The creation of complex integrated systems is, in itself, complex. It requires immense planning, a large team of people with diverse backgrounds, based in dispersed geographical locations (and countries) supposedly working to a coordinated schedule and cost. The systems engineering task is not new, but recent scales most definitely are. The world is now capable of designing and manufacturing systems whose complexity was not considered possible ten years ago. While many are trained to think in terms of a complete system, where 'everything' is designed and produced by a single project team, today such systems involve integrating subsystems and components (which are also complex) that have been developed by other project teams. Inevitably this introduces additional complexities, involving elements out of the direct control of the project, but which are essential to its overall success.
Key Features:
- Brings together experiments from a variety of disciplines, include electrical engineering, software engineering, project management, reliability, maintainability, logistics, safety, security, and human factors, to help the reader gain insight into the various issues, as well as how to address those issues
- Serves not only as textbooks, but as a reference and handbook for the practitioner, hence very little "theory" will be included
- Enables the reader to do a deep dive into the relevant texts to get more detail in any given topic when required
- Includes chapters written by a very large number of expert authors, bringing a variety of
- background and perspectives to the task at hand.
In addition to traditional systems engineering topics of hardware/software design, testability, and manufacturability, there are wider issues to be contemplated: project planning; communication language (an issue for international teams); units of measure (imperial vs metric) used across members of the team; supply chains (pandemics, military action, natural disasters); legal issues based on place of production and sale; the ethics associated with target use; the threat of cyber-attack. This book is a first attempt to bring many of these issues together to highlight the complexities that need to be considered in modern system design. It is neither exhaustive nor comprehensive, but it gives pointers to the topics for the reader to follow up on in more detail.
The creation of complex integrated systems is, in itself, complex. It requires immense planning, a large team of people with diverse backgrounds, based in dispersed geographical locations (and countries) supposedly working to a coordinated schedule and cost.
