Your search keyword '"YUNBO RAO"' showing total 14 results

1. Dual-Band Bandpass Filter and Filtering Power Divider With Ultra-Wide Upper Stopband Using Hybrid Microstrip/DGS Dual-Resonance Cells

Author

Yunbo Rao, Huizhen Jenny Qian, Bingzheng Yang, Roberto Gomez-Garcia, and Xun Luo

Subjects

Bandpass filter (BPF), defected ground structure (DGS), dual-band filter, filtering power divider (FPD), slow-wave, ultra-wide stopband, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In this paper, two types (i.e., type-A and type-B) of hybrid microstrip/defected ground structure (DGS) cells are proposed for passive circuit implementation with ultra-wide stopband. Both cells consist of the stepped-impedance DGS and embedded folded slotline on the ground, which could obtain the dual-resonances. In type-A cell, a microstrip T-stub on the top side is introduced, which can not only allocate a strong coupling to the DGS with slotline on the bottom side, but also act as the input/output port. To finely adjust the dual-resonances of the type-B cell, a grounded microstrip patch is used. Meanwhile, such compact cells could feature an ultra-wide upper stopband, due to their own slow-wave effect. Based on the aforementioned hybrid microstrip/DGS cells, two dual-band bandpass filters (BPFs) and a dual-band filtering power divider (FPD) are proposed and fabricated. Measured and simulated results are in a fairly-close agreement. Both dual-band BPFs exhibit the ultra-wide upper stopband, which extends up to 40 GHz with a high rejection level about 30 dB. Besides, the dual-band FPD has merits of more than 18.7 dB of in-band isolation and 28 dB stopband rejection levels up to 40 GHz.

Published

2020

2. A Symmetric Fully Convolutional Residual Network With DCRF for Accurate Tooth Segmentation

Author

Yunbo Rao, Yilin Wang, Fanman Meng, Jiansu Pu, Jihong Sun, and Qifei Wang

Subjects

Tooth segmentation, CBCT images, fully convolutional network, bottleneck architecture, conditional random field, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Accurate tooth segmentation from CBCT images is a crucial step for specialist to perform quantitative analysis, clinical diagnosis and operation. In this paper, we present a symmetric full convolutional network with residual block and Dense Conditional Random Field (DCRF), which can achieve accurate segmentation automatically for tooth images. The proposed method can not only strengthen feature propagation, but also boost feature reuse, which can be credited to the contracting path and the expanding path that extract and recover pixel cues sufficiently. To this end, we apply special deep bottleneck architectures (DBAs) and summation-based skip connection into our network to ensure accurate segmentation for much deeper neural network. Compared with previous methods which are based on conditional random field for original image intensity, our approach applies DCRF to the posterior probability generated by the proposed network. To avoid the interferences of noises around the tooth, we combine the pixel-level prediction capability of DCRF, which further enhance the segmentation performance. In the experiments, we verify the capabilities of our methods based on four evaluation indicators, which demonstrates the superiority of our method.

Published

2020

3. FPSiamRPN: Feature Pyramid Siamese Network With Region Proposal Network for Target Tracking

Author

Yunbo Rao, Yiming Cheng, Junmin Xue, Jiansu Pu, Qiujie Wang, Rize Jin, and Qifei Wang

Subjects

Target tracking, siamese network, feature pyramid, region proposal network, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Target tracking based on Siamese network has reached the state-of-the-art performance. However is still limited in semantic feature extraction. In this paper, we propose a novel method to distinguish positive and negative samples. Taking deep neural network as the backbone, we fuse the feature maps from different layers and feed it to RPN (Region Proposal Network). In addition, we use a loss term for loss function to achieve self-adjusting and learn more discriminative embedding features of target objects with similar semantics. In the tracking stage, one-shot detection is used as the reference, fix the first frame as the weight of tracking to track the subsequent frames. Our method has achieved outstanding performance on several benchmark data set, such as: OTB2015, VOT2016, VOT2018, and VOT2019 et al.

