Algorithm for Target Detection in Smart City Combined with Depth Learning and Feature Extraction

The target detection algorithms have the problems of low detection accuracy and susceptibility to occlusion in existing smart cities. In response to this phenomenon, this paper presents an algorithm for target detection in a smart city combined with depth learning and feature extraction. It proposes an adaptive strategy is introduced to optimize the algorithm search windows based on the traditional SSD algorithm, which according to the target operating conditions change, strengthening the algorithm to enhance the accuracy of the objective function which is combined with the weighted correlation feature fusion method, and this method is a combination of appearance depth features and depth features. Experimental results show that this algorithm has a better antiblocking ability and detection accuracy compared with the conventional SSD algorithms. In addition, it has better stability in a changing environment.

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A Vehicle Detection Model Based on 5G-V2X for Smart City Security Perception

Wireless Communications and Mobile Computing ◽

10.1155/2021/5237568 ◽

2021 ◽

Vol 2021 ◽

pp. 1-11

Author(s):

Teng Liu ◽

Cheng Xu ◽

Hongzhe Liu ◽

Xuewei Li ◽

Pengfei Wang

Keyword(s):

Feature Extraction ◽

Smart City ◽

Feature Fusion ◽

Smart Cities ◽

Vehicle Detection ◽

Small Scale ◽

Detection Accuracy ◽

Data Set ◽

Prediction Ability ◽

Detection Speed

Security perception systems based on 5G-V2X have become an indispensable part of smart city construction. However, the detection speed of traditional deep learning models is slow, and the low-latency characteristics of 5G networks cannot be fully utilized. In order to improve the safety perception ability based on 5G-V2X, increase the detection speed in vehicle perception. A vehicle perception model is proposed. First, an adaptive feature extraction method is adopted to enhance the expression of small-scale features and improve the feature extraction ability of small-scale targets. Then, by improving the feature fusion method, the shallow information is fused layer by layer to solve the problem of feature loss. Finally, the attention enhancement method is introduced to increase the center point prediction ability and solve the problem of target occlusion. The experimental results show that the UA-DETRAC data set has a good detection effect. Compared with the vehicle detection capability before the improvement, the detection accuracy and speed have been greatly improved, which effectively improves the security perception capability based on the 5G-V2X system, thereby promoting the construction of smart cities.

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Multi-Feature Fusion for Weak Target Detection on Sea-Surface Based on FAR Controllable Deep Forest Model

Remote Sensing ◽

10.3390/rs13040812 ◽

2021 ◽

Vol 13 (4) ◽

pp. 812

Author(s):

Jiahuan Zhang ◽

Hongjun Song

Keyword(s):

Target Detection ◽

Feature Fusion ◽

Feature Space ◽

Sea Surface ◽

Detection Accuracy ◽

Forest Model ◽

High Profile ◽

Deep Forest ◽

Positive Effect ◽

Weak Target

Target detection on the sea-surface has always been a high-profile problem, and the detection of weak targets is one of the most difficult problems and the key issue under this problem. Traditional techniques, such as imaging, cannot effectively detect these types of targets, so researchers choose to start by mining the characteristics of the received echoes and other aspects for target detection. This paper proposes a false alarm rate (FAR) controllable deep forest model based on six-dimensional feature space for efficient and accurate detection of weak targets on the sea-surface. This is the first attempt at the deep forest model in this field. The validity of the model was verified on IPIX data, and the detection probability was compared with other proposed methods. Under the same FAR condition, the average detection accuracy rate of the proposed method could reach over 99.19%, which is 9.96% better than the results of the current most advanced method (K-NN FAR-controlled Detector). Experimental results show that multi-feature fusion and the use of a suitable detection framework have a positive effect on the detection of weak targets on the sea-surface.

