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Fast Sparse 2-D DFT Computation using Sparse-Graph Alias Codes

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Frank Ong
Frank Ong

Presented at ICASSP 2016

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Fast Sparse 2-D DFT Computation using Sparse-Graph Alias Codes Frank Ong, Sameer Pawar and Kannan Ramchandran
• Many imaging modalities acquire in the Fourier Domain: • Magnetic Resonance Imaging (MRI) • Computed Tomography (CT) • Fourier Optics • Astronomical Imaging • Want to take few Fourier samples to reduce time and costs Image Fourier samples Fourier Imaging
• Exploits sparsity to go beyond Nyquist rate • Provides good reconstructed images • Most algorithms alternate between Fourier and image domain • >100 FFTs! >10-minute reconstruction! Loading… Compressed Sensing
• Goal: Fast in both acquisition and reconstruction • Real-time reconstruction • Many previous works in sparse FFT: • Gilbert et al. 2002 • Indyk et al. 2012 • Hassanieh et al. 2014 • Iwen 2010 • And many more… • Mostly 1D results • This work: • Generalizes 1D-FFAST framework of Pawar & Ramchandran 2013 • Illustrate 3 key ideas This Work: 2D-FFAST (Fast-Fourier-Aliasing-based-Sparse-Transform)
2D Spectrum Aliasing with Dense Spectrum 2D Signal
Aliasing 2D Spectrum Aliased 2D Spectrum Aliasing with Dense Spectrum • Everything gets aliased on top of each other 2D Signal Subsampled 2D Signal Subsampling
2D Spectrum Aliasing with Sparse Spectrum 2D Signal
Aliasing 2D Spectrum Aliased 2D Spectrum Aliasing with Sparse Spectrum • Most entries do not have aliasing! 2D Signal Subsampling Subsampled 2D Signal
1-Sparse DFT
Magnitude Phase 1-Sparse DFT
Magnitude Phase 1-Sparse DFT Slope = location
• For noise-less, needs only 2 samples • Constant computation time 1-Sparse DFT Magnitude Phase
Different subsampling produces different aliasing Sparse spectrum
Different subsampling produces different aliasing Sparse spectrum Subsampling by 3 in signal domain
Different subsampling produces different aliasing Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain
Different subsampling produces different aliasing Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain • Red and green are exposed with different subsampling
Combining three ideas Sparse spectrum
Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain
Combining three ideas Sparse spectrum Shift sampling pattern by 1 Subsampling by 3 in signal domain Subsampling by 2 in signal domain Shift sampling pattern by 1
Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Can recover red and green locations via phase differences Shift sampling pattern by 1 Shift sampling pattern by 1
Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Shift sampling pattern by 1 Shift sampling pattern by 1 Can peel off red and green
Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Can recover blue location via phase differences Shift sampling pattern by 1 Shift sampling pattern by 1
Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Recovered all sparse entries Shift sampling pattern by 1 Shift sampling pattern by 1
2D-FFAST Architecture
2D-FFAST Architecture The more we sub-sample, the less computation we have!
• How to pick sampling factors to get diverse aliasing patterns? • Clearly subsampling by 2 and 4 do not work • 1D (Pawar and Ramchandran 2013): • Based on the Chinese Remainder Theorem • Sampling factors should be relatively co-prime • For example, subsample by 40, 41, and 43 • 2D (This work): • Product of 2D subsampling factors should be relatively co-prime • For example, subsample by (5, 5), (6, 6) and (7, 7) Sampling Factors 25 36 49
Theoretical Guarantee • For a input that satisfies the dimension assumption • The 2D-FFAST computes its k-sparse 2D-DFT w.h.p: • ~4k measurements for almost all sublinear sparsity • O(k log k) computation complexity • For more details: http://arxiv.org/abs/1509.05849v1.
+ noise + noise Magnitude Phase Noisy 1-sparse DFT
+ noise + noise Magnitude Phase Noisy 1-sparse DFT Slope ≈ location
+ noise + noise Magnitude Phase Noisy 1-sparse DFT • To recover the location, + noise + noise + noise More samples to get robust location estimation
Theoretical Guarantee • For an N = Nx x Ny input • The 2D-FFAST computes its k-sparse 2D-DFT w.h.p: • O(k log3 N) measurements • O(k log4 N) computation complexity • For more details: http://arxiv.org/abs/1509.05849v1.
Original Signal Sub-sampled Signal Reconstructed Spectrum Simulation Results Image size: 280 x 280 = 78,400 Sparsity: 3509 Measurements: 4.75 k = 16,668
Simulation Results
Simulation Results
Simulation Results
Simulation Results Beyond Signal Model Original Signal Original Spectrum
Original Signal Difference filtered Signal Difference filtered SpectrumOriginal Spectrum Simulation Results Beyond Signal Model
Original Signal Difference filtered Signal Difference filtered SpectrumOriginal Spectrum FFAST subsampled Signal FFAST reconstructed spectrum Simulation Results Beyond Signal Model
Original Spectrum FFAST reconstructed spectrum Not the best quality you can get with CS but FFAST does it fast! Promising initial result! Simulation Results Beyond Signal Model
Conclusion • Fast in both acquisition and reconstruction • Illustrate 2D-FFAST architecture through 3 key ideas • Coding theory guided reconstruction method • https://github.com/UCBASiCS/FFAST.git Thank you!