Published

2020

4. Light-Net: Lightweight Object Detector

Author

Yunbo Rao, Guo Yi, Junmin Xue, Jiansu Pu, Jianping Gou, Qiujie Wang, and Qifei Wang

Subjects

Object detection, light-net, prior box, anchor, object detector, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Currently, object detectors based on CNN, such as RetinaNet, Faster-RCNN, CornerNet series, can achieve good performance, but have some common drawbacks, like large calculation cost, high model complexity and slow detection speed. In this paper, a new lightweight object detector is proposed, which adopted a density-based approach to merge the real boxes. To reduce calculation cost and improve detection speed, the tactic of multi-scale output is adopted to predict objects of different sizes with features of different scales. Furthermore, a new lightweight network model is proposed, which can show better performance in computation, FPS, and model complexity. Meanwhile, the separation of convolution is used to improve the basic convolution layer, which can achieve better results under the same number of filters. In the experiments, we verified the capability of our methods based on ablation experiment and model evaluation, which demonstrates the superiority of our method. Moreover, we have also conducted deep network and multichannel experiments on MS-COCO2014 datasets and achieved 20.9% mAP performance.

Published

2020

5. STResNet_CF Tracker: The Deep Spatiotemporal Features Learning for Correlation Filter Based Robust Visual Object Tracking

Author

Zhengyu Zhu, Bing Liu, Yunbo Rao, Qiao Liu, and Rui Zhang

Subjects

Spatiotemporal residual network, correlation filter, visual object tracking, deep learning, convolutional neural networks, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Constructing a robust appearance model of the visual object is a crucial task for visual object tracking. Recently, more and more studies combine spatial feature with a temporal feature to improve the tracking performance. These methods successfully apply the features from spatial and temporal to address the problem for tracking. This paper presents a novel method for visual object tracking based on spatiotemporal feature combined with correlation filters. In this paper, the visual features of a target object are extracted from a spatial-temporal residual network (STResNet) appearance model with two sub-networks. The STResNet appearance model learns separately spatial feature and temporal feature, respectively, so that we can effectively utilize spatial context around the surrounding of the target object in each frame and the temporal relationship between successive frames to refine the appearance representation of the target object. Finally, our spatiotemporal fusion feature from STResNet appearance model is incorporated into the correlation filter for robust visual object tracking. The experimental results show that our method achieves similar or better performance compared with the other tracking methods based on convolutional neural networks or correlation filter.

Published

2019

6. Extreme Feature Regions Detection and Accurate Quality Assessment for Point-Cloud 3D Reconstruction

Author

Yunbo Rao, Baijiang Fan, Qifei Wang, Jiansu Pu, Xun Luo, and Rize Jin

Subjects

Affine invariant, image matching, accurate quality assessment, extreme feature regions, 3D reconstruction, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The 3-D reconstruction methods based on structure from motion (SfM) pipeline mainly use the traditional scale invariant feature detecting methods for feature matching. This type of methods suffers from the accuracy with affine matching in the image-based modeling system. In this paper, we propose an affine-invariant feature detection and matching method which is accurate and fast based on the three types of critical points in Morse theory called precise extreme feature region (PEFR). We also exploit the evaluation method for the reconstruction results without the ground truth. We propose the average descending rate to quantitatively evaluate the accuracy of the reconstruction model. Using PEFR in an SfM pipeline to build 3-D point-cloud, our method presents better results and less runtime compared to the state-of-the-art approaches. In addition, our quality assessment method presents a practical comparison of the reconstruction result based on the geometric accuracy of the reconstruction models. The experimental results prove that our PEFR method is faster and more accurate and works well on the reconstruction pipeline. The assessment method is fit for the quality assessment on 3-D reconstruction.

