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Assembler engine

Bolger, J. C., and Lysaght, M. J., New Heating Methods and Cures Expand Uses for Epoxy Bonding, Assembly Engineering, March 1971, pp. 46-49. [Pg.288]

Rational domain assembly - engineering zinc fingers... [Pg.199]

Before other components of the gap4 package are described, a brief introduction to the phrapview program is warranted. Phrapview is distributed along with the phrap assembly engine and is a graphical viewer for phrap assemblies. It is intended to... [Pg.308]

Figure 13.2. A screen dump from the program phrapview, showing a graphical display of the state of the data immediately after a run of the phrap assembly engine. See text for details. (See color plate.)... Figure 13.2. A screen dump from the program phrapview, showing a graphical display of the state of the data immediately after a run of the phrap assembly engine. See text for details. (See color plate.)...
The three essential technologies for assembly engineering explained in this section are product design for assembly, simultaneous engineering, and automation of connecting techniques. [Pg.367]

A. G. Bachmann, Adhesives spur innovation. Assembly Engineering, February 1990. [Pg.787]

Meyer, G., and Strelow, D., Simple Diagrams Aid in Analyzing Forces in Bolted Joints, Assembly Engineering (January 1972), pp. 28-33. [Pg.106]

Horsch, R., Solve Complicated Force Problems with Simple Diagrams, Assembly Engineering (December 1972), pp. 22-24. [Pg.106]

Assembly engineers find that line workers need minimal training and skill to work with engineered laminates. Because they can be engineered and die cut for specific assembly lines and surfaces, fewer hands are required to join product parts. This results in reduced labor costs, which could in turn affect price point competitiveness. This customizable characteristic of an engineered laminate ensures quality, consistency, precision and faster production time. [Pg.30]

C. H. Yang, Y. K. Chih, W. C. Wu, C. H. Chen, Molecular assembly engineering of self-doped polyaniline film for application in electrochromic devices, Electrochemical and Solid State Letters 2006, 9, C5. [Pg.155]

Type of couphng Is the entire assembly (engine—gear box—generator) available as a pre-aligned, skid-mormted unit ... [Pg.190]

ESDU Item No. 78028 "Equilibrium temperatures In self-contained bearing assemblies. Part III Estimation of thermal resistance of an assembly". Engineering Sciences Data Unit, London, 1979. [Pg.586]

Assembly Requirements. The assembly engineers, whether contract Electronics Manufacturing Services (EMS) provider, independent original design manufacturer (ODM), or captive OEM, have requirements that are very different from those of the PCB fabrication... [Pg.752]

The impact of changing fluxes This is especially useful for lead-free assembly development, given the myriad of surface finishes the assembly engineer is now faced with. [Pg.1001]

Raw materials. These vary widely in characteristics, depending on the industry. A few examples are raw foods and ingredients for food processors, thousands of small parts for electronics assemblers, engines and motors for manufacturers of vehicles, and wood and finishes for furniture manufacturers. Raw materials are the goods on which the manufac-tirring process will operate to produce salable products. Indeed, the finished goods of one manufacturer often become the raw materials of another. [Pg.226]

The synthesis values for instantiating sounds are recorded in a knowledge base as a collection of slot values. To produce a sound, an assembler engine is then responsible for collecting the appropriate slot values, filling the slots of the ASS and activating the synthesis instrument (Figure 7.4). [Pg.162]

To summarise, a sound event in Artist is composed of several sound attributes. Each sound attribute in turn corresponds to one or a set of synthesis parameters. An assembler engine is responsible for computing the necessary synthesis parameter values in order to produce a sound event. The input for the assembler engine can be either the name of the desired sound event, or a set of attribute values alternatively, one can also input numerical synthesis parameter values. The output from the assembler engine is a set of synthesis parameter values which in turn are used for synthesising the required sound event (Figure 7.11). [Pg.168]

Figure 7.11 The functioning of Artist. The assembler engine deduces the synthesis parameters values for... Figure 7.11 The functioning of Artist. The assembler engine deduces the synthesis parameters values for...
The assembler engine is programmed to infer from the system s ASS that, for example, sound(a) is described by having three attributes and values low openness, high acuteness and low fundamental frequency. Furthermore, it can infer that low openness and high acuteness mean FI = 290 Hz and F2 = 1870 Hz, respectively and that low fundamental frequency means FO = 220 Hz. [Pg.169]

See other pages where Assembler engine is mentioned: [Pg.307]    [Pg.307]    [Pg.308]    [Pg.354]    [Pg.367]    [Pg.1267]    [Pg.782]    [Pg.913]    [Pg.128]    [Pg.913]    [Pg.386]    [Pg.423]    [Pg.456]    [Pg.1037]    [Pg.1236]    [Pg.67]    [Pg.317]    [Pg.164]    [Pg.169]    [Pg.169]    [Pg.1082]   


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Engineered assemblies

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