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Fast Sparse 2-D DFT Computation using Sparse-Graph Alias Codes

  • 1. Fast Sparse 2-D DFT Computation using Sparse-Graph Alias Codes Frank Ong, Sameer Pawar and Kannan Ramchandran
  • 2. • Many imaging modalities acquire in the Fourier Domain: • Magnetic Resonance Imaging (MRI) • Computed Tomography (CT) • Fourier Optics • Astronomical Imaging • Want to take few Fourier samples to reduce time and costs Image Fourier samples Fourier Imaging
  • 3. • Exploits sparsity to go beyond Nyquist rate • Provides good reconstructed images • Most algorithms alternate between Fourier and image domain • >100 FFTs! >10-minute reconstruction! Loading… Compressed Sensing
  • 4. • Goal: Fast in both acquisition and reconstruction • Real-time reconstruction • Many previous works in sparse FFT: • Gilbert et al. 2002 • Indyk et al. 2012 • Hassanieh et al. 2014 • Iwen 2010 • And many more… • Mostly 1D results • This work: • Generalizes 1D-FFAST framework of Pawar & Ramchandran 2013 • Illustrate 3 key ideas This Work: 2D-FFAST (Fast-Fourier-Aliasing-based-Sparse-Transform)
  • 5. 2D Spectrum Aliasing with Dense Spectrum 2D Signal
  • 6. Aliasing 2D Spectrum Aliased 2D Spectrum Aliasing with Dense Spectrum • Everything gets aliased on top of each other 2D Signal Subsampled 2D Signal Subsampling
  • 7. 2D Spectrum Aliasing with Sparse Spectrum 2D Signal
  • 8. Aliasing 2D Spectrum Aliased 2D Spectrum Aliasing with Sparse Spectrum • Most entries do not have aliasing! 2D Signal Subsampling Subsampled 2D Signal
  • 12. • For noise-less, needs only 2 samples • Constant computation time 1-Sparse DFT Magnitude Phase
  • 13. Different subsampling produces different aliasing Sparse spectrum
  • 14. Different subsampling produces different aliasing Sparse spectrum Subsampling by 3 in signal domain
  • 15. Different subsampling produces different aliasing Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain
  • 16. Different subsampling produces different aliasing Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain • Red and green are exposed with different subsampling
  • 18. Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain
  • 19. Combining three ideas Sparse spectrum Shift sampling pattern by 1 Subsampling by 3 in signal domain Subsampling by 2 in signal domain Shift sampling pattern by 1
  • 20. Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Can recover red and green locations via phase differences Shift sampling pattern by 1 Shift sampling pattern by 1
  • 21. Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Shift sampling pattern by 1 Shift sampling pattern by 1 Can peel off red and green
  • 22. Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Can recover blue location via phase differences Shift sampling pattern by 1 Shift sampling pattern by 1
  • 23. Combining three ideas Sparse spectrum Subsampling by 3 in signal domain Subsampling by 2 in signal domain Recovered all sparse entries Shift sampling pattern by 1 Shift sampling pattern by 1
  • 25. 2D-FFAST Architecture The more we sub-sample, the less computation we have!
