Reduction of Power in Phase unwrapping algorithm using RCA

Fathima Beevi M, Saju A, Vishnu Raj
Page No: 77-88
DOI: 10.86493/OTJ.2433811
Download PDFAbstract:
The paper presents a phase unwrapping architecture for imaging applications. The architecture is that theimplementation of a path-independent non-iterative Discrete Cosine Transform (DCT) based minimum mean square algorithm for accurate and fast phase unwrapping. The implementation is based on field programmable gate array. The architecture is able to exploit the parallelism among different stages of the algorithm for maximizing the throughput of the computation. To reduce the power a Ripple Carry Adder (RCA) is used. As compared with other implementations for fast phase unwrapping, the proposed architecture has the advantages of high throughput, high accuracy, and low power consumption. It is designed using Verilog HDL and is implemented using Xilinx 14.2 ISE tools

Citations

APA: Fathima Beevi M, Saju A, Vishnu Raj (2025). Reduction of Power in Phase unwrapping algorithm using RCA. DOI: 10.86493/OTJ.2433811

AMA: Fathima Beevi M, Saju A, Vishnu Raj. Reduction of Power in Phase unwrapping algorithm using RCA. 2025. DOI: 10.86493/OTJ.2433811

Chicago: Fathima Beevi M, Saju A, Vishnu Raj. "Reduction of Power in Phase unwrapping algorithm using RCA." Published 2025. DOI: 10.86493/OTJ.2433811

IEEE: Fathima Beevi M, Saju A, Vishnu Raj, "Reduction of Power in Phase unwrapping algorithm using RCA," 2025, DOI: 10.86493/OTJ.2433811

ISNAD: Fathima Beevi M, Saju A, Vishnu Raj. "Reduction of Power in Phase unwrapping algorithm using RCA." DOI: 10.86493/OTJ.2433811

MLA: Fathima Beevi M, Saju A, Vishnu Raj. "Reduction of Power in Phase unwrapping algorithm using RCA." 2025, DOI: 10.86493/OTJ.2433811