Methodology to Solve Optimal Placement Problems for 3D Objects

Methodology to Solve Optimal Placement Problems for 3D Objects

This paper is devoted to solving optimization problems of packing 3D objects both by constructing exact mathematical models and by developing approaches based on the application of non-linear optimization methods and modern solvers. Developed are constructive tools for both mathematical and computer...

Повний опис

Збережено в:
Бібліографічні деталі
Дата:2020
Автори: Chuhai, Andrii M., Stoian, Yurii H.
Формат: Стаття
Мова:English
Ukrainian
Опубліковано: Інститут енергетичних машин і систем ім. А. М. Підгорного Національної академії наук України 2020
Теми:
packing
3D objects
geometric design
phi-functions
mathematical modeling
continuous rotations
nonlinear optimization
UDC 519.85
упаковка
тривимірні тіла
геометричне проектування
Ф-функції
математичне моделювання
неперервні обертання
нелінійна оптимізація
УДК 519.85
трехмерные тела
геометрическое проектирование
Ф-функции
математическое моделирование
непрерывные вращения
нелинейная оптимизация
Онлайн доступ:https://journals.uran.ua/jme/article/view/206729
Теги: Додати тег
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Назва журналу:Energy Technologies & Resource Saving

Репозитарії

Energy Technologies & Resource Saving
Опис
Резюме:This paper is devoted to solving optimization problems of packing 3D objects both by constructing exact mathematical models and by developing approaches based on the application of non-linear optimization methods and modern solvers. Developed are constructive tools for both mathematical and computer modeling of relations between oriented and non-oriented 3D objects, whose boundaries are formed by cylindrical, conical, and spherical surfaces and planes in the form of new classes of both Stoyan’s Φ-functions (further referred to as phi-functions) and quasi-phi-functions. Based on the developed mathematical modeling tools, constructed and investigated is the basic mathematical model of the problem of optimally packing 3D objects, whose boundaries are formed by cylindrical, conical, and spherical surfaces and planes, as well as the model’s various implementations, which cover a wide class of scientific and applied problems of packing 3D objects. Developed is the methodology for solving the problems of packing 3D objects that allow both continuous rotations and translations at the same time. Proposed are strategies, methods and algorithms for solving the optimization problems of packing 3D objects with taking into account technological constraints (minimum admissible distances, prohibited zones, the possibility of continuous translations and rotations). On the basis of the proposed mathematical modeling tools, mathematical models, methods, and algorithms, developed is the software that uses parallel computing technology to automatically solve the optimization problems of packing 3D objects. The results obtained can be used for solving problems of optimizing layout solutions; for computer modeling in materials science, powder metallurgy, and nanotechnologies; in optimizing the 3D printing process for the SLS technology of additive production; in information and logistics systems that optimize transportation and storage of goods.

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