Bend or surface remaking is a testing issue in the fields of building outline, virtual reality, film making and information representation. Non-uniform sane B-spline (NURBS) fitting has been connected to bend and surface remaking for a long time since it is an adaptable technique and can be utilized to construct numerous complex numerical models, not at all like certain different strategies. To apply NURBS fitting, there are two noteworthy troublesome sub-issues that must be comprehended: (1) the assurance of a bunch vector and (2) the calculation of weights and the parameterization of information focuses. These two issues are very testing and decide the viability of the general NURBS fit. In this examination, we propose another strategy, which is a mix of a half and half enhancement calculation and an iterative plan (with the acronym HOAAI), to address these challenges. The curiosities of our proposed strategy are the accompanying: (1) it presents an anticipated enhancement calculation for improving the weights and the parameterization of the information focuses, (2) it gives an iterative plan to decide the bunch vectors, which depends on the figured point parameterization, and (3) it
proposes the limit decided parameterization and the segment based parameterization for disorderly focuses. We direct numerical analyses to quantify the execution of the proposed HOAAI with six test issues, including a muddled bend, curved and particular surfaces, chaotic information focuses and, in particular, genuine measured information focuses from the Mashan Pumped Storage Power Station in China. The recreation comes about demonstrate that the proposed HOAAI is quick, viable and vigorous against clamor. Besides, a correlation with different methodologies demonstrates that the HOAAI is focused regarding both exactness and runtime costs.
محتويات مواقع أعضاء هيئة التدريس بما فيها من نصوص وملفات وصور وأبحاث وأية مواد أخرى هي مسئولية عضو هيئة التدريس بالكامل بصفته صاحب الموقع وبما له من صلاحية مطلقة في الإضافة والحذف، وتخلي الجامعة مسئوليتها عن محتويات تلك المواقع.
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