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428 results on '"Peng, Xiaohui"'

1. Hawk: An Efficient NALM System for Accurate Low-Power Appliance Recognition

Author

Wang, Zijian, Zhang, Xingzhou, Wang, Yifan, Peng, Xiaohui, and Xu, Zhiwei

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Non-intrusive Appliance Load Monitoring (NALM) aims to recognize individual appliance usage from the main meter without indoor sensors. However, existing systems struggle to balance dataset construction efficiency and event/state recognition accuracy, especially for low-power appliance recognition. This paper introduces Hawk, an efficient and accurate NALM system that operates in two stages: dataset construction and event recognition. In the data construction stage, we efficiently collect a balanced and diverse dataset, HawkDATA, based on balanced Gray code and enable automatic data annotations via a sampling synchronization strategy called shared perceptible time. During the event recognition stage, our algorithm integrates steady-state differential pre-processing and voting-based post-processing for accurate event recognition from the aggregate current. Experimental results show that HawkDATA takes only 1/71.5 of the collection time to collect 6.34x more appliance state combinations than the baseline. In HawkDATA and a widely used dataset, Hawk achieves an average F1 score of 93.94% for state recognition and 97.07% for event recognition, which is a 47. 98% and 11. 57% increase over SOTA algorithms. Furthermore, selected appliance subsets and the model trained from HawkDATA are deployed in two real-world scenarios with many unknown background appliances. The average F1 scores of event recognition are 96.02% and 94.76%. Hawk's source code and HawkDATA are accessible at https://github.com/WZiJ/SenSys24-Hawk., Comment: Accepted to the 22nd ACM Conference on Embedded Networked Sensor Systems (SenSys 2024)

Published
2024
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3. Sensiverse: A dataset for ISAC study

Author

Luo, Jiajin, Zhou, Baojian, Yu, Yang, Zhang, Ping, Peng, Xiaohui, Ma, Jianglei, Zhu, Peiying, Lu, Jianmin, and Tong, Wen

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

In order to address the lack of applicable channel models for ISAC research and evaluation, we release Sensiverse, a dataset that can be used for ISAC research. In this paper, we present the method of generating Sensiverse, including the acquisition and formatting of the 3D scene models, the generation of the channel data and associations with Tx/Rx deployment. The file structure and usage of the dataset are also described, and finally the use of the dataset is illustrated with examples through the evaluation of use cases such as 3D environment reconstruction and moving targets.

Published
2023

7. An Indoor Environment Sensing and Localization System via mmWave Phased Array

Author

Sun, Yifei, Li, Jie, Zhang, Tong, Wang, Rui, Peng, Xiaohui, Han, Tony Xiao, and Tan, Haisheng

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

An indoor layout sensing and localization system in 60GHz millimeter wave (mmWave) band, named mmReality, is elaborated in this paper. The mmReality system consists of one transmitter and one mobile receiver, each with a phased array and a single radio frequency (RF) chain. To reconstruct the room layout, the pilot signal is delivered from the transmitter to the receiver via different pairs of transmission and receiving beams, so that the signals at all antenna elements can be resolved. Then, the spatial smoothing and two-dimensional multiple signal classification (MUSIC) algorithm is applied to detect the angle-of-arrival (AoAs) and angle-of-departure (AoDs) of the rays from the transmitter to the receiver. Moreover, the technique of multi-carrier ranging is adopted to measure the distance of each propagation path. Synthesizing the above geometrical parameters, the location of receiver relative to the transmitter can be pinpointed, both line-of-sight (LoS) and non-line-of-sight (NLoS) paths can also be determined. Therefore, the room layout can be reconstructed by moving the receiver and repeating the above measurement in different locations of the room. At the end, we show that the reconstructed room layout can be utilized to locate a mobile device according to its AoA spectrum, even with single access point., Comment: Paper accepted for publication in Journal of Communications and Information Networks, 2022

Published
2022
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12. Integrated Sensing and Communication from Learning Perspective: An SDP3 Approach

Author

Li, Guoliang, Wang, Shuai, Li, Jie, Wang, Rui, Liu, Fan, Peng, Xiaohui, Han, Tony Xiao, and Xu, Chengzhong

Subjects
Computer Science - Information Theory, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

