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Microencapsulation is a process in which tiny particles or droplets are surrounded by a coating to give small capsules, with useful properties. [ 1 ] [ 2 ] In general, it is used to incorporate food ingredients , [ 3 ] enzymes , cells or other materials on a micro metric scale.
All object-oriented programming (OOP) systems support encapsulation, [2] [3] but encapsulation is not unique to OOP. Implementations of abstract data types, modules, and libraries also offer encapsulation. The similarity has been explained by programming language theorists in terms of existential types. [4]
mlpack is a free, open-source and header-only software library for machine learning and artificial intelligence written in C++, built on top of the Armadillo library and the ensmallen numerical optimization library. [3] mlpack has an emphasis on scalability, speed, and ease-of-use.
Microencapsulation is a valuable technique for local, regional and oral delivery of therapeutic products as it can be implanted into numerous tissue types and organs. For prolonged drug delivery to the treatment site, implantation of these drug loaded artificial cells would be more cost effective in comparison to direct drug delivery.
The Journal of Microencapsulation is a peer-reviewed scientific journal that covers research on the preparation, properties, and uses of individually encapsulated novel small particles, as well as improvements to techniques using micro and nano particles in industrial, engineering, pharmaceutical, biotechnology, and research applications.
Access modifiers (or access specifiers) are keywords in object-oriented languages that set the accessibility of classes, methods, and other members. Access modifiers are a specific part of programming language syntax used to facilitate the encapsulation of components. [1] In C++, there are only three access modifiers.
The NAG Library has C++ API; NTL is a C++ library for number theory. OpenFOAM is an open-source C++ library for solving partial differential equations in computational fluid dynamics (CFD). SU2 code is an open-source library for solving partial differential equations with the finite volume or finite element method.
If there is a single dominant theme in this book, it is that practical methods of numerical computation can be simultaneously efficient, clever, and — important — clear. The alternative viewpoint, that efficient computational methods must necessarily be so arcane and complex as to be useful only in "black box" form, we firmly reject. [3]