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Improved YOLO Network for Free-Angle Remote Sensing Target Detection

Remote Sensing ◽

10.3390/rs13112171 ◽

2021 ◽

Vol 13 (11) ◽

pp. 2171

Author(s):

Yuhao Qing ◽

Wenyi Liu ◽

Liuyan Feng ◽

Wanjia Gao

Keyword(s):

Remote Sensing ◽

Feature Extraction ◽

Target Detection ◽

Multiple Scales ◽

Classification Problem ◽

Input Image ◽

Detection Accuracy ◽

Feature Maps ◽

Regression Problem ◽

Public Datasets

Despite significant progress in object detection tasks, remote sensing image target detection is still challenging owing to complex backgrounds, large differences in target sizes, and uneven distribution of rotating objects. In this study, we consider model accuracy, inference speed, and detection of objects at any angle. We also propose a RepVGG-YOLO network using an improved RepVGG model as the backbone feature extraction network, which performs the initial feature extraction from the input image and considers network training accuracy and inference speed. We use an improved feature pyramid network (FPN) and path aggregation network (PANet) to reprocess feature output by the backbone network. The FPN and PANet module integrates feature maps of different layers, combines context information on multiple scales, accumulates multiple features, and strengthens feature information extraction. Finally, to maximize the detection accuracy of objects of all sizes, we use four target detection scales at the network output to enhance feature extraction from small remote sensing target pixels. To solve the angle problem of any object, we improved the loss function for classification using circular smooth label technology, turning the angle regression problem into a classification problem, and increasing the detection accuracy of objects at any angle. We conducted experiments on two public datasets, DOTA and HRSC2016. Our results show the proposed method performs better than previous methods.

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Angle Distance-Based Hierarchical Background Separation Method for Hyperspectral Imagery Target Detection

Remote Sensing ◽

10.3390/rs12040697 ◽

2020 ◽

Vol 12 (4) ◽

pp. 697 ◽

Cited By ~ 1

Author(s):

Xiaohui Hao ◽

Yiquan Wu ◽

Peng Wang

Keyword(s):

Target Detection ◽

Hyperspectral Imagery ◽

Original Data ◽

Separation Method ◽

Detection Accuracy ◽

Target Information ◽

Detection Algorithms ◽

Target Spectrum ◽

Candidate Target ◽

The Given

Traditional detectors for hyperspectral imagery (HSI) target detection (TD) output the result after processing the HSI only once. However, using the prior target information only once is not sufficient, as it causes the inaccuracy of target extraction or the unclean separation of the background. In this paper, the target pixels are located by a hierarchical background separation method, which explores the relationship between the target and the background for making better use of the prior target information more than one time. In each layer, there is an angle distance (AD) between each pixel spectrum in HSI and the given prior target spectrum. The AD between the prior target spectrum and candidate target ones is smaller than that of the background pixels. The AD metric is utilized to adjust the values of pixels in each layer to gradually increase the separability of the background and the target. For making better discrimination, the AD is calculated through the whitened data rather than the original data. Besides, an elegant and ingenious smoothing processing operation is employed to mitigate the influence of spectral variability, which is beneficial for the detection accuracy. The experimental results of three real hyperspectral images show that the proposed method outperforms other classical and recently proposed HSI target detection algorithms.

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Multirapid Serial Visual Presentation Framework for EEG-Based Target Detection

BioMed Research International ◽

10.1155/2017/2049094 ◽

2017 ◽

Vol 2017 ◽

pp. 1-12 ◽

Cited By ~ 7

Author(s):

Zhimin Lin ◽

Ying Zeng ◽

Hui Gao ◽

Li Tong ◽

Chi Zhang ◽

...

Keyword(s):

Image Retrieval ◽

Target Detection ◽

Visual Presentation ◽

Research Direction ◽

Detection Methods ◽

Detection Accuracy ◽

Single Trial ◽

Target Image ◽

Detection Algorithms ◽

New Research

Target image detection based on a rapid serial visual presentation (RSVP) paradigm is a typical brain-computer interface system with various applications, such as image retrieval. In an RSVP paradigm, a P300 component is detected to determine target images. This strategy requires high-precision single-trial P300 detection methods. However, the performance of single-trial detection methods is relatively lower than that of multitrial P300 detection methods. Image retrieval based on multitrial P300 is a new research direction. In this paper, we propose a triple-RSVP paradigm with three images being presented simultaneously and a target image appearing three times. Thus, multitrial P300 classification methods can be used to improve detection accuracy. In this study, these mechanisms were extended and validated, and the characteristics of the multi-RSVP framework were further explored. Two different P300 detection algorithms were also utilized in multi-RSVP to demonstrate that the scheme is universally applicable. Results revealed that the detection accuracy of the multi-RSVP paradigm was higher than that of the standard RSVP paradigm. The results validate the effectiveness of the proposed method, and this method can provide a whole new idea in the field of EEG-based target detection.

