Ieee Transactions on Computational Imaging
Overview
Ieee Transactions on Computational Imaging is a scientific journal, published by IEEE since 2015 in English. The journal's country of origin is United States.
Details
Details
Abbr.
IEEE Trans Comput Imaging
Publisher
IEEE
Start
2015
End
Continuing
Frequency
Quarterly
p-ISSN
2573-0436
e-ISSN
2333-9403
Country
United States
Language
English
Metrics
Metrics
h-index / Ranks: 9030
38
SJR / Ranks: 2069
1453
CiteScore / Ranks: 5214
4.90
JIF / Ranks: 1377
5.4
Recent Articles
1.
Hong T, Xu X, Hu J, Fessler J
IEEE Trans Comput Imaging
. 2024 Nov;
10:1476-1488.
PMID: 39493306
Model-based methods play a key role in the reconstruction of compressed sensing (CS) MRI. Finding an effective prior to describe the statistical distribution of the image family of interest is...
2.
Hong T, Hernandez-Garcia L, Fessler J
IEEE Trans Comput Imaging
. 2024 Oct;
10:372-384.
PMID: 39386353
Model-based methods are widely used for reconstruction in compressed sensing (CS) magnetic resonance imaging (MRI), using regularizers to describe the images of interest. The reconstruction process is equivalent to solving...
3.
Liu Y, Liao C, Setsompop K, Haldar J
IEEE Trans Comput Imaging
. 2024 Sep;
10:223-232.
PMID: 39280790
In modern magnetic resonance imaging, it is common to use phase constraints to reduce sampling requirements along Fourier-encoded spatial dimensions. In this work, we investigate whether phase constraints might also...
4.
Lozenski L, Wang H, Li F, Anastasio M, Wohlberg B, Lin Y, et al.
IEEE Trans Comput Imaging
. 2024 Aug;
10():69-82.
PMID: 39184532
Ultrasound computed tomography (USCT) is an emerging imaging modality that holds great promise for breast imaging. Full-waveform inversion (FWI)-based image reconstruction methods incorporate accurate wave physics to produce high spatial...
5.
Lim H, Dewaraja Y, Fessler J
IEEE Trans Comput Imaging
. 2024 Mar;
9:846-856.
PMID: 38516350
Improving low-count SPECT can shorten scans and support pre-therapy theranostic imaging for dosimetry-based treatment planning, especially with radionuclides like Lu known for low photon yields. Conventional methods often underperform in...
6.
Ali R, Mitcham T, Singh M, Doyley M, Bouchard R, Dahl J, et al.
IEEE Trans Comput Imaging
. 2023 Nov;
9:367-382.
PMID: 37997603
Spatial variation in sound speed causes aberration in medical ultrasound imaging. Although our previous work has examined aberration correction in the presence of a spatially varying sound speed, practical implementations...
7.
Millard C, Chiew M
IEEE Trans Comput Imaging
. 2023 Aug;
9:707-720.
PMID: 37600280
In recent years, there has been attention on leveraging the statistical modeling capabilities of neural networks for reconstructing sub-sampled Magnetic Resonance Imaging (MRI) data. Most proposed methods assume the existence...
8.
Wang F, Kim S, Zhao Y, Raghuram A, Veeraraghavan A, Robinson J, et al.
IEEE Trans Comput Imaging
. 2023 Jul;
9:459-474.
PMID: 37456517
Steady progress in time-domain diffuse optical tomography (TD-DOT) technology is allowing for the first time the design of low-cost, compact, and high-performance systems, thus promising more widespread clinical TD-DOT use,...
9.
Helminiak D, Hu H, Laskin J, Ye D
IEEE Trans Comput Imaging
. 2023 May;
9:250-259.
PMID: 37251286
Mass Spectrometry Imaging (MSI), using traditional rectilinear scanning, takes hours to days for high spatial resolution acquisitions. Given that most pixels within a sample's field of view are often neither...
10.
Pramanik A, Zimmerman M, Jacob M
IEEE Trans Comput Imaging
. 2023 Apr;
9:260-275.
PMID: 37090026
Computational imaging has been revolutionized by compressed sensing algorithms, which offer guaranteed uniqueness, convergence, and stability properties. Model-based deep learning methods that combine imaging physics with learned regularization priors have...