Design Of A Computer Assisted Multiple Choice Examination System
(A Case Study Of Computer Science Department Fedponek Owerri)
A Computer Assisted Multiple Choice Examination System (CAMCES) is a technologically driven platform designed to streamline and enhance the process of administering multiple-choice tests. Computer Assisted Multiple Choice Examination System leverages computer software to automate various aspects of examination management, including question generation, test administration, grading, and result analysis. This system offers educators and administrators a comprehensive toolset for efficiently creating, delivering, and evaluating assessments, thereby optimizing the educational evaluation process. By integrating features such as randomization of questions, instant scoring, and detailed performance analytics, Computer Assisted Multiple Choice Examination System enhances the efficiency and fairness of assessments while providing valuable insights into student proficiency and learning outcomes. With its user-friendly interface and customizable functionalities, Computer Assisted Multiple Choice Examination System represents a modern solution to the challenges of assessment in education, aligning with the evolving landscape of digital learning and evaluation methodologies.
With the thoughtful application of emerging technologies and in a bid to improve on the effort towards the conduction of the multiple choice assessments, this project is designed to automate all multiple choice assessments and examinations in the department of computer science, Federal Polytechnic Nekede Owerri with the aim of cushioning the effects of the existing manual, system but most importantly, to encourage and implement a faster and better examination assessment service delivery in the department.
In the course of developing the new system, the Microsoft visual Basic 6.0 programming language was used to code the modular programme for the new system in a top –down design approach it is important to note that the logic employed in the work us treated in a general sense. Inferably. It could be applied or implemented in any other structured assessment system.
Title page
Certification
Dedication
Acknowledgement
Abstract
CHAPTER ONE
Introduction
1.0 The problem and its settlings 1
1.1 Objectives of the projects 2
1.2 Significance of the project 3
1.3 Definition of terms 4
1.4 Research methodology 7
1.5 Scope of the project 8
1.6 Limitations of the project 8
CHAPTER TWO:
LITERATURE REVIEW
2.0 Introduction 9
2.1 History and evolution of examination management 10
2.2 Emergence of new forces in the exam management 13
2.3 The computer assisted testing system – – 15
2.4 Tertiary assessments conducted on the internet 18
2.5 Conclusion 28
CHAPTER THREE
Investment and analysis of the existing system
3.0 Brief history of the department of
computer science, FUTO. 31
3.1 The existing examination system (manual) 34
3.1.1 Formation of coordination group 34
3.1.2 Questioning 35
3.1.3 Time tabling 36
3.1.4 Formation of invigilation group – 36
3.1.5 Assessment 37
3.1.6 Marketing 37
3.1.7 Results and grading 38
CHAPTER FOUR
Analysis and design of the new system
4.0 Introduction 41
4.1 Objectives of the new system 41
4.2 System design 42
4.3 Process description of the new system 43
4.4 Data flow diagram 44
4.4.1 Overall dataflow diagram 45
4.5 Program module specification 46
4.6 Program module flowchart 47
4.7 Program interface 48
4.7 Mathematical specification 51
4.8 Program implementation 51
4.8.1 Hardware and software requirements 51
4.8.2 System test-run 52
4.8.3 Change-over procedure 53
4.8.4 System maintenance 53
CHAPTER FIVE:
Program documentation
5.0 Introduction 55
5.1 user manual (for examiner) 55
5.2 user manual (for candidate) 58
CHAPTER SIX:
Conclusion/recommendation
6.0 Conclusion 60
6.1 Recommendation 61
Bibliography 63
INTRODUCTION
1.0 THE PROBLEM AND ITS SETTING
Early methods of processing data and information involved management of paper work. With the advent of automation, mechanization of information management was introduced for the purpose of minimizing costs and providing efficiency and opportunities to add value to the services and products. The advancement was not lost on the examination system as well.
In order to keep abreast with the increasing roles and importance of information technology in the business and academic concern, stakeholders in both areas need to understand new technologies, factors applicable to information system and techniques involved in updating the development, with various responsibilities for the operations of the MIS defined for each sub-system requiring proper planning and control.
