COMP SCI 3006NA - Software Engineering & Project
Ngee Ann-Adelaide Education Centre - Trimester 3 - 2015
General Course Information
Course Code COMP SCI 3006NA Course Software Engineering & Project Coordinating Unit School of Computer Science Term Trimester 3 Level Undergraduate Location/s Ngee Ann-Adelaide Education Centre Units 3 Available for Study Abroad and Exchange N Course Description Within the context of a semester-long, group-based software engineering project, this course provides an introduction to the production of high quality software solutions to large tasks. Among the topics covered in this course are the following: models of the software life-cycle, requirements analysis and specification, program design techniques and paradigms, software specification techniques, configuration management and version control, quality assurance, integration and testing, project management, risk analysis, case study of ethical considerations in Software Engineering.
Course Coordinator: Dr Claudia Szabo
The full timetable of all activities for this course can be accessed from Course Planner.
Course Learning OutcomesThe learning objectives for Software Engineering and Project are:
1) To develop knowledge of software development techniques and methodologies, as applied to large scale software development projects, throughout various stages of the development lifecycle including planning, requirements gathering, design, implementation and testing.
2) To gain experience in applying various Computer Science methods and algorithms, as learnt in earlier courses, to large scale software development.
3) To gain experience in group-based software development and develop communication, planning and time-management skills.
4) To develop knowledge and experience in professional conduct and meeting participation.
5) To develop knowledge of professional codes of conduct of Computer Scientists and Engineers and demonstrate understanding through scenario-based exercises.
6) To develop capability and skill in investigating, analyzing, and using software tools to increase the productivity of software development.
University Graduate Attributes
This course will provide students with an opportunity to develop the Graduate Attribute(s) specified below:
University Graduate Attribute Course Learning Outcome(s) Knowledge and understanding of the content and techniques of a chosen discipline at advanced levels that are internationally recognised. 1 The ability to locate, analyse, evaluate and synthesise information from a wide variety of sources in a planned and timely manner. 1,2,3 An ability to apply effective, creative and innovative solutions, both independently and cooperatively, to current and future problems. 1,2 Skills of a high order in interpersonal understanding, teamwork and communication. 3 A proficiency in the appropriate use of contemporary technologies. 2 A commitment to continuous learning and the capacity to maintain intellectual curiosity throughout life. 1,2 A commitment to the highest standards of professional endeavour and the ability to take a leadership role in the community. 4 An awareness of ethical, social and cultural issues within a global context and their importance in the exercise of professional skills and responsibilities. 5
Required ResourcesThe prescribed textbook for the course is "Software Engineering, 9th Edition (Ian Sommerville)".
Each group will also be allocated a Lego Mindstorms robot to be used for their group-based Software Engineering Project.
- Software Engineering: A Practitioners Approach, 5th Ed., R. Pressman, McGraw-Hill, 2001.
- Object-Oriented and Classical Software Engineering, 5th Ed., S. Schach, McGraw-Hill, 2002.
- Software Engineering Principles and Practice, 2nd Ed., H. VanVliet, Wiley, 2000.
- A Discipline for Software Engineering, W.S. Humphrey, Addison-Wesley, 1995.
- Managing Technical People, W.S. Humphrey, Addison-Wesley, 1997.
- Introduction to the Team Software Process, W.S. Humphrey, Addison-Wesley, 2000.
Learning & Teaching Activities
Learning & Teaching ModesThe course aims to introduce students to a wide range of Software Engineering terminology, techniques and processes throughan eight week block of lectures. The concepts taught in these lectures will be practised and reinforced by participation in asemester long, group-based software engineering project. This project will take students through the entire software development lifecycle, from requirements gathering, through to implementation, testing and deployment.
Weekly group meetings will be held with students, in which students will gather requirements for their project, demonstrate software prototypes, and present on various topics relevant to their project. Agendas will be prepared for the meetings, andeach meeting will be fully minuted by the students. Feedback will be given to students at the group meeting, in order forstudents to improve on their presentation, demonstration and meeting management skills. Attendance at all the lectures of thecourse is encouraged as the engineering practices and principles taught in these lectures will be assessed during the entire semester in the group meetings. At the end of the project, students will give a final presentation and demonstration in which students will be given an opportunity to reflect on their experiences in the project and the lessons learnt.
