文件名称:07389549
介绍说明--下载内容均来自于网络,请自行研究使用
Firstly, this study does research on the
quantitative uation of the acoustic performance of the planar ultrasonic array sensors. Sparse signal decomposition
theory is then applied to find three different directions of arrival (DOAs) of the signal the PD source to the array
sensor. Next, using two of the DOAs (azimuth and pitch), the location of the PD is determined as the centre of a sphere
whose surface is tangential to the three DOAs in three different planes. The positioning accuracy of the sensors is then
derived. Finally, simulation results show that the acoustic performance of the circular array is the best. It also produces
the most accurate location results. Therefore, a circular array is the optimal form to use for the construction of a planar
array sensor.-Firstly, this study does research on the
quantitative uation of the acoustic performance of the planar ultrasonic array sensors. Sparse signal decomposition
theory is then applied to find three different directions of arrival (DOAs) of the signal the PD source to the array
sensor. Next, using two of the DOAs (azimuth and pitch), the location of the PD is determined as the centre of a sphere
whose surface is tangential to the three DOAs in three different planes. The positioning accuracy of the sensors is then
derived. Finally, simulation results show that the acoustic performance of the circular array is the best. It also produces
the most accurate location results. Therefore, a circular array is the optimal form to use for the construction of a planar
array sensor.
quantitative uation of the acoustic performance of the planar ultrasonic array sensors. Sparse signal decomposition
theory is then applied to find three different directions of arrival (DOAs) of the signal the PD source to the array
sensor. Next, using two of the DOAs (azimuth and pitch), the location of the PD is determined as the centre of a sphere
whose surface is tangential to the three DOAs in three different planes. The positioning accuracy of the sensors is then
derived. Finally, simulation results show that the acoustic performance of the circular array is the best. It also produces
the most accurate location results. Therefore, a circular array is the optimal form to use for the construction of a planar
array sensor.-Firstly, this study does research on the
quantitative uation of the acoustic performance of the planar ultrasonic array sensors. Sparse signal decomposition
theory is then applied to find three different directions of arrival (DOAs) of the signal the PD source to the array
sensor. Next, using two of the DOAs (azimuth and pitch), the location of the PD is determined as the centre of a sphere
whose surface is tangential to the three DOAs in three different planes. The positioning accuracy of the sensors is then
derived. Finally, simulation results show that the acoustic performance of the circular array is the best. It also produces
the most accurate location results. Therefore, a circular array is the optimal form to use for the construction of a planar
array sensor.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
07389549.pdf