Simulation and virtual testing with the help of digital twins : usage, challenges and future advancements
Ionita, Mihaela (2024)
Kandidaatintyö
2024
School of Engineering Science, Tietotekniikka
Kaikki oikeudet pidätetään.
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe2024091170364
https://urn.fi/URN:NBN:fi-fe2024091170364
Tiivistelmä
As technology is evolving constantly at a rapid pace, modern systems are becoming more and more complex and along with them new terms are arising within the industry. Among these recent advancements, we have discovered the concept of Digital Twins or Digital Twinning, also known as DT, which represents the suitable methodology for handling the complexities of designing, developing, as well as testing new products before the actual launch.
The aim of the thesis is to discuss the state-of-the-art in the application domain of simulation and virtual testing of products, covering important matters such as the understanding of the concept and terminology per-se, as well as in-depth subjects about the accuracy and the processes that come along with DT. This case study is based on previous articles or scientific papers, but also on adapted real-life use cases and/or information accordingly. Finally, the thesis will explore future advancements and potential optimization techniques that could further enhance the effectiveness of digital twins in simulation and virtual testing, offering a forward-looking perspective on this rapidly evolving field.
The aim of the thesis is to discuss the state-of-the-art in the application domain of simulation and virtual testing of products, covering important matters such as the understanding of the concept and terminology per-se, as well as in-depth subjects about the accuracy and the processes that come along with DT. This case study is based on previous articles or scientific papers, but also on adapted real-life use cases and/or information accordingly. Finally, the thesis will explore future advancements and potential optimization techniques that could further enhance the effectiveness of digital twins in simulation and virtual testing, offering a forward-looking perspective on this rapidly evolving field.