Published

2019

7. A Saliency Detection Based Unsupervised Commodity Object Retrieval Scheme

Author

Zhihui Wang, Xing Liu, Haojie Li, Jian Shi, and Yunbo Rao

Subjects

Commodity object retrieval, channel weighting generalized mean pooling feature, saliency object detection, saliency proposals, selective search, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Commodity object retrieval is a key issue in the application of self-service shopping and so on. In this paper, we propose a saliency object detection-based unsupervised commodity object retrieval scheme. Since most commodity objects are conspicuous and not complicated in commodity images, saliency detection could predict a saliency box that indicates approximate position information of objects. The proposed scheme utilizes the saliency box to filter the proposals extracted by selective search. The reserved proposals have a big overlapping ratio with saliency box to a large extent. This paper composes both the saliency box and the reserved proposals as saliency proposals. Furthermore, we propose a channel weighting generalized mean pooling feature to represent saliency proposals. On one hand, the reduction of proposals’ number after filtering significantly improves the computational efficiency; on the other hand, the new feature more accurately represents the objects to be retrieved, which results in higher retrieval precision. In addition, we built and manually annotated a commodity data set named PRODUCT to evaluate the proposed method. Extensive experiments are also conducted on the databases INSTRE and Flick32. The results demonstrate the superior performance of our scheme compared with the other state-of-the-art methods.

Published

2018

8. A Symmetric Fully Convolutional Residual Network With DCRF for Accurate Tooth Segmentation

Author

Jihong Sun, Qifei Wang, Fanman Meng, Yunbo Rao, Yilin Wang, and Jiansu Pu

Subjects

Conditional random field, fully convolutional network, Tooth segmentation, General Computer Science, Artificial neural network, Computer science, business.industry, Feature extraction, Posterior probability, General Engineering, Pattern recognition, Image segmentation, conditional random field, Residual, CBCT images, bottleneck architecture, Feature (computer vision), General Materials Science, Segmentation, Artificial intelligence, lcsh:Electrical engineering. Electronics. Nuclear engineering, business, lcsh:TK1-9971

Abstract

Accurate tooth segmentation from CBCT images is a crucial step for specialist to perform quantitative analysis, clinical diagnosis and operation. In this paper, we present a symmetric full convolutional network with residual block and Dense Conditional Random Field (DCRF), which can achieve accurate segmentation automatically for tooth images. The proposed method can not only strengthen feature propagation, but also boost feature reuse, which can be credited to the contracting path and the expanding path that extract and recover pixel cues sufficiently. To this end, we apply special deep bottleneck architectures (DBAs) and summation-based skip connection into our network to ensure accurate segmentation for much deeper neural network. Compared with previous methods which are based on conditional random field for original image intensity, our approach applies DCRF to the posterior probability generated by the proposed network. To avoid the interferences of noises around the tooth, we combine the pixel-level prediction capability of DCRF, which further enhance the segmentation performance. In the experiments, we verify the capabilities of our methods based on four evaluation indicators, which demonstrates the superiority of our method.

Published

2020

9. FPSiamRPN: Feature Pyramid Siamese Network With Region Proposal Network for Target Tracking

Author

Qifei Wang, Qiujie Wang, Junmin Xue, Jiansu Pu, Yiming Cheng, Rize Jin, and Yunbo Rao

Subjects

General Computer Science, Computer science, Semantic feature, Feature extraction, Target tracking, 02 engineering and technology, Tracking (particle physics), Discriminative model, Pyramid, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, siamese network, Pyramid (image processing), Artificial neural network, business.industry, Frame (networking), General Engineering, Pattern recognition, feature pyramid, Feature (computer vision), region proposal network, Embedding, 020201 artificial intelligence & image processing, lcsh:Electrical engineering. Electronics. Nuclear engineering, Artificial intelligence, business, lcsh:TK1-9971

Abstract

Target tracking based on Siamese network has reached the state-of-the-art performance. However is still limited in semantic feature extraction. In this paper, we propose a novel method to distinguish positive and negative samples. Taking deep neural network as the backbone, we fuse the feature maps from different layers and feed it to RPN (Region Proposal Network). In addition, we use a loss term for loss function to achieve self-adjusting and learn more discriminative embedding features of target objects with similar semantics. In the tracking stage, one-shot detection is used as the reference, fix the first frame as the weight of tracking to track the subsequent frames. Our method has achieved outstanding performance on several benchmark data set, such as: OTB2015, VOT2016, VOT2018, and VOT2019 et al.

