H. Chi, Y. Mei, Y. Chen, D. Wang, S. Zheng, X. Jin, and X. Zhang, “Microwave spectral analysis based on photonic compressive sampling with random demodulation,” Opt. Lett.37(22), 4636–4638 (2012).

[CrossRef]
[PubMed]

G. C. Valley, G. A. Sefler, and T. J. Shaw, “Compressive sensing of sparse radio frequency signals using optical mixing,” Opt. Lett.37(22), 4675–4677 (2012).

[CrossRef]
[PubMed]

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

M. Mishali and Y. C. Eldar, “From theory to practice: Sub-nyquist sampling of sparse wideband analog signals,” J. Sel. Top. Signal Process.4(2), 375–391 (2010).

[CrossRef]

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

E. J. Candès, “The restricted isometry property and its implications for compressed sensing,” C. R. Acad. Sci. Int.346(9), 717–772 (2008).

J. Tropp and A. Gilbert, “Signal recovery from random measurements via orthogonal matching pursuit,” IEEE Trans. Inf. Theory53(12), 4655–4666 (2007).

[CrossRef]

M. A. T. Figueiredo, R. D. Nowak, and S. J. Wright, “Gradient Projection for Sparse Reconstruction: Application to Compressed Sensing and Other Inverse Problems,” IEEE J. Sel. Top. Signal Process1(4), 586–597 (2007).

[CrossRef]

R. Baraniuk, “Compressive sensing,” IEEE Signal Process. Mag.24(4), 118–121 (2007).

[CrossRef]

D. L. Donoho, “Compressed sensing,” IEEE Trans. Inf. Theory52(4), 1289–1306 (2006).

[CrossRef]

R. Baraniuk, “Compressive sensing,” IEEE Signal Process. Mag.24(4), 118–121 (2007).

[CrossRef]

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

J. N. Laska, S. Kirolos, M. F. Duarte, T. Ragheb, R. G. Baraniuk, and Y. Massoud, “Theory and implementation of an analog-to-information conversion using random demodulation,” IEEE Int. Symp. Circuits and Systems (ISCAS), 1959–1962 (2007).

[CrossRef]

E. J. Candès, “The restricted isometry property and its implications for compressed sensing,” C. R. Acad. Sci. Int.346(9), 717–772 (2008).

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

Y. Liang, M. Chen, R. Li, H. Chen, and S. Xie, “A photonic-assisted compressive sampling system,” in Proceedings of IEEE Microwave photonics Conference, (Netherlands, 2012), pp. 184–187.

Y. Liang, M. Chen, R. Li, H. Chen, and S. Xie, “A photonic-assisted compressive sampling system,” in Proceedings of IEEE Microwave photonics Conference, (Netherlands, 2012), pp. 184–187.

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

D. L. Donoho, “Compressed sensing,” IEEE Trans. Inf. Theory52(4), 1289–1306 (2006).

[CrossRef]

J. N. Laska, S. Kirolos, M. F. Duarte, T. Ragheb, R. G. Baraniuk, and Y. Massoud, “Theory and implementation of an analog-to-information conversion using random demodulation,” IEEE Int. Symp. Circuits and Systems (ISCAS), 1959–1962 (2007).

[CrossRef]

M. Mishali and Y. C. Eldar, “From theory to practice: Sub-nyquist sampling of sparse wideband analog signals,” J. Sel. Top. Signal Process.4(2), 375–391 (2010).

[CrossRef]

M. A. T. Figueiredo, R. D. Nowak, and S. J. Wright, “Gradient Projection for Sparse Reconstruction: Application to Compressed Sensing and Other Inverse Problems,” IEEE J. Sel. Top. Signal Process1(4), 586–597 (2007).

[CrossRef]

J. Tropp and A. Gilbert, “Signal recovery from random measurements via orthogonal matching pursuit,” IEEE Trans. Inf. Theory53(12), 4655–4666 (2007).

[CrossRef]

H. Nan, Y. Gu, and H. Zhang, “Optical analog-to-digital conversion system based on compressive sampling,” IEEE Photon. Technol. Lett.23(2), 67–69 (2011).

[CrossRef]

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

J. N. Laska, S. Kirolos, M. F. Duarte, T. Ragheb, R. G. Baraniuk, and Y. Massoud, “Theory and implementation of an analog-to-information conversion using random demodulation,” IEEE Int. Symp. Circuits and Systems (ISCAS), 1959–1962 (2007).

[CrossRef]

J. N. Laska, S. Kirolos, M. F. Duarte, T. Ragheb, R. G. Baraniuk, and Y. Massoud, “Theory and implementation of an analog-to-information conversion using random demodulation,” IEEE Int. Symp. Circuits and Systems (ISCAS), 1959–1962 (2007).

[CrossRef]

Y. Liang, M. Chen, R. Li, H. Chen, and S. Xie, “A photonic-assisted compressive sampling system,” in Proceedings of IEEE Microwave photonics Conference, (Netherlands, 2012), pp. 184–187.

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

Y. Liang, M. Chen, R. Li, H. Chen, and S. Xie, “A photonic-assisted compressive sampling system,” in Proceedings of IEEE Microwave photonics Conference, (Netherlands, 2012), pp. 184–187.

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

J. N. Laska, S. Kirolos, M. F. Duarte, T. Ragheb, R. G. Baraniuk, and Y. Massoud, “Theory and implementation of an analog-to-information conversion using random demodulation,” IEEE Int. Symp. Circuits and Systems (ISCAS), 1959–1962 (2007).