As information technology is now applied in almost every field of endeavour, the application of computer science in examination systems form a common connection as both deal with the analysis, transformation and manipulation of data, presentation and storage of information. Over the years, much has been highlighted on the problems inherent in examination conductions due to some factors; increased number of candidates to be invigilated, increased number of scripts to be marked and examination malpractices, leading to time wastage, loss of scripts and ineffectiveness
1.1 OBJECTIVES OF THE PROJECT
The objective of this project is to design a computer based multiple choice examination system with which;
(1) Questions are set and presented in the computer
(2) Questions are answered in the computer
(3) Answers are marked by the computer in shortest possible time.
(4) The results and grades are presented and stored.
1.2 SIGNIFICANCE OF THE PROJECT
(1) Upgrading Of The Departments Examination System
Implementation will showcase the benefits of adopting the initiative of information technology as an approach to the nation technological advancement. It will lead to an upgrade of the examination system to a world class status.
(2) Optimization Of The Examination Administrative System
The replacement of the manual system (paper based system) with the automated system will optimize the overall performance of the examination administrative body.
(3) Security and sanitation of the examination system
Prior to implementation and coupled with the assurance of security, vices and problems in the system such as malpractice, loss of scripts etc will be minimized or alleviated.
(4) Effective Service Delivery
Errors which could be encountered during script markings, recording and other examination activities would be highly or completely minimized.
1.3 DEFINITION OF TERMS SYSTEM CONCEPT
A system can be defined as a collection of parts or components which forms a whole, the parts are inter-related with each other and work together to achieved a common goal. In a system exhibits characteristics such as inputs and outputs, boundaries, interfaces and methods of converting the inputs and outputs. An examination can be defined as a system. it uses resources such as the examiner, candidates, questions etc. all interacting to the accomplishment and production of results and grades. In the system are operation such as setting questions, answering questions, marking and grading which needs to be properly managed.
SYSTEM BOUNDARY
This separates a system from its environments or determines the extent of the separation it therefore shows the scope of activities supported by the system.
SYSTEM AND SUB-SYSTEM
A system contains smaller systems known as sub-systems which has elements, interaction and objectives and perform tasks related to the overall objectives of the system as a whole. The multiple choice examination system consist of individual operations that are subsystems with each specific operation forming a part of the overall system contributing to its goal.
INPUT AND OUTPUT
The basic function of a system is to produce outputs from inputs. This entails that within the system are processes which ensure the conversion by assessments and manipulation by adding value to the input. In the system, subsystems usually produces output which become input in output from one is an input to the next, the trail leading to overall output of the system. for example, the output of the marking subsystem of an examination is used as an input for the result and grading subsystem
INTERFACE
An interface is a connection between a user and the system or the connection at subsystem boundaries. For example, a candidate for an examination gains access to the examination system through the examination paper.
OPEN AND CLOSED SYSTEM
An open system operates in a dynamic relationship with its external environment as it receives inputs form it. Transforms them and passes it out in form of output back into the environment. It needs output information in terms of feedback as a basis for control of the input system. In contrast, a closed system does not relate with its environment. They do not operate with/on feedbacks and eventually destroys itself. An examination system is an open system as it works with inputs in terms of questions and answers from the elements outside it and gives output in terms of results and grades back into the elements.
SYSTEM FEEDBACK
This is control information used to determine activities of the inputs of the system. it normally comes as output information.
THE COMPUTER AIDED TESTING SYSTEM (CATS)
This is a Computer Assisted Testing System (CATS) which is an option implemented in distance learning programs and courses offered through the university external studies program
FLOWCHART: This is the diagrammatic representation of the program components using standard symbols.
GRADE POINT (GP):– this is the corresponding points 0.00 to 5.00 of the grade letters F-A respectively.
