

iii) Required Course (R):

A course that you take at a level of study and must be passed before graduation.

iv) Course Unit (CU):

A unit of course is defined as one contact hour of Lecture (L), Tutorial (T) or Practical (P).

Conditions for Graduation

i)A student must take and pass a total minimum of 222 credit units of which 172 credits must be core in all, spread across minimum of 15 units and maximum of 24 credit units of courses in any given semester.

ii)All students are required to take and pass prescribed General studies (GST) courses before graduation.

iii)A student must obtain at least 75% attendance in each course registered for, to be eligible to sit for end of semester examinations in that course.

iv)The minimum period allowed for candidates to complete the programme is 8 semester or 4 years for DE students and 10 semester or 5 years for UTME students.

100 Level Courses

100 LEVEL – COURSES

FIRST SEMESTER

SECOND SEMESTER

Course Code

Course Title

Units

Status

LH*

PH*

Course Code

Course Title

Units

Status

LH*

PH*

GST 111

Communication in English I

–

GST 112

Logic, Philosophy and Human Existence

–

GST 113

Nigerian Peoples and Culture

–

GST 122

Communication in English II

–

GST 121

Use of Library, Study Skills and ICT

–

AFT 124

Basic Communication in Arabic

–

GST 123

Basic Communication in French

–

CHM 102

General Chemistry II

–

GST 125

Contemporary Health Issues

–

CHM 108

General Practical Chemistry II

–

GET 111

Basic Engineering Drawing

MTH 102

Elementary Mathematics II

–

CHM 101

General Chemistry I

–

PHY 102

General Physics II

–

CHM 107

General Practical Chemistry I

–

PHY 108

General Practical Physics II

–

MTH 101

Elementary Mathematics I

–

PHY 101

General Physics I

–

PHY 107

General Practical Physics I

–

TOTAL UNITS

NOTE:

C = Compulsory

E = Elective

R = Required

LH = Lecture Hours per semester

PH = Practical Hours per semester

200 Level Courses

200 LEVEL – COURSES

FIRST SEMESTER

SECOND SEMESTER

Course Code

Course Title

Units

Status

LH*

PH*

Course Code

Course Title

Units

Status

LH*

PH*

GST 211

Environment and Sustainable

Development

–

GST 222

Peace and Conflict Resolution

–

GST 223

Introduction to Entrepreneurship

–

GST 224

Leadership Skills

–

GET 201

Applied Electricity I

–

GET 202

Applied Electricity II

–

GET 203

Engineering Drawing I

GET222

Engineering Drawing II

GET 205

Fundamentals of Fluid Mechanics

–

GET 204

Students Workshop Experience

–

GET 207

Applied Mechanics

–

GET 206

Fundamentals of Thermodynamics

–

GET 209

Engineering Mathematics I

–

GET 208

Strength of Materials

–

GET 211

Computer Programming I

GET 210

Engineering Mathematics II

–

GET 213

General Engineering Laboratory Course

–

GET 212

Engineering Materials

GET 299

SIWES I

8 weeks

TOTAL UNITS

NOTE:

*GET299 (SWEPI – 2 credit units) is done during the long vacation.

C = Compulsory

E = Elective

R = Required

LH = Lecture Hours per semester

PH = Practical Hours per semester

300 Level Courses

300 LEVEL – COURSES

FIRST SEMESTER				SECOND SEMESTER
Course Code	Course Title	Status	Units	Course Code	Course Title	Status	Units
GET310	Engineering Mathematics III	C	3	GET320	Numerical Methods	C	2
ICE311	Electromagnetic Fields & Waves	C	3	ICE322	Signal & Systems	C	2
ICE312	Communication Principles	C	3	GET324	Technical Communication	C	1
ICE313	Physical Electronics	C	2	ICE321	Introduction to Power Systems	C	2
ICE314	Electric Circuit Theory I	C	3	ICE323	Analogue Electronics	C	3
ICE315	Electrical Machines I	C	3	ICE324	Electric Circuit Theory II	C	3
ICE318	Laboratory Course I	C	3	ICE325	Use of Engineering Packages	C	1
				ICE326	Software Development Techniques	C	2
				ICE327	Digital Electronics	C	3
				ICE328	Laboratory Course II	C	3
GET311	Entrepreneurial Development Studies I	C	1	GET321	Entrepreneurial Development Studies II	C	1
GET399	SIWESII	C	3
	TOTAL		24				23	47

400 Level Courses

FIRST SEMESTER					SECOND SEMESTER
Course Code	Course Title	Status	Units	Pre- Requisite	Course Code	Course Title	Status	Units	Pre- Requisite
GET410	Probability and Statistics	C	2
ICE411	Computer Organisation& Architecture	C	3
ICE412	Control Systems	C	3
ICIE413	Laboratory course & Mini project	C	1
ICE415	Internet Technology & Programming	C	3
ICE416	Object-oriented Design & Programming	C	3
ICE414	Design & Installation of Electrical & ICT Services	C	2
ICE418	Data Communication & Computer Networks	C	3
CEN416	Assembly Language Programming	C	2
GET411	Entrepreneurial Development Studies III	C	2		GET499	Student Industrial Work Experience scheme (SIWES) [Industrial Training]	C	6
	TOTAL		24			TOTAL		6	30

500 Level Courses

FIRST SEMESTER				SECOND SEMESTER
Course Code	Course Title	Status	Units	Course Code	Course Title	Status	Units
ICE510	Research Methodology	C	1	ICE520	Broadcast Engineering	C	2
ICE511	Project Management	C	2	ICE521	Microwave Devices & Measurements	C	2
ICE512	Systems Reliability and Maintainability	C	2	ICE522	Telecommunication Software Development	C	2
ICE513	Cyberpreneurship and Cyber law	C	2	ICE523	Information Theory & Coding	C	2
ICE514	Digital Signal Processing	C	3	ICE524	Digital Control Systems	C	2
ICE515	Applied Electronics	C	2
ICE516	Satellite Communication	C	2	*GET529	Final Year Project	C	6
ICE517	Mobile Communication & Network	C	2
ICE518	Antenna & Propagation	C	3
ICE 519	Design & Installation of Electrical & ICT Services	C	2
			21				16	37
				*Note:* *Select at least 4 Credit units from these Electives*
				ICE525	Artificial Neural Network	E	2
				ICE526	Electromagnetic Interference	E	2
				ICE527	JAVA Technology & Programming	E	2
				ICE528	Multimedia Technology & Programming	E	2
				ICE529	Cryptography Principle & Applications	E	2
				ICE530	Computer Security Techniques	E	2
				GET520	Introduction to Mechatronics	E	2
							4	4
GET511	Entrepreneurial Development Studies IV	C	2	GET521	Entrepreneurial Development Studies V	C	2

	TOTAL		23		TOTAL		20	43

HEAD OF DEPARTMENT

Prof. O Achimugu

PhD (FIPMD, MNCS, MCPN, MNWIIT, CITP)