[CrossRef]

M. Mishali and Y. C. Eldar, “From theory to practice: Sub-nyquist sampling of sparse wideband analog signals,” J. Sel. Top. Signal Process.4(2), 375–391 (2010).

[CrossRef]

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

H. Nan, Y. Gu, and H. Zhang, “Optical analog-to-digital conversion system based on compressive sampling,” IEEE Photon. Technol. Lett.23(2), 67–69 (2011).

[CrossRef]

M. A. T. Figueiredo, R. D. Nowak, and S. J. Wright, “Gradient Projection for Sparse Reconstruction: Application to Compressed Sensing and Other Inverse Problems,” IEEE J. Sel. Top. Signal Process1(4), 586–597 (2007).

[CrossRef]

J. N. Laska, S. Kirolos, M. F. Duarte, T. Ragheb, R. G. Baraniuk, and Y. Massoud, “Theory and implementation of an analog-to-information conversion using random demodulation,” IEEE Int. Symp. Circuits and Systems (ISCAS), 1959–1962 (2007).

[CrossRef]

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

J. Tropp and A. Gilbert, “Signal recovery from random measurements via orthogonal matching pursuit,” IEEE Trans. Inf. Theory53(12), 4655–4666 (2007).

[CrossRef]

M. A. T. Figueiredo, R. D. Nowak, and S. J. Wright, “Gradient Projection for Sparse Reconstruction: Application to Compressed Sensing and Other Inverse Problems,” IEEE J. Sel. Top. Signal Process1(4), 586–597 (2007).

[CrossRef]

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

Y. Liang, M. Chen, R. Li, H. Chen, and S. Xie, “A photonic-assisted compressive sampling system,” in Proceedings of IEEE Microwave photonics Conference, (Netherlands, 2012), pp. 184–187.

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

H. Nan, Y. Gu, and H. Zhang, “Optical analog-to-digital conversion system based on compressive sampling,” IEEE Photon. Technol. Lett.23(2), 67–69 (2011).

[CrossRef]

W. L. Chan, K. Charan, D. Takhar, K. F. Kelly, R. G. Baraniuk, and D. M. Mittleman, “A single-pixel terahertz imaging system based on compressed sensing,” Appl. Phys. Lett.93(12), 121105 (2008).

[CrossRef]

E. J. Candès, “The restricted isometry property and its implications for compressed sensing,” C. R. Acad. Sci. Int.346(9), 717–772 (2008).

M. A. T. Figueiredo, R. D. Nowak, and S. J. Wright, “Gradient Projection for Sparse Reconstruction: Application to Compressed Sensing and Other Inverse Problems,” IEEE J. Sel. Top. Signal Process1(4), 586–597 (2007).

[CrossRef]

L. Yan, Y. Dai, K. Xu, J. Wu, Y. Li, Y. Ji, and J. Lin, “Integrated Multi-frequency Recognition and Down-conversion based on Photonics-assisted Compressive Sampling,” IEEE Photon. J.4(3), 664–670 (2012).

H. Nan, Y. Gu, and H. Zhang, “Optical analog-to-digital conversion system based on compressive sampling,” IEEE Photon. Technol. Lett.23(2), 67–69 (2011).

[CrossRef]

R. Baraniuk, “Compressive sensing,” IEEE Signal Process. Mag.24(4), 118–121 (2007).

[CrossRef]

D. L. Donoho, “Compressed sensing,” IEEE Trans. Inf. Theory52(4), 1289–1306 (2006).

[CrossRef]

J. Tropp and A. Gilbert, “Signal recovery from random measurements via orthogonal matching pursuit,” IEEE Trans. Inf. Theory53(12), 4655–4666 (2007).

[CrossRef]

M. Mishali and Y. C. Eldar, “From theory to practice: Sub-nyquist sampling of sparse wideband analog signals,” J. Sel. Top. Signal Process.4(2), 375–391 (2010).

[CrossRef]

H. Chi, Y. Mei, Y. Chen, D. Wang, S. Zheng, X. Jin, and X. Zhang, “Microwave spectral analysis based on photonic compressive sampling with random demodulation,” Opt. Lett.37(22), 4636–4638 (2012).

[CrossRef]
[PubMed]

G. C. Valley, G. A. Sefler, and T. J. Shaw, “Compressive sensing of sparse radio frequency signals using optical mixing,” Opt. Lett.37(22), 4675–4677 (2012).

[CrossRef]
[PubMed]

P. Timothy, P. McKenna, M. D. Sharp, D. G. Lucarelli, J. A. Nanzer, M. L. Dennis, and T. R. Clark, Jr., “Wideband Photonic Compressive Sampling Analog-to-Digital Converter for RF Spectrum Estimation,” in Proceedings of Optical Fiber Communication Conference, (Anaheim, Calif., 2013), paper OTh3D.1.

Y. Liang, M. Chen, R. Li, H. Chen, and S. Xie, “A photonic-assisted compressive sampling system,” in Proceedings of IEEE Microwave photonics Conference, (Netherlands, 2012), pp. 184–187.

J. N. Laska, S. Kirolos, M. F. Duarte, T. Ragheb, R. G. Baraniuk, and Y. Massoud, “Theory and implementation of an analog-to-information conversion using random demodulation,” IEEE Int. Symp. Circuits and Systems (ISCAS), 1959–1962 (2007).

[CrossRef]