This capability will allow engineers to quickly identify design variables and constraints, select quantities to minimize or maximize, and easily find optimal designs and design sensitivities.
What does DV stand for?
DV stands for Design Variable
This definition appears very frequently and is found in the following Acronym Finder categories:
- Military and Government
- Science, medicine, engineering, etc.
See other definitions of DV
We have 20 other meanings of DV in our Acronym Attic
- Delivery Verification Certificate
- Deluxe Version
- Demand for Validation (credit)
- Demand Valve
- Dengue Virus
- Deo Volente (Latin: God Willing)
- Dependent Variable
- Depreciated Value
- Descent Vehicle
- Design Validation
- Design Verification
- Designated Verification (cryptography)
- Desktop Virtualization
- DESQview Script (file name extension)
- Deus Volent (Latin; God Willing)
- Deus Vult (Latin: God Wills It)
- Developed Vetting
- Developer (copier component)
- Devota Virgo (Latin: Devout Virgin, epigraphy)
- Devotus Vir (Latin: Devout Man, epigraphy)
Samples in periodicals archive:
In order to find out the influence of the design variables on the mechanical properties of the composite different material compositions were prepared and tested.
i] is a value of the design variable corresponding to global search and [[delta].
Barzilai--as the basis for such a design methodology in architecture, proposing a procedure called Preference-Based Design in which stakeholders express preferences by rating values for design variables and these values are then evaluated using Barzilai's algorithm in order to find the design that is feasible and most preferred by all stakeholders.
Some parameters will have constant values in the optimization, and others are design variables and are declared as such; --Constant values of the parameters and limits of variation of design variables must be set with discretion, so the junction do not degenerate, namely geometric configurations with overlap, gaps, outliers distortions etc.
It is clear that these specific loadings are design variable.
This paper summarizes findings in three key areas: the reliability of Pb-free area array connectors as compared with SnPb area array connectors, the effect of TV design variables on the reliability of the Pb-free connectors, and finally, the impact of repeated mating and unmating on the performance of the connectors in accelerated thermal cycling.