Published

2020

10. Dual-Band Bandpass Filter and Filtering Power Divider With Ultra-Wide Upper Stopband Using Hybrid Microstrip/DGS Dual-Resonance Cells

Author

Bingzheng Yang, Roberto Gomez-Garcia, Yunbo Rao, Huizhen Jenny Qian, and Xun Luo

Subjects

Materials science, General Computer Science, Bandpass filter (BPF), 020208 electrical & electronic engineering, filtering power divider (FPD), General Engineering, Resonance, 020206 networking & telecommunications, Port (circuit theory), 02 engineering and technology, Stopband, Dual band bandpass filter, dual-band filter, Topology, Microstrip, Dual (category theory), ultra-wide stopband, Band-pass filter, 0202 electrical engineering, electronic engineering, information engineering, Power dividers and directional couplers, General Materials Science, defected ground structure (DGS), slow-wave, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971

Abstract

In this paper, two types (i.e., type-A and type-B) of hybrid microstrip/defected ground structure (DGS) cells are proposed for passive circuit implementation with ultra-wide stopband. Both cells consist of the stepped-impedance DGS and embedded folded slotline on the ground, which could obtain the dual-resonances. In type-A cell, a microstrip T-stub on the top side is introduced, which can not only allocate a strong coupling to the DGS with slotline on the bottom side, but also act as the input/output port. To finely adjust the dual-resonances of the type-B cell, a grounded microstrip patch is used. Meanwhile, such compact cells could feature an ultra-wide upper stopband, due to their own slow-wave effect. Based on the aforementioned hybrid microstrip/DGS cells, two dual-band bandpass filters (BPFs) and a dual-band filtering power divider (FPD) are proposed and fabricated. Measured and simulated results are in a fairly-close agreement. Both dual-band BPFs exhibit the ultra-wide upper stopband, which extends up to 40 GHz with a high rejection level about 30 dB. Besides, the dual-band FPD has merits of more than 18.7 dB of in-band isolation and 28 dB stopband rejection levels up to 40 GHz.

Published

2020

11. Light-Net: Lightweight Object Detector

Author

Qifei Wang, Yunbo Rao, Guo Yi, Junmin Xue, Jiansu Pu, Qiujie Wang, and Jianping Gou

Subjects

General Computer Science, Object detection, anchor, Computer science, Feature extraction, Detector, General Engineering, 02 engineering and technology, 010501 environmental sciences, object detector, 01 natural sciences, TK1-9971, Computer engineering, prior box, 0202 electrical engineering, electronic engineering, information engineering, Object detector, 020201 artificial intelligence & image processing, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, light-net, 0105 earth and related environmental sciences

Abstract

Currently, object detectors based on CNN, such as RetinaNet, Faster-RCNN, CornerNet series, can achieve good performance, but have some common drawbacks, like large calculation cost, high model complexity and slow detection speed. In this paper, a new lightweight object detector is proposed, which adopted a density-based approach to merge the real boxes. To reduce calculation cost and improve detection speed, the tactic of multi-scale output is adopted to predict objects of different sizes with features of different scales. Furthermore, a new lightweight network model is proposed, which can show better performance in computation, FPS, and model complexity. Meanwhile, the separation of convolution is used to improve the basic convolution layer, which can achieve better results under the same number of filters. In the experiments, we verified the capability of our methods based on ablation experiment and model evaluation, which demonstrates the superiority of our method. Moreover, we have also conducted deep network and multichannel experiments on MS-COCO2014 datasets and achieved 20.9% mAP performance.

Published

2020

12. Extreme Feature Regions Detection and Accurate Quality Assessment for Point-Cloud 3D Reconstruction

Author

Xun Luo, Baijiang Fan, Jiansu Pu, Qifei Wang, Yunbo Rao, and Rize Jin

Subjects

Matching (statistics), General Computer Science, Computer science, Pipeline (computing), Point cloud, 02 engineering and technology, image matching, accurate quality assessment, 0202 electrical engineering, electronic engineering, information engineering, Structure from motion, General Materials Science, 3D reconstruction, Feature detection (computer vision), Ground truth, business.industry, General Engineering, 020206 networking & telecommunications, Pattern recognition, Scale invariance, extreme feature regions, Feature (computer vision), 020201 artificial intelligence & image processing, Affine transformation, Artificial intelligence, lcsh:Electrical engineering. Electronics. Nuclear engineering, business, Affine invariant, lcsh:TK1-9971

