Search Results - aradhita+sharma

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Quantum computing has the potential to significantly impact massive signal processing operations. Research is being done in exploring ways to harness its potential for signal processing applications. The use of quantum computing for signal processing holds great promise for improving the speed and accuracy in several signal processing applications...

Published: 8/7/2024 | Inventor(s): Andreas Spanias, Aradhita Sharma, Glen Uehara

Keywords(s): PS-Computing and Information Technology, Quantum Computing, Signal Processing

Category(s): Computing & Information Technology, Physical Science

Quantum Autocorrelation Computation Using QFT

Quantum computing offers unprecedented computational power, enabling the solution of complex problems beyond the reach of classical computers. In signal processing, autocorrelation is used to analyze signals and extract valuable information, but traditional methods involve high computational complexity due to numerous multiplications and additions....

Published: 8/7/2024 | Inventor(s): Aradhita Sharma, Glen Uehara, Andreas Spanias

Keywords(s): PS-Computing and Information Technology, Quantum Computing, Signal Processing

Category(s): Computing & Information Technology, Physical Science

Quantum Fourier Transform Tools for Signal Analysis-Synthesis and Compression

Quantum computing (QC) is a multidisciplinary field comprising aspects of computer science, physics, and mathematics that utilizes quantum mechanics to solve complex problems faster than on classical computers (e.g., QC promises to process data with estimated speeds exceeding 100 million times relative to classical computers). Signal processing is...

Published: 3/27/2024 | Inventor(s): Andreas Spanias, Aradhita Sharma, Leslie Miller, Glen Uehara

Keywords(s): Algorithm Development, Circuits, PS-Computing and Information Technology, Quantum Computing, Signal Processing

Category(s): Computing & Information Technology, Physical Science