|| CO21120 |
|| DATA STRUCTURES, ALGORITHMS AND SOFTWARE DESIGN |
|| 2006/2007 |
|| Mr Christopher W Loftus |
|| Available all semesters |
|| Available only to students taking the Diploma/MSc in Computer Science scheme in Singapore. |
| Course delivery
|| Other || Contact Hours. 55 hours of contact time; lectures, practicals, workshops. 145 hours of private study, practical work and assessment. |
|Assessment Type||Assessment Length/Details||Proportion|
|Semester Exam||2 Hours (A1) ||75%|
|Semester Assessment|| (A2) Assignment ||25%|
|Supplementary Exam|| Supplementary examination will take the same form, under the terms of the Department's policy. || |
|| http://www.aber.ac.uk/compsci/ModuleInfo/CO21120 |
On successful completion of this module, students should be able to:
demonstrate their understanding of the principles of abstraction and encapsulation as they apply to the design of abstract data types and programs (A1, A2);
analyse and evaluate the time and space behaviour of algorithms and understand how this is expressed and determined (A1, A2);
recognise the importance of this analysis in the design of software (A1, A2);
recognise the importance of the classes P and NP in the analysis of algorithms (A1);
describe some of the main approaches to algorithm design such as greedy algorithms, divide and conquer and dynamic programming (A1);
demonstrate judgement in evaluating and choosing appropriate data structures and algorithms for a range of programming problems (A1, A2);
design and implement significant programs in Java (A2).
In the 40 or so years that people have been developing software, a range of common tasks, such as sorting and searching, have been identified and a body of knowledge has been accumulated about how these tasks are best carried out. This knowledge usually consists of various ways of structuring the data, a range of different algorithms, and performance analysis that enables a designer to chose the algorithm and data structure most appropriate to the circumstances of the system, and to predict how the system will perform.
This module introduces students to this body of knowledge and sets it into the context of modern software design and structuring techniques.
The aims of this module are to:
introduce students to the standard data structures and algorithms that form the common currency of software design
develop students understanding of the object-oriented model of software;
introduce students to the analysis and prediction of performance.
1. Introduction - 15 Lectures
Course Overview. An introduction into time/space complexity. Mathematical underpinnings. Issues of correctness as they relate to the definition of ADTs. The key ideas of abstraction and encapsulation. Notations for describing ADTs. Java support for their implementation: packages, exceptions and interfaces.
2. Introduction to Complexity - 3 Lectures
O() notation, growth rates. Measurement of execution time of some real programs and estimation of their time complexity. Some examples of time/space trade-offs.
3. Classes of Algorithm - 4 Lectures
An overview will be given on the different classes of algorithm; for example, divide and conquer and greedy algorithms. Genetic algorithms will also be discussed. P and NP.
4. Recursion - 3 Lectures
An introduction to recursive thinking. Examples of recursion.
5. Storing and Retrieving Data by Key (1) - 12 Lectures
This problem will be used to motivate the discussion of a wide variety of different implementation techniques. The features of some typical solutions will be related to the dimensions of the problem such as the volume of data to be handled, volatility and the operations required. Internal Storage: linear and binary searching. Linked representations; an introduction to hashing, binary search trees and heaps.
6. Storing and Retrieving Data by Key (2): External storage - 4 Lectures
Performance issues. Hashing and B-tree organisations. The Hashable class in Java.
7. Representing Text - 4 Lectures
String matching algorithms and their performance. Search engines case study.
8. Sorting - 4 Lectures
A comparison of divide and conquer, priority queue and address calculation based sorting algorithms. Performance characteristics of these algorithms will be discussed.
9. Representing Complex Relationships: Graphs - 6 Lectures
Some examples of greedy algorithms. Terminology and implementation considerations. A look at some graph-related problems such as: finding a route (shortest paths); planning a communications network (minimum spanning trees); network routing management (flow graphs); compiling a program or planning a project (topological sorting).
Alfred Aho and Jeffrey Ullman (1995) Foundations of Computer Science
W H Freeman & Co. 0716782847
Alfred Aho, John Hopcroft, and Jeffrey Ullman (1983) Data Structures and Algorithms
Addison Wesley 0201000237
Michael Main (Oct 1998) Data Structures and Other Objects Using Java
Rebecca Wirfs-Brock, Brian Wilkerson, and Lauren Wiener (1990) Designing Object-Oriented Software
Prentice Hall 0136298257
T. Budd (2001) Classic Data Structures in Java
Addison-Wesley Pub Co 0201700026
T.A. Standish (1998) Data Structures in Java
Addison Wesley 020130564X
Thomas A Standish (1994) Data Structures, Algorithms and Software Principles
Addison-Wesley, Reading, Massachusetts 0201591189
This module is at CQFW Level 5