Software engineering / Ian Sommerville.

By:

Sommerville, Ian, 1951-

Material type: Text

TextBoston : Pearson, c2011Edition: ninth editionDescription: xv, 773 pages. : illustration ; 24 cmContent type:

text

Media type:

unmediated

Carrier type:

volume

ISBN:

9780137035151
0137035152
0137053460
9780137053469

Subject(s):

Software engineering

DDC classification:

005.1 22 S.I.S

Online resources:

Abstarct

Contents:

Part 1 Introduction to Software Engineering Chapter 1: Introduction 1.1 Professional software development 1.2 Software engineering ethics 1.3 Case studies Chapter 2: Software processes 2.1 Software process models 2.2 Process activities 2.3 Coping with change 2.4 The Rational Unified Process Chapter 3: Agile software development 3.1 Agile methods 3.2 Plan-driven and agile development 3.3 Extreme programming 3.4 Agile project management 3.5 Scaling agile methods Chapter 4: Requirements engineering 4.1 Functional and non-functional requirements 4.2 The software requirements document 4.3 Requirements specification 4.4 Requirements engineering processes 4.5 Requirements elicitation and analysis 4.6 Requirements validation 4.7 Requirements management Chapter 5: System modeling 5.1 Context models 5.2 Interaction models 5.3 Structural models 5.4 Behavioral models 5.5 Model-driven engineering Chapter 6: Architectural design 6.1 Architectural design decisions 6.2 Architectural views 6.3 Architectural patterns 6.4 Application architectures Chapter 7: Design and Implementation 7.1 Object-oriented design using the UML 7.2 Design patterns 7.3 Implementation issues 7.4 Open source development Chapter 8: Software testing 8.1 Development testing 8.2 Test-driven development 8.3 Release testing 8.4 User testing Chapter 9: Software Evolution 9.1 Evolution processes 9.2 Program evolution dynamics 9.3 Software maintenance 9.4 Legacy system management Part 2 Dependability and Security Chapter 10: Socio-technical Systems 10.1 Complex systems 10.2 Systems engineering 10.3 System procurement 10.4 System development 10.5 System operation Chapter 11: Dependability and Security 11.1 Dependability properties 11.2 Availability and reliability 11.3 Safety 11.4 Security

Chapter 12: Dependability and Security Specification 12.1 Risk-driven requirements specification 12.2 Safety specification 12.3 Reliability specification 12.4 Security specification 12.5 Formal specification Chapter 13: Dependability Engineering 13.1 Redundancy and diversity 13.2 Dependable processes 13.3 Dependable systems architectures 13.4 Dependable programming Chapter 14: Security Engineering 14.1 Security risk management 14.2 Design for security 14.3 System survivability Chapter 15: Dependability and Security Assurance 15.1 Static analysis 15.2 Reliability testing 15.3 Security testing 15.4 Process assurance 15.5 Safety and dependability cases Part 3 Advanced Software Engineering Chapter 16: Software Reuse 16.1 The reuse landscape 16.2 Application frameworks 16.3 Software product lines 16.4 COTS product reuse Chapter 17: Component-based Software Engineering 17.1 Components and component models 17.2 CBSE processes 17.3 Component composition Chapter 18: Distributed Software Engineering 18.1 Distributed systems issues 18.2 Client—server computing 18.3 Architectural patterns for distributed systems 18.4 Software as a service Chapter 19: Service-oriented Architecture 19.1 Services as reusable components 19.2 Service engineering 19.3 Software development with services Chapter 20: Embedded Systems 20.1 Embedded systems design 20.2 Architectural patterns 20.3 Timing analysis 20.4 Real-time operating systems Chapter 21: Aspect-oriented software engineering 21.1 The separation of concerns 21.2 Aspects, join points and pointcuts 21.3 Software engineering with aspects Part 4 Software management Chapter 22: Project management 22.1 Risk management 22.2 Managing people 22.3 Teamwork Chapter 23: Project planning 23.1 Software pricing 23.2 Plan-driven development 23.3 Project scheduling 23.4 Agile planning 23.5 Estimation techniques Chapter 24: Quality management 24.1 Software quality 24.2 Software standards 24.3 Reviews and inspections 24.4 Software measurement and metrics Chapter 25: Configuration management 25.1 Change management 25.2 Version management 25.3 System building 25.4 Release management Chapter 26: Process improvement 26.1 The process improvement process 26.2 Process measurement 26.3 Process analysis 26.4 Process change 26.5 The CMMI process improvement framework

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Holdings
Item type	Current library	Collection	Call number	Copy number	Status	Barcode
Books	Main library A1	Faculty of Engineering & Technology (General)	005.1 S.I.S (Browse shelf(Opens below))	C.1	Available	00010156
Books	Main library A1	Faculty of Engineering & Technology (General)	005.1 S.I.S (Browse shelf(Opens below))	C.2	Available	00014339
Books	Main library A1	Faculty of Engineering & Technology (General)	005.1 S.I.S (Browse shelf(Opens below))	C.3	Available	00016777

Includes bibliographical references and indexes.

