Design and Implementation of CNC Sculpture Control System Based on NURBS Interpolation Algorithm

Xiaobo Yu
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Abstract

Artificial intelligence is the crystallization of human intelligence and an important transformation of human labor tools. In the future development process, artificial intelligence will become a new and high-quality tool, which will bring great value to mankind. The engraving machine numerical control (CNC) system is an automatic tracking system, which has strong practical value. According to the characteristics of NURBS interpolation algorithm, this paper designs a CNC sculpture control system based on NURBS interpolation algorithm, and improves its dynamic characteristics and positioning accuracy. Through the system performance test of the CNC sculptor designed in this paper, starting from the stability and safety, we can see from the experimental data that the CNC sculptor designed in this paper has high stability and safety. In addition, compared with the time spent by the market engraving machine and the CNC engraving machine designed in this paper, it takes 22 minutes and 20 minutes for the market engraving machine and the CNC engraving machine designed in this paper to carve one wooden plate respectively. To sum up, the CNC sculpture control system designed in this paper has a good effect and is worthy of further promotion and application.
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基于NURBS插值算法的数控雕刻控制系统的设计与实现
人工智能是人类智能的结晶,是人类劳动的重要转化工具。在未来的发展过程中,人工智能将成为一种新的、高质量的工具,将为人类带来巨大的价值。雕刻机数控(CNC)系统是一种自动跟踪系统,具有很强的实用价值。根据NURBS插补算法的特点,设计了一种基于NURBS插补算法的数控雕刻控制系统,并对其动态特性和定位精度进行了改进。通过对本文设计的数控雕刻机的系统性能测试,从稳定性和安全性出发,从实验数据可以看出,本文设计的数控雕刻机具有较高的稳定性和安全性。此外,与市场雕刻机和本文设计的数控雕刻机所花费的时间相比,市场雕刻机和本文设计的数控雕刻机雕刻一块木板分别需要22分钟和20分钟。综上所述,本文设计的数控雕刻控制系统效果良好,值得进一步推广应用。
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