Abstract

The 3-D reconstruction methods based on structure from motion (SfM) pipeline mainly use the traditional scale invariant feature detecting methods for feature matching. This type of methods suffers from the accuracy with affine matching in the image-based modeling system. In this paper, we propose an affine-invariant feature detection and matching method which is accurate and fast based on the three types of critical points in Morse theory called precise extreme feature region (PEFR). We also exploit the evaluation method for the reconstruction results without the ground truth. We propose the average descending rate to quantitatively evaluate the accuracy of the reconstruction model. Using PEFR in an SfM pipeline to build 3-D point-cloud, our method presents better results and less runtime compared to the state-of-the-art approaches. In addition, our quality assessment method presents a practical comparison of the reconstruction result based on the geometric accuracy of the reconstruction models. The experimental results prove that our PEFR method is faster and more accurate and works well on the reconstruction pipeline. The assessment method is fit for the quality assessment on 3-D reconstruction.

Published

2019

13. STResNet_CF Tracker: The Deep Spatiotemporal Features Learning for Correlation Filter Based Robust Visual Object Tracking

Author

Yunbo Rao, Qiao Liu, Bing Liu, Rui Zhang, and Zhengyu Zhu

Subjects

Spatial contextual awareness, General Computer Science, business.industry, Computer science, Feature extraction, General Engineering, Representation (systemics), 02 engineering and technology, 010501 environmental sciences, Object (computer science), 01 natural sciences, Convolutional neural network, Active appearance model, Feature (computer vision), Video tracking, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, General Materials Science, Computer vision, Artificial intelligence, business, 0105 earth and related environmental sciences

Abstract

Constructing a robust appearance model of the visual object is a crucial task for visual object tracking. Recently, more and more studies combine spatial feature with a temporal feature to improve the tracking performance. These methods successfully apply the features from spatial and temporal to address the problem for tracking. This paper presents a novel method for visual object tracking based on spatiotemporal feature combined with correlation filters. In this paper, the visual features of a target object are extracted from a spatial–temporal residual network (STResNet) appearance model with two sub-networks. The STResNet appearance model learns separately spatial feature and temporal feature, respectively, so that we can effectively utilize spatial context around the surrounding of the target object in each frame and the temporal relationship between successive frames to refine the appearance representation of the target object. Finally, our spatiotemporal fusion feature from STResNet appearance model is incorporated into the correlation filter for robust visual object tracking. The experimental results show that our method achieves similar or better performance compared with the other tracking methods based on convolutional neural networks or correlation filter.

Published

2019

14. A Saliency Detection Based Unsupervised Commodity Object Retrieval Scheme

Author

Zhi-Hui Wang, Haojie Li, Jian Shi, Xing Liu, and Yunbo Rao

Subjects

General Computer Science, Channel (digital image), Computer science, saliency object detection, Feature extraction, Commodity object retrieval, 02 engineering and technology, Reduction (complexity), 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, channel weighting generalized mean pooling feature, business.industry, General Engineering, 020207 software engineering, Pattern recognition, Object (computer science), Object detection, TK1-9971, Weighting, selective search, Feature (computer vision), 020201 artificial intelligence & image processing, Electrical engineering. Electronics. Nuclear engineering, Artificial intelligence, business, saliency proposals

Abstract

Commodity object retrieval is a key issue in the application of self-service shopping and so on. In this paper, we propose a saliency object detection-based unsupervised commodity object retrieval scheme. Since most commodity objects are conspicuous and not complicated in commodity images, saliency detection could predict a saliency box that indicates approximate position information of objects. The proposed scheme utilizes the saliency box to filter the proposals extracted by selective search. The reserved proposals have a big overlapping ratio with saliency box to a large extent. This paper composes both the saliency box and the reserved proposals as saliency proposals. Furthermore, we propose a channel weighting generalized mean pooling feature to represent saliency proposals. On one hand, the reduction of proposals’ number after filtering significantly improves the computational efficiency; on the other hand, the new feature more accurately represents the objects to be retrieved, which results in higher retrieval precision. In addition, we built and manually annotated a commodity data set named PRODUCT to evaluate the proposed method. Extensive experiments are also conducted on the databases INSTRE and Flick32. The results demonstrate the superior performance of our scheme compared with the other state-of-the-art methods.

Published

2018