Title :
Edge-connected, crossed-electrode array for two-dimensional projection and beamforming
Author :
Schau, Harvey C.
Author_Institution :
US Naval Res. Lab., Orlando, FL, USA
fDate :
2/1/1991 12:00:00 AM
Abstract :
A novel geometry for planar structures which allows simpler implementation and construction while trading off higher signal processing costs and possible reduced performance is introduced. A geometry for array construction which uses two sets of orthogonal striped electrodes is discussed. The basic operation principles of the geometry are given. While obtaining N2 intersecting points in a two-dimensional structure, only 2N control points are required. Thus, N2 active elements are controlled with 2N degrees of freedom, which simplifies both implementation and data handling. This gain in simplicity is traded off against reduced performance when used as a projector and increased signal processing when used in beamforming if the process is carried out in a two-step process. The limitations of the crossed-electrode geometry and discussed, and a theory for operation as a projector and a receiver is presented
Keywords :
acoustic arrays; image sensors; signal processing; 2N control points; 2N degrees of freedom; N2 active elements; N2 intersecting points; acoustic arrays; array construction geometry; beamforming; crossed-electrode array; data handling; edge connected array; implementation; optical imaging; orthogonal striped electrodes; planar structures; projector; receiver; reduced performance; signal processing costs; two-dimensional projection; Acoustic devices; Acoustic materials; Array signal processing; Crystalline materials; Electrodes; Geometrical optics; Optical devices; Optical materials; Optical receivers; Optical signal processing;
Journal_Title :
Signal Processing, IEEE Transactions on
