PhaseNet 2.0: Phase Unwrapping of Noisy Data Based on Deep Learning Approach

“…In both occasions, the models were trained using ADAM optimizer with a learning rate of 0.001 and they converged within 10 epochs taking only ∼ 1.5 hours to train. Similarly, Ryu et al's [18] network, PhaseNet 2.0 [8] and QGPU [5] were implemented and tested on the two datasets as well. Out of these, Ryu et al's network and PhaseNet 2.0 were trained on both noisy and noise free datasets.…”

“…In recent years, deep learning algorithms have gained popularity and achieved state-of-the-art performance in many computer vision tasks. Following this trend, a few recent studies [8,9,10,11] have attempted to apply deep learning to address the phase unwrapping problem. Out of these, [8,9,10] have reformulated the phase unwrapping problem as a semantic segmentation task where Fully Convolutional Networks (FCNs) are trained to predict the wrap count at each pixel.…”

“…Among these methods, Spoorthi et. al's [8] PhaseNet 2.0, a deep encoder-decoder architecture comprised of dense blocks [12], has the best phase unwrapping performance. To the best of our knowledge only Wang et al [11] has considered phase unwrapping as a regression problem where an FCN inspired by U-NET [13] and ResNet [14] is employed to directly estimate the true phase from wrapped phase.…”

A Joint Convolutional and Spatial Quad-Directional LSTM Network for Phase Unwrapping

“…In both occasions, the models were trained using ADAM optimizer with a learning rate of 0.001 and they converged within 10 epochs taking only ∼ 1.5 hours to train. Similarly, Ryu et al's [18] network, PhaseNet 2.0 [8] and QGPU [5] were implemented and tested on the two datasets as well. Out of these, Ryu et al's network and PhaseNet 2.0 were trained on both noisy and noise free datasets.…”

“…In recent years, deep learning algorithms have gained popularity and achieved state-of-the-art performance in many computer vision tasks. Following this trend, a few recent studies [8,9,10,11] have attempted to apply deep learning to address the phase unwrapping problem. Out of these, [8,9,10] have reformulated the phase unwrapping problem as a semantic segmentation task where Fully Convolutional Networks (FCNs) are trained to predict the wrap count at each pixel.…”

“…Among these methods, Spoorthi et. al's [8] PhaseNet 2.0, a deep encoder-decoder architecture comprised of dense blocks [12], has the best phase unwrapping performance. To the best of our knowledge only Wang et al [11] has considered phase unwrapping as a regression problem where an FCN inspired by U-NET [13] and ResNet [14] is employed to directly estimate the true phase from wrapped phase.…”

A Joint Convolutional and Spatial Quad-Directional LSTM Network for Phase Unwrapping

“…According to existing research [11][12][13][14][15][16][17][18], the key point of DLbased phase unwrapping is to determine an appropriate learning object (i.e., the ground truth), so as to investigate the PU problem from deep learning perspective. Through clever transformation, phase unwrapping can be converted into an image segmentation task, which is DL's area of expertise.…”

“…Wang et al [15] used the absolute phase instead of ambiguity number K as ground truth and proposed a DLPU structure, which can directly extract the absolute phase from the wrapped phase after training without any post-processing step. Spoorthi et al [16] proposed PhaseNet 2.0 on the basis of PhaseNet, utilized DenseNet to implement phase unwrapping tasks, which greatly increases the classes of ambiguity number that can be accurately predicted and enhances the network's performance by proposing a new Residual Loss.…”

A Novel Quality-Guided Two-Dimensional InSAR Phase Unwrapping Method via GAUNet

Automated Phase Unwrapping in DHM with Deep Learning