About the Author
Chapter 1. Introduction to UML
1.1 UML Basic Modeling Concepts
1.2 Structural Elements and Diagrams
1.3 Behavioral Elements and Diagrams
1.4 Use Case and Requirements Models
Chapter 2. The Harmony Process
2.2 The Harmony Development Process
2.3 The Systems Engineering Harmony Workflows in Detail
2.4 The Hand-off from Systems Engineering
2.5 The Software Workflows in Detail
Chapter 3. Meeting Industry Standards
3.2 On the Importance of Being Standard
3.3 Architectural Framework Standards (I’m looking at you UPDM)
3.4 IEC 61508
3.6 IEC 62304
Chapter 4. Specifying Requirements
4.2 Representing Requirements in UML and SysML
4.3 Specification View: State Machines for Requirements Capture
Chapter 5. Systems Architecture: Deployment and Subsystems Architecture
5.2 The Hand-off from Systems to Downstream Engineering
5.3 Looking Ahead
Chapter 6. Dependability Architecture
6.2 A (Not-So) Quick Note about Design Patterns
6.3 What is a Design Pattern?
Chapter 7. High-Fidelity Modeling
7.2 A Quick Note about Structured Design with UML
7.3 High-Fidelity Modeling Workflow
7.4 Key Strategies for Object Identification
Chapter 8. Distribution Architecture
Chapter 9. Concurr
Written as a workbook with a set of guided exercises that teach by example, this book gives a practical, hands-on guide to using UML to design and implement embedded and real-time systems.
- A review of the basics of UML and the Harmony process for embedded software development: two on-going case examples to teach the concepts, a small-scale traffic light control system and a large scale unmanned air vehicle show the applications of UML to the specification, analysis and design of embedded and real-time systems in general.
- A building block approach: a series of progressive worked exercises with step-by-step explanations of the complete solution, clearly demonstrating how to convert concepts into actual designs.
- A walk through of the phases of an incremental spiral process: posing the problems and the solutions for requirements analysis, object analysis, architectural design, mechanistic design, and detailed design.
Professional embedded systems engineers, undergraduate and post-graduate students.
- No. of pages:
- © Newnes 2014
- 26th February 2014
- eBook ISBN:
- Paperback ISBN:
"The book is quite useful for both practitioners and teachers concerned with the modeling and design of real-time systems. There are many illustrative diagrams and detailed explanations."
Embedded Software Methodologist. Triathlete. Systems engineer. Contributor to UML and SysML specifications. Writer. Black Belt. Neuroscientist. Classical guitarist. High school dropout. Bruce Powel Douglass, who has a doctorate in neurocybernetics from the USD Medical School, has over 35 years of experience developing safety-critical real-time applications in a variety of hard real-time environments. He is the author of over 5700 book pages from a number of technical books including Real-Time UML, Real-Time UML Workshop for Embedded Systems, Real-Time Design Patterns, Doing Hard Time, Real-Time Agility, and Design Patterns for Embedded Systems in C. He is the Chief Evangelist at IBM Rational, where he is a thought leader in the systems space and consulting with and mentors IBM customers all over the world. He can be followed on Twitter @BruceDouglass. Papers and presentations are available at his Real-Time UML Yahoo technical group (http://tech.groups.yahoo.com/group/RT-UML) and from his IBM thought leader page (www-01.ibm.com/software/rational/leadership/thought/brucedouglass.html).
Chief Evangelist, IBM Internet of Things, Fairfax, VA, USA