GRADE POINT AVERAGE (GPA):– this is the point in which the academic performance of a student is measure at the end of every semester. It has the maximum value of 5.00 and minimum 0.00. It can be calculated thus: GPA- Sum of quality points/total credit unit for all course registered in the semester.
CUMULATIVE GRADE POINT AVERAGE (GPA)
This is the measure of the students overall academic performance at any given time in his academic program. It is normally calculated at the end of the session.
It is calculated thus:
CGPA = GPA first semester + GPA second semester/total credit unit for first semester + total credit unit for second semester.
1.4 RESEARCH METHODOLOGY
This describes the investigation methods applied in the various stages in the development of this project. This standard procedure called “The system software Analysis and Design methodology” (SSADM) was employed in the analysis and design, and the stages of the project work are; analysis, model design, model implementation testing and documentation. With the techniques employed being
(1) Analysis of the existing conventional method.
(2) Consultation of relevant materials like text, tutorials and the inherent which all aided in the development work
1.5 SCOPE OF THE PROJECT
The new system is designed to cover all multiple choice based examinations conductions in the department of computer science.
1.6 LIMITATIONS OF THE PROJECT
Due to limitations in time, this project is designed without the random selection function which would account for the “TYPE” format which is inherent in most multiple choice examinations and assessments.
Computer Assisted Multiple Choice Examination System:
A Computer Assisted Multiple Choice Examination System is a software application or platform designed to facilitate the administration, scoring, and analysis of multiple-choice exams or assessments. This type of system is commonly used in educational institutions, corporate training programs, and certification exams. Here are some key features and components typically found in such a system:
- User Management: The system allows administrators to create and manage user accounts for both students and instructors. User roles may include administrators, instructors, and students, each with different levels of access and privileges.
- Question Bank: The system usually includes a question bank where instructors can store, organize, and manage multiple-choice questions. Questions may be categorized by topic, difficulty level, or other criteria.
- Exam Creation: Instructors can create exams by selecting questions from the question bank. They can set parameters such as the number of questions, time limits, and randomization of question order.
- Exam Delivery: Students can access exams through a secure login. The system presents the questions one at a time or all at once, depending on the settings chosen by the instructor.
- Security Measures: To prevent cheating, the system may include features such as a secure browser mode that locks down the student’s computer during the exam. It may also monitor for suspicious behavior, like switching tabs or opening other applications.
- Scoring and Grading: The system automatically scores multiple-choice questions, calculates the total score, and provides immediate feedback to the student upon completion of the exam.
- Reporting and Analytics: Instructors can access detailed reports and analytics on student performance, including item analysis, average scores, and distribution of scores. This information helps educators identify areas where students may need additional support.
- Data Storage and Backup: The system securely stores exam data, including student responses, scores, and historical records. Regular backups ensure data integrity.
- Accessibility: It should be designed with accessibility in mind, ensuring that students with disabilities can use the system and take exams without barriers.
- Customization: Institutions may want to customize the system to match their branding and specific requirements. Customization options may include logo placement, color schemes, and layout.
- Integration: The system may integrate with other educational software, learning management systems (LMS), or student information systems (SIS) for seamless data exchange.
- Notifications: The system can send notifications to students and instructors regarding upcoming exams, exam results, and other important information.
- Feedback and Review: After completing an exam, students may have the option to review their answers and see correct answers with explanations. Instructors can use this feature to facilitate learning from mistakes.
- Question Types: While multiple-choice questions are the primary focus, the system may support other question types such as true/false, matching, and fill-in-the-blank.
- Security and Data Privacy: Robust security measures are crucial to protect student data and prevent unauthorized access to exams.
- Support and Training: The system should offer technical support to both students and instructors, as well as training resources to help users navigate the platform effectively.
A Computer Assisted Multiple Choice Examination System streamlines the exam administration process, reduces grading time, and provides valuable data for instructors to improve their teaching methods. However, it is essential to implement appropriate security measures to maintain the integrity of the assessment process and ensure that students are not engaging in academic dishonesty.