BE.410 Spring 2003-Lecture 21 Image removed due to copyright considerations Figure 1 and 2 in Evans, E and A. Yeung Cortical shell-liquid core model for passive flow of liquid-like spherical cells into micropipets Biophysical Journal 56(1): 139-49 July 1989) 和以81mh(m41m如) era rgion incid Arie /dorms a
342 Index bowl chopping 178, 179 and chilling 73-4 brittleness of frozen meat 180 and conditioning 74-5 bulk storage rooms 224 and freezing 76 and frozen storage 76-8 80-1 live animal factors 73 calpain-tenderness model 5
1. Mode of transport and receipt documents (1 By sea: Marine/Ocean B/L; Through B/L CTD(Combined Transport Document or B/L) MTD (Multi-model transport document (2 ) by air: Air Waybill (3) by road or rail: Cargo Receipt(承运货物收据);
Interpretations With noise in the system, the model is of the form =AC+ Bu+ Buw, y= Ca +U And the estimator is of the form =Ai+ Bu+L(y-9,y=Ci e Analysis: in this case: C-I=[AT+ Bu+Buw-[Ac+ Bu+L(y-gI A(-)-L(CI-Ca)+B
State-Space Systems What are the basic properties of a state-space model, and how do we analyze these? e Time Domain Interpretations System Modes Copyright 2001 by Jonathan How
Topic 8 16.31 Feedback Control State-Space Systems What are state-space models? Why should we use them? How are they related to the transfer functions used in classical control design and how do we develop a state- space model?
Fall 2001 16.313-1 Introduction Root locus methods have Advantages k Good indicator if transient response k Explicity shows location of all closed-loop poles Trade-offs in the design are fairly clear Disadvantages k Requires a transfer function model(poles and zeros) k Difficult to infer all performance metrics k Hard to determine response to steady-state(sinusoids