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The Application of Improved YOLO V3 in Multi-Scale Target Detection

Applied Sciences ◽

10.3390/app9183775 ◽

2019 ◽

Vol 9 (18) ◽

pp. 3775 ◽

Cited By ~ 17

Author(s):

Ju ◽

Luo ◽

Wang ◽

Hui ◽

Chang

Keyword(s):

Target Detection ◽

Feature Fusion ◽

Detection Algorithm ◽

Detection Performance ◽

Research Directions ◽

Detection Algorithms ◽

Multi Scale ◽

Derivation Method ◽

Small Targets ◽

Mathematical Derivation

Target detection is one of the most important research directions in computer vision. Recently, a variety of target detection algorithms have been proposed. Since the targets have varying sizes in a scene, it is essential to be able to detect the targets at different scales. To improve the detection performance of targets with different sizes, a multi-scale target detection algorithm was proposed involving improved YOLO (You Only Look Once) V3. The main contributions of our work include: (1) a mathematical derivation method based on Intersection over Union (IOU) was proposed to select the number and the aspect ratio dimensions of the candidate anchor boxes for each scale of the improved YOLO V3; (2) To further improve the detection performance of the network, the detection scales of YOLO V3 have been extended from 3 to 4 and the feature fusion target detection layer downsampled by 4× is established to detect the small targets; (3) To avoid gradient fading and enhance the reuse of the features, the six convolutional layers in front of the output detection layer are transformed into two residual units. The experimental results upon PASCAL VOC dataset and KITTI dataset show that the proposed method has obtained better performance than other state-of-the-art target detection algorithms.

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Improved YOLOv4 Marine Target Detection Combined with CBAM

Symmetry ◽

10.3390/sym13040623 ◽

2021 ◽

Vol 13 (4) ◽

pp. 623

Author(s):

Huixuan Fu ◽

Guoqing Song ◽

Yuchao Wang

Keyword(s):

Target Detection ◽

Detection Method ◽

Feature Learning ◽

Sea Surface ◽

Detection Accuracy ◽

Detection Algorithms ◽

Detection Technology ◽

Time Requirements ◽

Small Targets ◽

Sea Area

Marine target detection technology plays an important role in sea surface monitoring, sea area management, ship collision avoidance, and other fields. Traditional marine target detection algorithms cannot meet the requirements of accuracy and speed. This article uses the advantages of deep learning in big data feature learning to propose the YOLOv4 marine target detection method fused with a convolutional attention module. Marine target detection datasets were collected and produced and marine targets were divided into ten categories, including speedboat, warship, passenger ship, cargo ship, sailboat, tugboat, and kayak. Aiming at the problem of insufficient detection accuracy of YOLOv4’s self-built marine target dataset, a convolutional attention module is added to the YOLOv4 network to increase the weight of useful features while suppressing the weight of invalid features to improve detection accuracy. The experimental results show that the improved YOLOv4 has higher detection accuracy than the original YOLOv4, and has better detection results for small targets, multiple targets, and overlapping targets. The detection speed meets the real-time requirements, verifying the effectiveness of the improved algorithm.

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Ship Target Detection Algorithm Based on Improved YOLOv3 for Maritime Image

Journal of Advanced Transportation ◽

10.1155/2021/9440212 ◽

2021 ◽

Vol 2021 ◽

pp. 1-11 ◽

Cited By ~ 1

Author(s):

Dehai Chen ◽

Shiru Sun ◽

Zhijun Lei ◽

Heng Shao ◽

Yuzhao Wang

Keyword(s):

