Revised and expanded guide demonstrates microcomputer usage by working through one simple design challenge and explaining its solution. This edition features the contributions of an Ada expert, demonstrates (in 14 new chapters) the development of a microcomputer system structured by this language.
Revised and expanded guide demonstrates microcomputer usage by working through one simple design challenge and explaining its solution. This edition features the contributions of an Ada expert, demonstrates (in 14 new chapters) the development of a microcomputer system structured by this language, a
Covering the roles and responsibilities of the project manager, this second edition describes requirement specifications, work breakdown structures, project control and risk management, and offers new information on motivation, matrix arrangements, and project records. Discussing the anatomy of a project planning and control and techniques, the authors describe the project manager's entire range of responsibilities from initial planning to directing personnel, controlling work, and reporting results. The appendices cover work breakdown structure paradigms, cost versus time profiles, and checklists to assess work done.
This book presents a brief description of what constitutes computer modeling and simulation with techniques given to get a feel for how some of the simulation software packages involving hundreds of thousands of lines of code were developed.
Describes facets of CAD/CAM. Illustrates how each is tied together in an integrated system. Serves as a text for college-level courses in mechanical or manufacturing engineering; for professional in-house training programs & seminars.
This book covers the entire scope of computer programming and Structured Program Design, from problem identification to maintaining existing programs. It is intended for two audiences: beginning programmers and experienced programmers seeking ways to improve the quality of their software.
Finite element analysis (FEA) has become the dominant tool of analysis in many industrial fields of engineering, particularly in mechanical and aerospace engineering. This process requires significant computational work divided into several distinct phases. What Every Engineer Should Know About Computational Techniques of Finite Element Analysis offers a concise, self-contained treatment of FEA and all of the tools needed for efficient use and practical implementation. This book provides you with a walk-through of the process from the physical model to the computed solution. Based on the author's thirty years of practical experience in finite element analysis in the shipbuilding, aerospace, and automobile industries, it describes the transformation of the physical problem into a mathematical model, reduction of the model to a more efficient, numerically solvable form, and the solution of the problem using specific computational techniques. The author discusses time and frequency domain solutions as used in practice, as well as the representation of the computed results. What Every Engineer Should Know About Computational Techniques of Finite Element Analysis serves as a to-the-point guide to using or implementing FEA for both beginners and everyday users who must apply the finite element method to your daily work. The techniques can be easily executed in most available FEA software packages.