The information below is provided as a guide to assist students in engaging appropriately with the course requirements.The information below is provided as a guide to assist students in engaging appropriately with the course requirements.
Software Engineering and Project is a 3 unit course. The expectation is that students will be spending 12 hours per week working on the course. For the first 8 weeks of the course, this will include 3
hours per week of lectures. From week 3, students are required to attend a weekly group meeting with one of the lecturers, approximately 25 minutes in duration. Students are also required to attend their own group meeting to solve the relevant issues involved in the project, approximately 25 to 35 minutes in duration. The remainder of the time should be spent working on the project – students are expected to learn the content presented in lectures by doing the project.
NOTE: the nature of the course means that it is very easy for students to spend more than the allotted 12 hours per week onthe course. The onus is on students to plan their tasks and time carefully to ensure they do not over commit to the project. Importantly students should start preparing for the project from Week 1, and should maintain a consistent workload throughoutthe semester. One of the learning objectives for this course is the development of good time management skills.
Learning Activities SummaryThe following topics will be covered in lectures:
Project management Group dynamics and management; project planning; communication; meetings
Requirements Requirements gathering techniques; requirements analysis; requirements presentation
Process models Traditional software development process models; development lifecycle activities; risk focused process models; agile process models
Configuration management Configuration items; version and release control; source code control; change management
Cost Models Metrics for cost estimation; project cost estimation techniques; software productivity and measures
Modelling and architectures Software architectures; architecture design decision; system analysis; non-functional requirements; system organisation; modular decomposition; control styles
System modelling Software system specification; context models; behavioural models; data models; object models; data flow diagrams; statechart; UML; sequence diagram
Testing Unit testing; blackbox and whitebox testing; integration and system testing; testing tools; test coverage analysis
Real time modelling Real-time system design; soft/hard real-time systems; stimulus types; real-time system programming; real-time operating systems; process scheduling; resource management; real-time data acquisition
Safety critical SE Designing for safety; hazard analysis techniques; safety integrity levels
Formal specification Limitations of natural language specifications; semi-formal and formal specifications; Z specification language
Software industry Understand real-world software industry and their operations
Case studies Ethical case studies; safety critical case studies
Web-based SE Web application models; Java 2 Enterprise Edition; model-view-controller; service-oriented architecture; Web services; mashups
The University's policy on Assessment for Coursework Programs is based on the following four principles:
- Assessment must encourage and reinforce learning.
- Assessment must enable robust and fair judgements about student performance.
- Assessment practices must be fair and equitable to students and give them the opportunity to demonstrate what they have learned.
- Assessment must maintain academic standards.
Assessment SummaryThe Assessment for this subject consists of three components with the following weightings:
Exam - 50%
Project mark - 40%
Individual mark from group project - 10%
The group project component consists of the following assessment tasks – the weightings are the percentage of the group project mark component:
Web page -2% (learning objectives: 3)
Software Requirements Specification (SRS) (1st draft) - 5% (learning objectives: 1)
Software Project Management Plan (SPMP) (1st draft) - 5% (learning objectives: 1)
Software Design Document (SDD) (1st draft) - 5% (learning objectives: 1)
Process Assessment - 5% (learning objectives: 1, 3, 4)
Group Milestone1 - 5% (learning objectives: 2, 3)
Group Milestone2 - 5% (learning objectives: 2, 3)
Software Requirements Specification (final)-10% (learning objectives: 1)
Software Project Management Plan (final) -10% (learning objectives: 1)
Software Design Document (final) - 10% (learning objectives: 1)
Final Presentation and Demonstration - 33% (learning objectives: 1, 2, 3, 4)
The individual assessment component consists of the following tasks, each weighted at 50%:
(ii) Testing Report
Assessment Related RequirementsAttendance at weekly group meetings with lecturers is compulsory. Students will be required to obtain at least 40% in the exam and 50% overall to pass the course.
Assessment Detail1) Final Exam
The exam will be a 2 hour open book exam. The exam will consist of questions that present realistic scenarios that require you to apply your newly acquired software engineering principles and techniques. Materials permitted into the exam include course notes and textbooks.
2) Group Assessment Components
The first deliverable from each group is a web page that markets the group and its members as a software development team. This deliverable is intended as a mechanism for the group members to get to know one another, and to cooperate on a project that does not involve any programming or technical work. Indeed it is intended to be fun. But it has the serious side of getting the group to work as a team, and to begin to understand the individual member's strengths and weaknesses.