Part 1 Introduction to Software Engineering
Chapter 1: Introduction
1.1 Professional software development
1.2 Software engineering ethics
1.3 Case studies
Chapter 2: Software processes
2.1 Software process models
2.2 Process activities
2.3 Coping with change
2.4 The Rational Unified Process
Chapter 3: Agile software development
3.1 Agile methods
3.2 Plan-driven and agile development
3.3 Extreme programming
3.4 Agile project management
3.5 Scaling agile methods
Chapter 4: Requirements engineering
4.1 Functional and non-functional requirements
4.2 The software requirements document
4.3 Requirements specification
4.4 Requirements engineering processes
4.5 Requirements elicitation and analysis
4.6 Requirements validation
4.7 Requirements management
Chapter 5: System modeling
5.1 Context models
5.2 Interaction models
5.3 Structural models
5.4 Behavioral models
5.5 Model-driven engineering
Chapter 6: Architectural design
6.1 Architectural design decisions
6.2 Architectural views
6.3 Architectural patterns
6.4 Application architectures
Chapter 7: Design and Implementation
7.1 Object-oriented design using the UML
7.2 Design patterns
7.3 Implementation issues
7.4 Open source development
Chapter 8: Software testing
8.1 Development testing
8.2 Test-driven development
8.3 Release testing
8.4 User testing
Chapter 9: Software Evolution
9.1 Evolution processes
9.2 Program evolution dynamics
9.3 Software maintenance
9.4 Legacy system management
Part 2 Dependability and Security
Chapter 10: Socio-technical Systems
10.1 Complex systems
10.2 Systems engineering
10.3 System procurement
10.4 System development
10.5 System operation
Chapter 11: Dependability and Security
11.1 Dependability properties
11.2 Availability and reliability
11.3 Safety
11.4 Security

Chapter 12: Dependability and Security Specification
12.1 Risk-driven requirements specification
12.2 Safety specification
12.3 Reliability specification
12.4 Security specification
12.5 Formal specification
Chapter 13: Dependability Engineering
13.1 Redundancy and diversity
13.2 Dependable processes
13.3 Dependable systems architectures
13.4 Dependable programming
Chapter 14: Security Engineering
14.1 Security risk management
14.2 Design for security
14.3 System survivability
Chapter 15: Dependability and Security Assurance
15.1 Static analysis
15.2 Reliability testing
15.3 Security testing
15.4 Process assurance
15.5 Safety and dependability cases
Part 3 Advanced Software Engineering
Chapter 16: Software Reuse
16.1 The reuse landscape
16.2 Application frameworks
16.3 Software product lines
16.4 COTS product reuse
Chapter 17: Component-based Software Engineering
17.1 Components and component models
17.2 CBSE processes
17.3 Component composition
Chapter 18: Distributed Software Engineering
18.1 Distributed systems issues
18.2 Client—server computing
18.3 Architectural patterns for distributed systems
18.4 Software as a service
Chapter 19: Service-oriented Architecture
19.1 Services as reusable components
19.2 Service engineering
19.3 Software development with services
Chapter 20: Embedded Systems
20.1 Embedded systems design
20.2 Architectural patterns
20.3 Timing analysis
20.4 Real-time operating systems
Chapter 21: Aspect-oriented software engineering
21.1 The separation of concerns
21.2 Aspects, join points and pointcuts
21.3 Software engineering with aspects
Part 4 Software management
Chapter 22: Project management
22.1 Risk management
22.2 Managing people
22.3 Teamwork
Chapter 23: Project planning
23.1 Software pricing
23.2 Plan-driven development
23.3 Project scheduling
23.4 Agile planning
23.5 Estimation techniques
Chapter 24: Quality management
24.1 Software quality
24.2 Software standards
24.3 Reviews and inspections
24.4 Software measurement and metrics
Chapter 25: Configuration management
25.1 Change management
25.2 Version management
25.3 System building
25.4 Release management
Chapter 26: Process improvement
26.1 The process improvement process
26.2 Process measurement
26.3 Process analysis
26.4 Process change
26.5 The CMMI process improvement framework

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