Characterizing the sensing and communication performance tradeoff in integrated sensing and communication (ISAC) systems is challenging in the applications of learning-based human motion recognition. This is because of the large experimental datasets and the black-box nature of deep neural networks. This paper presents SDP3, a Simulation-Driven Performance Predictor and oPtimizer, which consists of SDP3 data simulator, SDP3 performance predictor and SDP3 performance optimizer. Specifically, the SDP3 data simulator generates vivid wireless sensing datasets in a virtual environment, the SDP3 performance predictor predicts the sensing performance based on the function regression method, and the SDP3 performance optimizer investigates the sensing and communication performance tradeoff analytically. It is shown that the simulated sensing dataset matches the experimental dataset very well in the motion recognition accuracy. By leveraging SDP3, it is found that the achievable region of recognition accuracy and communication throughput consists of a communication saturation zone, a sensing saturation zone, and a communication-sensing adversarial zone, of which the desired balanced performance for ISAC systems lies in the third one., Comment: 13 pages, 9 figures, 3 tables, submitted to IEEE for possible publication

Published
2021

13. Wireless Sensing With Deep Spectrogram Network and Primitive Based Autoregressive Hybrid Channel Model

Author

Li, Guoliang, Wang, Shuai, Li, Jie, Wang, Rui, Peng, Xiaohui, and Han, Tony Xiao

Subjects
Computer Science - Information Theory, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

Human motion recognition (HMR) based on wireless sensing is a low-cost technique for scene understanding. Current HMR systems adopt support vector machines (SVMs) and convolutional neural networks (CNNs) to classify radar signals. However, whether a deeper learning model could improve the system performance is currently not known. On the other hand, training a machine learning model requires a large dataset, but data gathering from experiment is cost-expensive and time-consuming. Although wireless channel models can be adopted for dataset generation, current channel models are mostly designed for communication rather than sensing. To address the above problems, this paper proposes a deep spectrogram network (DSN) by leveraging the residual mapping technique to enhance the HMR performance. Furthermore, a primitive based autoregressive hybrid (PBAH) channel model is developed, which facilitates efficient training and testing dataset generation for HMR in a virtual environment. Experimental results demonstrate that the proposed PBAH channel model matches the actual experimental data very well and the proposed DSN achieves significantly smaller recognition error than that of CNN., Comment: 12 pages, 5 pages, submitted to IEEE SPAWC 2021

Published
2021

22. Stratified Transfer Learning for Cross-domain Activity Recognition

Author

Wang, Jindong, Chen, Yiqiang, Hu, Lisha, Peng, Xiaohui, and Yu, Philip S.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Learning
Abstract

In activity recognition, it is often expensive and time-consuming to acquire sufficient activity labels. To solve this problem, transfer learning leverages the labeled samples from the source domain to annotate the target domain which has few or none labels. Existing approaches typically consider learning a global domain shift while ignoring the intra-affinity between classes, which will hinder the performance of the algorithms. In this paper, we propose a novel and general cross-domain learning framework that can exploit the intra-affinity of classes to perform intra-class knowledge transfer. The proposed framework, referred to as Stratified Transfer Learning (STL), can dramatically improve the classification accuracy for cross-domain activity recognition. Specifically, STL first obtains pseudo labels for the target domain via majority voting technique. Then, it performs intra-class knowledge transfer iteratively to transform both domains into the same subspaces. Finally, the labels of target domain are obtained via the second annotation. To evaluate the performance of STL, we conduct comprehensive experiments on three large public activity recognition datasets~(i.e. OPPORTUNITY, PAMAP2, and UCI DSADS), which demonstrates that STL significantly outperforms other state-of-the-art methods w.r.t. classification accuracy (improvement of 7.68%). Furthermore, we extensively investigate the performance of STL across different degrees of similarities and activity levels between domains. And we also discuss the potential of STL in other pervasive computing applications to provide empirical experience for future research., Comment: 10 pages; accepted by IEEE PerCom 2018; full paper. (camera-ready version)

Published
2017

23. Deep Learning for Sensor-based Activity Recognition: A Survey

Author

Wang, Jindong, Chen, Yiqiang, Hao, Shuji, Peng, Xiaohui, and Hu, Lisha

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Learning, Computer Science - Neural and Evolutionary Computing
Abstract

Sensor-based activity recognition seeks the profound high-level knowledge about human activities from multitudes of low-level sensor readings. Conventional pattern recognition approaches have made tremendous progress in the past years. However, those methods often heavily rely on heuristic hand-crafted feature extraction, which could hinder their generalization performance. Additionally, existing methods are undermined for unsupervised and incremental learning tasks. Recently, the recent advancement of deep learning makes it possible to perform automatic high-level feature extraction thus achieves promising performance in many areas. Since then, deep learning based methods have been widely adopted for the sensor-based activity recognition tasks. This paper surveys the recent advance of deep learning based sensor-based activity recognition. We summarize existing literature from three aspects: sensor modality, deep model, and application. We also present detailed insights on existing work and propose grand challenges for future research., Comment: 10 pages, 2 figures, and 5 tables; submitted to Pattern Recognition Letters (second revision)

