Part II Design

Part II continues from chapter 4 to chapter 6, which dealt with design problems. Design principle was proposed for mechanism consisting of active and deformable 

The electric field for driving gel robots was developed without changing the shape of the gel in chapter 5. Then the shape of the gel was changed to the same electric field and compared the results in chapter 6. With this respective method, we can explore design space systematically and effectively. This method is applicable to design of other machines consisting of active materials that interact with outside environment. 

Part 111 consists of chapter 7 and chapter 8, which studied control problems. The difficulty arises from that the numbers of input is smaller than the numbers of output. The problems were arranged into shape control and motion control. The goal of shape control is to reach the final shape and the speed or deformation process is not in question. On the other hand, the goal of motion control is to generate desired motion in a required time and the final shape is not considered. Example methods for achieving these goals were shown. 

We challenged to control shape of gel robots in chapter 7, and motion of gel robots in chapter 8. As for shape control, series of input are timely integrated. In this way, the numbers of input virtually increase. As for motion control, each 

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Kremer, M. 2000b. Creating Markets for New Vaccines Part II Design Issues. National Bureau of Economic Research Working Paper 7717. 

G. Buergel J. Steiner, "Summary Report Part I, Applied Research for A Spin-Setback Simulator (1965) G. Buergel, "Summary Report Part II, Design Analysis... 

Protocols for traceability in chemical analysis. Part II Design and use 25... 

Price J. Blow-fill-seal technology Part II, design optimization of a particulate control system. Pharm Technol February 1999. 

B. Chance, The accelerated flow method for rapid reactions. Part II. Design, construction, and tests. I. Apparatus construction, J. Franklin Inst. 229 (1940) 737. 

Townsend DW, Linnhoff B (1983b) Heat and power networks in process design. Part II design procedure for equipment selection and process matching, AIChE Journal, 29(5), 748-771. 

Vardar-Sukan, F. Dynamics of Oxygen Mass Transfer in Bioreactors. Part II Design Variables. Proc. Biochem., 21, 40, (1986). 

Kuo C-F J, Vu H Q and Li Y-C (2013b), Quahty and uniformity control of fiber web by roller card system. Part II Design and validation of a roller card control system , Text Res J, 83(9), 947-960. 

Gammon, B.E., Marsh, K.N., Dewan, A.K.R. (1994). Transport Properties and Related Thermodynamic Data of Binary Mixtures, Part II, Design Institute for Physical Property Data (DIPPR), American Institute of Chemical Engineers, 345 East 47th Street, New Yoric, NY 10017. 

Recommended Practice for the Design and Installation of Pressure Relieving Systems in Refineries, Part I— Design, latest edition. Part II— Installation, latest edition RP 520 American Petroleum Institute. 

API RP 520—Recommended Practice for the Design (Part 1) and Installation (Part II) of Pressure Relieving Systems in Refineries, 1976(1) and 1973(11), American Petroleum Institute, 1220 L Street, NW., Washington, D.C., 20005. 

Most of the information required In Part I and all of the Information required In Part II of Form R can be filled In and photocopied and attached to each chemical-specific report. Part I must have an original signature on the certification statement and the trade secret designation must be entered as appropriate. You have the option to complete Part II for only the off-site locations that apply to the Individual chemical cited In the report g you can list all off-site locations that apply to all chemicals being reported and Include a photostatic copy of this Part II with each individual report. Part III must be completed separately for each chemical. Part IV provides additional space, if needed, to complete the information required by the preceding sections of the form. Include Part IV In your report, even it it Is blank. 

Mydlarz, I. and Jones, A.G., 1989. Crystallization and subsequent solid-liquid separation of potassium sulphate. Part II Slurry filtrability. Chemical Engineering Research and Design, 67, 294-300. 

AISC specifications for the design fabrication and erection of structural steel for buildings shall govern the design of these steel structures (for AISC specifications, see the current edition of Steel Construction Manual of the American Institute of Steel Construction). Only Part I of the AISC manual, the portion commonly referred to as elastic design, shall be used in determining allowable unit stresses use of Part II, which is commonly referred to as plastic... 

Conf) O) Anon, Tripartite Anti-Tank Trials and Lethality Evaluation. Part II. Volume I. 1. Warhead Design Data. 

Let us now give a brief synopsis of the themes advanced by each of the ten chapters. The five chapters of Volume 21 (Part 1) advance paradigms which are related to product and process design, while the five chapters of Volume 22 (Part II) focus on aspects of process operations. 

K. R. Minard, R. A. Wind 2001, (Sole-noidal microcoil design - Part II Optimizing winding parameters for maximum signal-to-noise performance), Concepts Magn. Reson. 13, 190. 

AIChE (1985) Design Institute for Physical Property Data, Data Compilation, Part II (AIChemE). 

Lukchis, G.M. Adsorption Systems, Part II Equipment Design, Chemical Engineering, July 9, 1973, p. 83. 

American Petroleum Institute (API), RP-520. Design and Installation of Pressure Relieving Systems. Part I Design (1993) and Part II Installation (19881. API, Washington, D.C. 

Part II is mainly about techniques and notations, the language for modeling using objects. These techniques are used to describe how an individual object behaves externally (its specification as a type) and how it is designed internally as a group of interacting objects (a collaboration). 

Parts II, III, and IV cover basic techniques for modeling with objects and advanced techniques for factoring and then recombining models and designs using packages, frameworks, and components. They do not describe a development process the steps to validate and document these models. 

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