Fault Aware Systems: Model-based Programming and Diagnosis Brian C. Williams 16.412J/6.834J March 8th, 2004 courtesy of JPL Four launches in 7 months MERS CSAIL
L23- Fast Time Domain simulation via decomposition Prof olivier de Weck imulation of lti systems LTI systems are very common in engineering applications and simulating them is of great importance small dynamic urge dynamic
A methodology for the design of complex engineering systems and subsystems that coherently exploits the synergism of mutually interacting phenomena Optimal design of complex engineering systems which
2.1 Discrete-time signals:sequences 2.1.1 Definition 2.1.2 Classification of sequence 2.1.3 Basic sequences 2.1.4 Period of sequence 2.1.5 Symmetry of sequence 2.1.6 Energy of sequence 2.1.7 The basic operations of sequences 2.2 Discrete-time system 2.2.1 Definition:input-output description of systems 2.2.2 Classification of discrete-time system 2.2.3 Linear time-invariant system(LTI) 2.2.4 Linear constant-coefficient difference equation 2.2.5. Direct implementation of discrete-time system 2.3 Frequency-domain representation of discrete-time signal and system 2.3.1 definition of fourier transform 2.3.2 frequency response of system 2.3.3 properties of fourier transform
Overview lecture Space Systems Engineering presented by: Prof David Miller prepared by: Olivier de Weck Revised and augmented by: Soon-Jo Chung Chart: 1 16.684 Space Systems Product Development February 13, 2001
6.0 Introduction 6.1 Block Diagram Representation of Linear Constant-Coefficient Difference Equations 6.2 Signal Flow Graph Representation of Linear Constant-Coefficient Difference Equations 6.3 Basic Structures for IIR Systems 6.4 Transposed(转置) Forms 6.5 Basic Network Structures for FIR Systems
Module 7 Higher -Order Systems (1 hour) TF in Evans or Bode form Approximate a higher order system with a first or second order one Effect of zeros and poles on the transient response Origins of zeros
Chapter I – Principles of Regulatory Law in Regulatory States I - Founding Principles § 1 – The Emergence of Competition Law as General Regulatory Law § 2 - The Emergence of Sectorial Regulatory Law § 3 - Why Regulate ? - The Foundations of Public Action II – Principles Governing the Regulation Process § 1 – Regulatory Agencies and the Independence Principle §2 - Principles Governing Regulatory Agencies’ Action Chapter II – Principles of Regulatory Systems in Post-Regulatory States I – Multiplication of Regulation Levels § 1 - Global Regulation § 2 – The Increase of Private Self Regulation § 3 - The Increased Regulatory Function of Private Law II. Private Enforcement of Regulatory Law § 1 – The U.S. Regime of Private Enforcement of Regulatory Law: the Most Fully Developed among Modern Systems § 2 – The Emergence/development of Private Enforcement of Regulatory Law in Europe
Fundamentals and vocabulary I Scope This International Standard describes fundamentals of quality management systems, which form the subject of the iso 9000 family, and defines related terms