Feature Extraction ◽

Traffic Safety ◽

Feature Fusion ◽

Field Size ◽

Detection Accuracy ◽

Accurate Identification ◽

Safety Control ◽

Feature Enhancement ◽

Correlation Degree ◽

Feature Attention

Accurate identification of ships is the key technology of intelligent transportation in water. At the same time, it also provides a judgment basis for water traffic safety control. This paper proposed a detection method of ships in water based on improved You Only Look Once version 3 (YOLOv3), which is called Feature Attention, Feature Enhancement YOLOv3 (AE-YOLOv3). The feature attention module was constructed by introducing the attention mechanism, which was embedded in Darknet-53 for feature recalibration, which improved the feature extraction ability of the model in the complex navigable background. For the problem of insufficient semantic information of low-level features in the feature fusion process, a feature enhancement module was constructed and applied to the feature fusion part to enhance the receptive field size of the corresponding feature layer and the correlation degree of feature extraction network. Experiments were carried out on the public SeaShips dataset. Experiments show that the detection accuracy is as high as 98.72%, which is better than that of other mainstream ship identification models, fully verifying the superiority of this method in the detection of waterborne traffic ships.

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DBA_SSD: A Novel End-to-End Object Detection Algorithm Applied to Plant Disease Detection

Information ◽

10.3390/info12110474 ◽

2021 ◽

Vol 12 (11) ◽

pp. 474

Author(s):

Jun Wang ◽

Liya Yu ◽

Jing Yang ◽

Hao Dong

Keyword(s):

Feature Extraction ◽

Target Detection ◽

Attention Mechanism ◽

Detection Methods ◽

Disease Detection ◽

Plant Leaves ◽

Plant Leaf ◽

Detection Algorithms ◽

Leaf Disease ◽

Image Dataset

In response to the difficulty of plant leaf disease detection and classification, this study proposes a novel plant leaf disease detection method called deep block attention SSD (DBA_SSD) for disease identification and disease degree classification of plant leaves. We propose three plant leaf detection methods, namely, squeeze-and-excitation SSD (Se_SSD), deep block SSD (DB_SSD), and DBA_SSD. Se_SSD fuses SSD feature extraction network and attention mechanism channel, DB_SSD improves VGG feature extraction network, and DBA_SSD fuses the improved VGG network and channel attention mechanism. To reduce the training time and accelerate the training process, the convolutional layers trained in the Image Net image dataset by the VGG model are migrated to this model, whereas the collected plant leaves disease image dataset is randomly divided into training set, validation set, and test set in the ratio of 8:1:1. We chose the PlantVillage dataset after careful consideration because it contains images related to the domain of interest. This dataset consists of images of 14 plants, including images of apples, tomatoes, strawberries, peppers, and potatoes, as well as the leaves of other plants. In addition, data enhancement methods, such as histogram equalization and horizontal flip were used to expand the image data. The performance of the three improved algorithms is compared and analyzed in the same environment and with the classical target detection algorithms YOLOv4, YOLOv3, Faster RCNN, and YOLOv4 tiny. Experiments show that DBA_SSD outperforms the two other improved algorithms, and its performance in comparative analysis is superior to other target detection algorithms.

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Detection of Schools in Remote Sensing Images Based on Attention-Guided Dense Network

ISPRS International Journal of Geo-Information ◽

10.3390/ijgi10110736 ◽

2021 ◽

Vol 10 (11) ◽

pp. 736

Author(s):

Han Fu ◽

Xiangtao Fan ◽

Zhenzhen Yan ◽

Xiaoping Du

Keyword(s):

Remote Sensing ◽

Object Detection ◽

Feature Fusion ◽

State Of The Art ◽

Feature Representation ◽

Detection Accuracy ◽

Dense Network ◽

Remote Sensing Images ◽

Composite Object ◽

Detection Algorithms

The detection of primary and secondary schools (PSSs) is a meaningful task for composite object detection in remote sensing images (RSIs). As a typical composite object in RSIs, PSSs have diverse appearances with complex backgrounds, which makes it difficult to effectively extract their features using the existing deep-learning-based object detection algorithms. Aiming at the challenges of PSSs detection, we propose an end-to-end framework called the attention-guided dense network (ADNet), which can effectively improve the detection accuracy of PSSs. First, a dual attention module (DAM) is designed to enhance the ability in representing complex characteristics and alleviate distractions in the background. Second, a dense feature fusion module (DFFM) is built to promote attention cues flow into low layers, which guides the generation of hierarchical feature representation. Experimental results demonstrate that our proposed method outperforms the state-of-the-art methods and achieves 79.86% average precision. The study proves the effectiveness of our proposed method on PSSs detection.

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