论文信息 - FPGA architectures for real-time 2D/3D FIR/IIR plane wave filters

FPGA architectures for real-time 2D/3D FIR/IIR plane wave filters

Real-time plane wave (PW) filters find many applications in 2D/3D array signal processing. In this work, FPGA architectures are proposed for the real-time implementation of 2D/3D FIR and IIR PW filters. Fully parallel and time division multiplexed (TDM) FIR/IIR filter structures are described for the implementation of 2D/3D frequency planar and 2D fan filters on Xilinx FPGAs. Simulations demonstrate the usefulness of the FPGA technology for rapidly prototyping real-time VLSI/CMOS implementations of FIR and IIR 2D/3D PW filters. The proposed high-speed parallel 2D IIR filter structures promise temporal band-widths of up to 150 MHz using a 300 MHz FPGA chip and the proposed TDM filter structures may be used to implement 3D beam FPGA filters having a temporal sample rate of 180 KHz for a 40/spl times/40 rectangular sensor array.

Arjuna Madanayake | Leonard T. Bruton | Chris Comis

[1] Leonard T. Bruton,et al. Three-dimensional cone filter banks , 2003 .

[2] R.K. Bertschmann,et al. A 3-D integrator-differentiator double-loop (IDD) filter for raster-scan video processing , 1995, Proceedings of ISCAS'95 - International Symposium on Circuits and Systems.

[3] Leonard T. Bruton,et al. Reducing the computational complexity of narrowband 2D fan filters using shaped 2D window functions , 2003, Proceedings of the 2003 International Symposium on Circuits and Systems, 2003. ISCAS '03..

[4] Leonard T. Bruton,et al. Practical-BIBO stability of n-dimensional discrete systems , 1983 .

[5] Leonard T. Bruton,et al. Three-dimensional image processing using the concept of network resonance , 1985 .