Название | The Sparse Fourier Transform |
---|---|
Автор произведения | Haitham Hassanieh |
Жанр | Программы |
Серия | ACM Books |
Издательство | Программы |
Год выпуска | 0 |
isbn | 9781947487062 |
10.1145/3166186.3166190 Chapter 3
10.1145/3166186.3166191 Chapter 4
10.1145/3166186.3166192 Chapter 5
10.1145/3166186.3166193 Chapter 6
10.1145/3166186.3166194 Chapter 7
10.1145/3166186.3166195 Chapter 8
10.1145/3166186.3166196 Chapter 9
10.1145/3166186.3166197 Chapter 10
10.1145/3166186.3166198 Chapter 11
10.1145/3166186.3166199 Chapter 12
10.1145/3166186.3166200 Appendices
10.1145/3166186.3166201 References
A publication in the ACM Books series, #19
Editor in Chief: M. Tamer Özsu, University of Waterloo
First Edition
10 9 8 7 6 5 4 3 2 1
To Maha and Nadima Hassanieh
Contents
Preface | |
Chapter 1 | Introduction |
1.1 Sparse Fourier Transform Algorithms | |
1.2 Applications of the Sparse Fourier Transform | |
1.3 Book Overview | |
PART I | THEORY OF THE SPARSE FOURIER TRANSFORM |
Chapter 2 | Preliminaries |
2.1 Notation | |
2.2 Basics | |
Chapter 3 | Simple and Practical Algorithm |
3.1 Introduction | |
3.2 Algorithm | |
Chapter 4 | Optimizing Runtime Complexity |
4.1 Introduction | |
4.2 Algorithm for the Exactly Sparse Case | |
4.3 Algorithm for the General Case | |
4.4 Extension to Two Dimensions | |
Chapter 5 | Optimizing Sample Complexity |
5.1 Introduction | |
5.2 Algorithm for the Exactly Sparse Case | |
5.3 Algorithm for the General Case | |
Chapter 6 | Numerical Evaluation |
6.1 Implementation | |
6.2 Experimental Setup | |
6.3 Numerical Results | |
PART II | APPLICATIONS OF THE SPARSE FOURIER TRANSFORM |
Chapter 7 | GHz-Wide Spectrum Sensing and Decoding |
7.1 Introduction | |
7.2 Related Work | |
7.3 BigBand | |
7.4 Channel Estimation and Calibration | |
7.5 Differential Sensing of Non-Sparse Spectrum | |
7.6 A USRP-Based Implementation | |
7.7 BigBand’s Spectrum Sensing Results | |
7.8 BigBand’s Decoding Results | |
7.9 D-BigBand’s Sensing Results | |
7.10 Conclusion | |
Chapter 8 | Faster GPS Synchronization |
8.1 Introduction | |
8.2 GPS Primer | |
8.3 QuickSync | |
8.4 Theoretical Guarantees | |
8.5 Doppler Shift and Frequency Offset | |
8.6 Testing Environment | |
8.7 Results | |
8.8 Related Work | |
8.9 Conclusion | |
Chapter 9 | Light Field Reconstruction Using Continuous Fourier Sparsity |
9.1 Introduction | |
9.2 Related Work | |
9.3 Sparsity in the Discrete vs. Continuous Fourier Domain | |
9.4 Light Field Notation | |
9.5 Light Field Reconstruction Algorithm | |
9.6 Experiments | |
9.7 Results | |
9.8 Discussion | |
9.9 Conclusion | |
Chapter 10 | Fast In-Vivo MRS Acquisition with Artifact Suppression |
10.1 Introduction | |
10.2 MRS-SFT | |
10.3 Methods | |
10.4 MRS Results | |
10.5 Conclusion | |
Chapter 11 | Fast Multi-Dimensional NMR Acquisition and Processing |
11.1 Introduction | |
11.2 Multi-Dimensional Sparse Fourier Transform | |
11.3 Materials and Methods | |
11.4 Results | |
11.5 Discussion | |
11.6 Conclusion | |
Chapter 12 | Conclusion |
12.1 Future Directions | |
Appendix A | Proofs |
Appendix B | The Optimality of the Exactly k-Sparse Algorithm 4.1 |
Appendix C | Lower Bound of the Sparse Fourier Transform
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