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The Sparse Fourier Transform - Haitham Hassanieh

The Sparse Fourier Transform

Buch | Softcover
279 Seiten
2018
Morgan & Claypool Publishers (Verlag)
978-1-947487-04-8 (ISBN)
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Fast algorithms for computing the Fourier transform can benefit a large number of applications. This book develops Sparse Fourier Transform algorithms and builds practical systems that use these algorithms to solve key problems in six different applications: wireless networks; mobile systems; computer graphics; medical imaging; biochemistry; and digital circuits.
The Fourier transform is one of the most fundamental tools for computing the frequency representation of signals. It plays a central role in signal processing, communications, audio and video compression, medical imaging, genomics, astronomy, as well as many other areas. Because of its widespread use, fast algorithms for computing the Fourier transform can benefit a large number of applications. The fastest algorithm for computing the Fourier transform is the Fast Fourier Transform (FFT), which runs in near-linear time making it an indispensable tool for many applications. However, today, the runtime of the FFT algorithm is no longer fast enough especially for big data problems where each dataset can be few terabytes. Hence, faster algorithms that run in sublinear time, i.e., do not even sample all the data points, have become necessary.

This book addresses the above problem by developing the Sparse Fourier Transform algorithms and building practical systems that use these algorithms to solve key problems in six different applications: wireless networks; mobile systems; computer graphics; medical imaging; biochemistry; and digital circuits.

This is a revised version of the thesis that won the 2016 ACM Doctoral Dissertation Award.

Haitham Hassanieh is an assistant professor in the Electrical and Computer Engineering and Computer Science departments at the University of Illinois at Urbana Champaign. He received his bachelor's in Computer and Communications Engineering from the American University of Beirut in 2009. He received his M.S. and Ph.D. in Electrical Engineering and Computer Science from the Massachusetts Institute of Technology in 2011 and 2016, respectively. He works on wireless networks, sensing systems, and algorithms. He has won multiple awards including the 2017 MobiSys Best Paper Award, the 2011 SIGCOMM Best Paper Award, the Sprowls award for best thesis in computer science at MIT, the TR10 award for Technology Review Top 10 Breakthrough Technologies, and the ACM Doctoral Dissertation Award.

Preface
1. Introduction
PART I: THEORY OF THE SPARSE FOURIER TRANSFORM
2. Preliminaries
3. Simple and Practical Algorithm
4. Optimizing Runtime Complexity
5. Optimizing Sample Complexity
6. Numerical Evaluation
PART II: APPLICATIONS OF THE SPARSE FOURIER TRANSFORM
7. GHz-Wide Spectrum Sensing and Decoding
8. Faster GPS Synchronization
9. Light Field Reconstruction Using Continuous Fourier Sparsity
10. Fast In-Vivo MRS Acquisition with Artifact Suppression
11. Fast Multi-Dimensional NMR Acquisition and Processing
12. Conclusion

Erscheinungsdatum
Verlagsort San Rafael
Sprache englisch
Maße 191 x 235 mm
Gewicht 525 g
Themenwelt Informatik Theorie / Studium Algorithmen
ISBN-10 1-947487-04-3 / 1947487043
ISBN-13 978-1-947487-04-8 / 9781947487048
Zustand Neuware
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