Software Requirements Specification
Students are required to write a Software Requirements Specification document. The purpose of this document is to record the project requirements as captured in the initial group meetings with the lecturers, as well as any changing or additional requirements that arise later in the project. An initial version will be submitted in Week 5. This version will be marked and feedback provided by the lecturers. The final revised version will be submitted in Week 12.
Software Project Management Plan
Students are required to write a Software Project Management Plan document. The purpose of this document is to describe the tasks that need to be completed in order to meet the project requirements, and provide an allocation of tasks to individual students. The project plan should also provide estimated completion times and required resources for each task. The SPMP should also identify any potential project risks and specify contingencies for dealing with the risks.
Software Design Document
Students are required to write a Software Design document. The purpose of this document is to provide both an overall architectural model of the system, together with lower level details for each of the individual components that make up the system. Class diagrams, state diagrams and interaction diagrams should be used to capture to low level details of the design. Details should be provided for each of the classes and methods used in the system.
Students are required to write a User Manual document. The purpose of this document is to provide guidance to end-users on how to use the final software. This will give students experience in writing documentation for non-technical users.
In Week 8, each group will give a presentation and demonstration of the processes they are employing to develop their software. The purpose of this task is to ensure students are using sound engineering practices and to advise on improvements where necessary. Students will be expected to check-out, build, test and run their software as well as build their documentation. Lecturers will assess the version control, source code control and testing processes employed by the group.
Each group will be required to demonstrate two group defined milestones in Week 9 and 10. The purpose of these milestones is to demonstrate to the “client” that you are making good progress towards satisfying the project requirements, and to help clarify the requirements. The milestones should be feature-driven – the client does not want to look at your code. Groups will be required to submit a milestone description form in Week 6. During the milestone demonstration the groups will be assessed on the extent to which they have satisfied the milestone. Milestones can be renegotiated up to a week before the milestone presentation, but a justification as to the reasons for changes must be provided.
Final Presentation and Demonstration
In Week 12 each group will be required to give a final demonstration and presentation. The purpose is to demonstrate their final software to the lecturers and to present the processes and techniques used throughout the project. The students will also be expected to reflect on lessons learnt during the project.
3) Individual Assessment Components
Each student will be expected to give minimally two individual presentations during the course. The purpose of these presentations will be to develop professional presentation skills. The presentations will be on topics relevant to the project and the contents that are taught in the course, and will be 5 to 6 minutes in duration.
Each student will be expected to submit a testing report at the end of the project. The purpose of this task is to ensure that all students do at least some testing for the software development project. Each student must write a report, giving some description of up to 5 typical test cases in your project that you have created and used, what functionality these test cases test for, and the rationale for why you chose these test cases. You should also include your test cases (JUnit test), together with a pointer (url) to where the test cases live in the repository, and where the tested code lives. Your report should be 1/2 -1 page of text (not including the test cases themselves).
SubmissionDrafts and final versions of the SRS, SPMP, and SDD must be submitted via SVN.
All documents must be prepared using LaTeX and signed by all members of your group. Documents prepared withother software will NOT be accepted.
An agenda must be prepared for each weekly meeting and presented at the start of the meeting. Minutes of the previousmeeting must also be presented to the lecturer. Minutes and Agendas must be prepared using LaTeX.
Milestone description forms should be presented to the lecturer during the weekly meetings. No extensions to due dates will be granted.
If you hand in your work late, your mark will be capped, based on how many days late it is:1 day late – mark capped at 75%
2 days late – mark capped at 50%
3 days late – mark capped at 25%
more than 3 days late – no marks available
First draft versions of the SRS, SPMP and SDD will be returned to students with feedback at the weekly meeting in 1-2 weeks after the submission.
Grades for your performance in this course will be awarded in accordance with the following scheme:
M10 (Coursework Mark Scheme) Grade Mark Description FNS Fail No Submission F 1-49 Fail P 50-64 Pass C 65-74 Credit D 75-84 Distinction HD 85-100 High Distinction CN Continuing NFE No Formal Examination RP Result Pending
Further details of the grades/results can be obtained from Examinations.
Grade Descriptors are available which provide a general guide to the standard of work that is expected at each grade level. More information at Assessment for Coursework Programs.
Final results for this course will be made available through Access Adelaide.
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