Published
2017
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28. Natural variation in ZmGRF10regulates tolerance to phosphate deficiency in maize by modulating phosphorus remobilization

Author

Wang, Yankai, Peng, Xiaohui, Lian, Xuechun, Yu, Qi, Zhang, Lingli, Li, Tingting, Luo, Haoyu, Li, Tingting, Yu, Kaili, Zhang, Wenli, Zhong, Deyi, Zhao, Yonghui, and Li, Shengben

Abstract

Phosphorus is a limiting factor in agriculture due to restricted availability in soil and low utilization efficiency of crops. The identification of superior haplotypes of key genes responsible for low-phosphate (Pi) tolerance and their natural variation is important for molecular breeding. In this study, we conducted genome-wide association studies on low-phosphate tolerance coefficients using 152 maize inbred lines, and identified a significant association between SNPs on chromosome 7 and a low-phosphate tolerance coefficient. ZmGRF10was identified as a candidate gene involved in adaptation of maize to Pi starvation. Expression of ZmGRF10is induced by Pi starvation. A mutation in ZmGRF10alleviated Pi starvation stress. RNA-seq analyses revealed significant upregulation of genes encoding various phosphatases in the zmgrf10-1mutant, suggesting that ZmGRF10negatively regulates expression of these genes, thereby affecting low-Pi tolerance by suppressing phosphorus remobilization. A superior haplotype with variations in the promoter region exhibited lower transcription activity of ZmGRF10. Our study unveiled a novel gene contributing to tolerance to low-Pi availability with potential to benefit molecular breeding for high Pi utilization.

Published
2024
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33. A Method for Geometry Optimization in a Simple Model of Two-Dimensional Heat Transfer

Author

Peng, Xiaohui, Niakhai, Katsiaryna, and Protas, Bartosz

Subjects
Mathematics - Numerical Analysis, Physics - Computational Physics
Abstract

This investigation is motivated by the problem of optimal design of cooling elements in modern battery systems. We consider a simple model of two-dimensional steady-state heat conduction described by elliptic partial differential equations and involving a one-dimensional cooling element represented by a contour on which interface boundary conditions are specified. The problem consists in finding an optimal shape of the cooling element which will ensure that the solution in a given region is close (in the least squares sense) to some prescribed target distribution. We formulate this problem as PDE-constrained optimization and the locally optimal contour shapes are found using a gradient-based descent algorithm in which the Sobolev shape gradients are obtained using methods of the shape-differential calculus. The main novelty of this work is an accurate and efficient approach to the evaluation of the shape gradients based on a boundary-integral formulation which exploits certain analytical properties of the solution and does not require grids adapted to the contour. This approach is thoroughly validated and optimization results obtained in different test problems exhibit nontrivial shapes of the computed optimal contours., Comment: Accepted for publication in "SIAM Journal on Scientific Computing" (31 pages, 9 figures)

Published
2013

37. Rapidly determining the 3D structure of proteins by surface-enhanced Raman spectroscopy

Author

Ma, Hao, primary, Yan, Sen, additional, Lu, Xinyu, additional, Bao, Yi-Fan, additional, Liu, Jia, additional, Liao, Langxing, additional, Dai, Kun, additional, Cao, Maofeng, additional, Zhao, Xiaojiao, additional, Yan, Hao, additional, Wang, Hai-Long, additional, Peng, Xiaohui, additional, Chen, Ningyu, additional, Feng, Huishu, additional, Zhu, Lilin, additional, Yao, Guangbao, additional, Fan, Chunhai, additional, Wu, De-Yin, additional, Wang, Binju, additional, Wang, Xiang, additional, and Ren, Bin, additional

Published
2023
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39. Type III fetal redundancy of the foramen ovale flap mimics hemodynamic changes of mitral stenosis.

Author

Peng, Xiaohui, Zhang, Panpan, Pan, Mei, Hui, Shanshan, Shen, Tingting, You, Liyi, and Zhao, Bowen

Subjects
*FETAL echocardiography, *MITRAL stenosis, *ANEURYSMS, *DIFFERENTIAL diagnosis, *ATRIAL septum, *PATENT ductus arteriosus, *FETAL ultrasonic imaging, *ATRIAL septal defects, *GESTATIONAL age, *ECHOCARDIOGRAPHY, *FETUS
Abstract

Type III redundancy of the foramen ovale flap (RFOF) mimics hemodynamic changes of mitral stenosis(MS), which has not been particularly highlighted in previous literature but carries a favorable prognosis. [ABSTRACT FROM AUTHOR]

Published
2024
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