  • 26. • How to pick sampling factors to get diverse aliasing patterns? • Clearly subsampling by 2 and 4 do not work • 1D (Pawar and Ramchandran 2013): • Based on the Chinese Remainder Theorem • Sampling factors should be relatively co-prime • For example, subsample by 40, 41, and 43 • 2D (This work): • Product of 2D subsampling factors should be relatively co-prime • For example, subsample by (5, 5), (6, 6) and (7, 7) Sampling Factors 25 36 49
  • 27. Theoretical Guarantee • For a input that satisfies the dimension assumption • The 2D-FFAST computes its k-sparse 2D-DFT w.h.p: • ~4k measurements for almost all sublinear sparsity • O(k log k) computation complexity • For more details: http://arxiv.org/abs/1509.05849v1.
  • 28. + noise + noise Magnitude Phase Noisy 1-sparse DFT
  • 29. + noise + noise Magnitude Phase Noisy 1-sparse DFT Slope ≈ location
  • 30. + noise + noise Magnitude Phase Noisy 1-sparse DFT • To recover the location, + noise + noise + noise More samples to get robust location estimation
  • 31. Theoretical Guarantee • For an N = Nx x Ny input • The 2D-FFAST computes its k-sparse 2D-DFT w.h.p: • O(k log3 N) measurements • O(k log4 N) computation complexity • For more details: http://arxiv.org/abs/1509.05849v1.
  • 32. Original Signal Sub-sampled Signal Reconstructed Spectrum Simulation Results Image size: 280 x 280 = 78,400 Sparsity: 3509 Measurements: 4.75 k = 16,668
  • 36. Simulation Results Beyond Signal Model Original Signal Original Spectrum
  • 37. Original Signal Difference filtered Signal Difference filtered SpectrumOriginal Spectrum Simulation Results Beyond Signal Model
  • 38. Original Signal Difference filtered Signal Difference filtered SpectrumOriginal Spectrum FFAST subsampled Signal FFAST reconstructed spectrum Simulation Results Beyond Signal Model
  • 39. Original Spectrum FFAST reconstructed spectrum Not the best quality you can get with CS but FFAST does it fast! Promising initial result! Simulation Results Beyond Signal Model
  • 40. Conclusion • Fast in both acquisition and reconstruction • Illustrate 2D-FFAST architecture through 3 key ideas • Coding theory guided reconstruction method • https://github.com/UCBASiCS/FFAST.git Thank you!

Notes de l'éditeur

  1. Real time mri illustraiton
  2. Enable Real time recovery and robust to noise Remove without… dates cite
  3. Put label
  4. Put label
  5. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  6. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  7. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  8. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully We need diversity
  9. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  10. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  11. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  12. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  13. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  14. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  15. Non-sparse aliasing -> Sparse aliasing -> Pick sampling factors carefully
  16. Add box to decoding
  17. Add box to decoding
  18. Example Theorem Cite sameer Invokes Chinese Remainder Theorem
  19. With high prob 4k measurements Usefuly for sub-linear n
  20. Put label
  21. Put label
  22. Put label
  23. Example! Numbers Details!
  24. Put N
  25. Video first
  26. Beyond theory was meant for
  27. Emphasize bonus. histogram
  28. Emphasize bonus. histogram