摘要
设计了软件的主要工作流程和功能,研究了VS与ANSYS的接口技术、ANSYS宏封装技术,实现了ANSYS二次开发;通过弦截法完成了仿真声场与实测声场的匹配,实现了水声换能器参数反演功能,为水声换能器的设计与测试提供了理论依据与技术支持。
The work flow and functions of the software are designed,and the secondary development of ANSYS is realized by research of the interface technology between VS and ANSYS and the macro encapsulation technology of ANSYS.The matching of simulated sound field and measured sound field is completed by chord truncation method,and the parameter inversion function of underwater acoustic transducer is realized,which provides theoretical basis and technical support for the design and test of underwater acoustic transducer.
作者
李涛
耿鹏飞
原晓娟
田杜养
LI Tao;GENG Peng-fei;YUAN Xiao-juan;TIAN Du-yang(CSIC Xi’an Dong Yi Science Technology & Industry Group Co.,Ltd.,Xi’an Shaanxi 710072)
出处
《数字技术与应用》
2019年第2期171-173,共3页
Digital Technology & Application
关键词
ANSYS二次开发
弦截法
水声换能器
参数反演
the secondary development of ANSYS
chord truncation method
acoustic underwater transducer
parameter inversion
