Single-Pixel Remote Sensing

@article{Ma2009SinglePixelRS,
  title={Single-Pixel Remote Sensing},
  author={Jianwei Ma},
  journal={IEEE Geoscience and Remote Sensing Letters},
  year={2009},
  volume={6},
  pages={199-203},
  url={https://api.semanticscholar.org/CorpusID:8836119}
}
A new sampling theory named compressed sensing for aerospace remote sensing is applied to reduce data acquisition and imaging cost and would lead to new instruments with less storage space, less power consumption, and smaller size than currently used charged coupled device cameras, which would match effective needs particularly for probes sent very far away.
View on IEEE
dsp.rice.edu
131 Citations
Highly Influential Citations
2
Background Citations
49
Methods Citations
27
Results Citations
1

Figures from this paper

131 Citations

A Single-Pixel Imaging System for Remote Sensing by Two-Step Iterative Curvelet Thresholding

A single-pixel imaging system for line-scan onboard cameras is proposed by applying compressive-scanning matrices in a sensing step and a two-step iterative curvelet thresholding method in an offline decoding step, which converges faster than previous single- step iterative thresholding methods.

Innovative remote sensing imaging method based on compressed sensing

Extensions of Compressed Imaging: Flying Sensor, Coded Mask, and Fast Decoding

New approaches to compressed remote sensing and image reconstruction are proposed, which exploit redundant/overlapping measurements (RMs), multiplexing imaging (MI), and an effective iterative procedure for decoding in the recovery phase.

Compressed Sensing by Iterative Thresholding of Geometric Wavelets: a Comparing Study

    Jianwei Ma
    Computer Science, Environmental Science
    Int. J. Wavelets Multiresolution Inf. Process.
  • 2011
An experimentally comparing study for the use of different measurement matrices in encoding step and different geometric wavelets in decoding step to indicate how to choose a suitable CS strategy to reduce the number of measurements and decoding costs.

Infrared remote sensing imaging via asymmetric compressed sensing

A CS asymmetric processing model, which is different from traditional image reconstruction, is proposed, and it is applied to CS hardware design for infrared (IR) remote sensing imaging and a sparse dictionary construction method suitable for asymmetric patterns is proposed.

A compressed sensing approach for enhancing infrared imaging resolution

Deblurring From Highly Incomplete Measurements for Remote Sensing

A decoding algorithm based on Poisson singular integral and iterative curvelet thresholding is proposed to correct the deblurring problem with surprisingly incomplete measurements.

Programmable spatially variant single-pixel imaging based on compressive sensing

A design of sensing patterns to obtain image information by utilizing spatially variant resolution (SVR) technique in SPI successfully achieves the programmable imaging concept where multiresolution adaptively optimizes the balance between the image quality and the measurements number.

Time-resolved multispectral imaging based on an adaptive single-pixel camera

Time-resolved multispectral imaging has many applications in different fields, which range from characterization of biological tissues to environmental monitoring. In particular, optical techniques,

Efficient compressed imaging method for a microsatellite optical camera.

Experimental results show that the proposed compressed imaging method outperforms the traditional saliency-based methods in terms of multiple assessment approaches.
...

26 References

Deblurring From Highly Incomplete Measurements for Remote Sensing

A decoding algorithm based on Poisson singular integral and iterative curvelet thresholding is proposed to correct the deblurring problem with surprisingly incomplete measurements.

Compressive imaging sensors

This paper describes a compressive sensing strategy developed under the Compressive Optical MONTAGE Photography Initiative and demonstrates that the system can achieve up to 50% compression with conventional benchmarking images.

Random Projections Imaging With Extended Space-Bandwidth Product

The proposed approach can have broad applications in efficient imaging capture, visualization, and display given ever increasing demands for larger and higher resolution images, faster image communications, and multidimensional image communications such as 3-D TV and display.

Compressed Sensing in Astronomy

It is shown that CS enables to recover data with a spatial resolution enhanced up to 30% with similar sensitivity compared to the averaging technique proposed by ESA, and provides a new fantastic way to handle multiple observations of the same field view, allowing to recover low level details, which is impossible with standard compression methods.

Optical architectures for compressive imaging

The photon sharing architecture is found to be more photon-efficient than the other two optical implementations and thus offers the highest performance among all compressive methods studied here.

Sparse MRI: The application of compressed sensing for rapid MR imaging

Practical incoherent undersampling schemes are developed and analyzed by means of their aliasing interference and demonstrate improved spatial resolution and accelerated acquisition for multislice fast spin‐echo brain imaging and 3D contrast enhanced angiography.

Gradient Projection for Sparse Reconstruction: Application to Compressed Sensing and Other Inverse Problems

This paper proposes gradient projection algorithms for the bound-constrained quadratic programming (BCQP) formulation of these problems and test variants of this approach that select the line search parameters in different ways, including techniques based on the Barzilai-Borwein method.

Single-pixel imaging via compressive sampling

A new camera architecture based on a digital micromirror device with the new mathematical theory and algorithms of compressive sampling is presented that can operate efficiently across a broader spectral range than conventional silicon-based cameras.

An Introduction To Compressive Sampling

The theory of compressive sampling, also known as compressed sensing or CS, is surveyed, a novel sensing/sampling paradigm that goes against the common wisdom in data acquisition.

Best Basis Compressed Sensing

A best basis extension of compressed sensing recovery is proposed that makes use of sparsity in a tree-structured dictionary of orthogonal bases and improves the recovery with respect to fixed sparsity priors.