Romanna Malets scite author profile

The success of the project depends on the quality of management, in particular, the management methodology chosen for the project. When it comes to developing new software, the development team and the customer are faced with the methodology choice and approach to the development of this software. The purpose of this work is to explore and analyze two completely different approaches to software development – the traditional (Waterfall) and the flexible (Agile). In the article are described implementation principles, advantages, and disadvantages of traditional (Waterfall) and flexible (Agile) methodology. It is made an emphasis on using these methodologies on real projects are made. Also, we analyzed the so-called “Project Management Triangle” and its role in project formation using different management methodologies. A visual representation of the software development process using these two methodologies was embedded to better understanding the specifics of each. During the analysis, conclusions were made regarding the relevance of methodologies in a modern, dynamic environment. Detailed description and analyze of Manifesto of Flexible Software Development, which changed people's perception of the process of developing and creating new projects not only in the field of IT but also in all other spheres of life, were conducted. As a result, were made conclusions about the inability of traditional methodologies (including the Waterfall model) to meet modern market requirements and was preferred Agile methodology, which enables customer requirements to be met in a dynamic environment, ready to changes and promote them.

show abstract

Modeling of Thermoviscoelasticity Time Harmonic Variational Problem for a Thin Wall Body

Malets

Shynkarenko

Malets

et al. 2018

View full text Add to dashboard Cite

Investigation of the non-stationary thermoelastic state of shells compliant to shears and compression

Vagin¹,

Козій²,

Malets³

et al. 2018

RMM

View full text Add to dashboard Cite

Сформульовано лiнiйну початково-крайову задачу для тонких оболонок, податливих до зсувiв та стиснення (шестимодальний варiант). Записано ключовi рiвняння для визначення нестацiонарного термопружного стану розглядуваних оболонок. Особливiсть використаної моделi полягає в тому, що за основу взята кiнематична гiпотеза оболонок типу Тимошенка-Мiндлiна (п'ятимодальний варiант), згiдно з якою нормальний елемент недеформованої оболонки пiсля її навантаження залишається прямолiнiйним, але може змiнювати свою довжину i не бути ортогональним до деформованої серединної поверхнi. Чисельно розв'язано задачу визначення термонапружень пластини, що перебуває в умовах нерiвномiрного нагрiву. Розглянуто випадок, коли пластина нагрiвається шляхом теплообмiну згiдно з законом Ньютона з середовищем, температура якого описується нормально-круговим законом. Здiйснено порiвняльний аналiз отриманих чисельних розв'язкiв з розв'язками, наведеними в лiтературi. MSC: 74R10. Ключовi слова: оболонка, термопружнiсть, метод скiнченних елементiв .

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Romanna Malets

Forecasting Nonlinear Nonstationary Processes in Machine Learning Task

Modeling of Animator Studio Control Service Functionality Using Data Mining Tools

Analysis of the Traditional and Flexible Approaches to Creating Software in Dynamic Conditions

Modeling of Thermoviscoelasticity Time Harmonic Variational Problem for a Thin Wall Body

Investigation of the non-stationary thermoelastic state of shells compliant to shears and compression

Contact Info

Product

Resources

About