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219 results on '"Hou, Jiahui"'

1. ViRED: Prediction of Visual Relations in Engineering Drawings

Author

Gu, Chao, Lin, Ke, Luo, Yiyang, Hou, Jiahui, and Li, Xiang-Yang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

To accurately understand engineering drawings, it is essential to establish the correspondence between images and their description tables within the drawings. Existing document understanding methods predominantly focus on text as the main modality, which is not suitable for documents containing substantial image information. In the field of visual relation detection, the structure of the task inherently limits its capacity to assess relationships among all entity pairs in the drawings. To address this issue, we propose a vision-based relation detection model, named ViRED, to identify the associations between tables and circuits in electrical engineering drawings. Our model mainly consists of three parts: a vision encoder, an object encoder, and a relation decoder. We implement ViRED using PyTorch to evaluate its performance. To validate the efficacy of ViRED, we conduct a series of experiments. The experimental results indicate that, within the engineering drawing dataset, our approach attained an accuracy of 96\% in the task of relation prediction, marking a substantial improvement over existing methodologies. The results also show that ViRED can inference at a fast speed even when there are numerous objects in a single engineering drawing., Comment: 8 pages, 5 figures

Published
2024

2. Aligning LLMs through Multi-perspective User Preference Ranking-based Feedback for Programming Question Answering

Author

Yang, Hongyu, He, Liyang, Hou, Min, Shen, Shuanghong, Li, Rui, Hou, Jiahui, Ma, Jianhui, and Zhao, Junda

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Code Community Question Answering (CCQA) seeks to tackle programming-related issues, thereby boosting productivity in both software engineering and academic research. Recent advancements in Reinforcement Learning from Human Feedback (RLHF) have transformed the fine-tuning process of Large Language Models (LLMs) to produce responses that closely mimic human behavior. Leveraging LLMs with RLHF for practical CCQA applications has thus emerged as a promising area of study. Unlike standard code question-answering tasks, CCQA involves multiple possible answers, with varying user preferences for each response. Additionally, code communities often show a preference for new APIs. These challenges prevent LLMs from generating responses that cater to the diverse preferences of users in CCQA tasks. To address these issues, we propose a novel framework called Aligning LLMs through Multi-perspective User Preference Ranking-based Feedback for Programming Question Answering (ALMupQA) to create user-focused responses. Our approach starts with Multi-perspective Preference Ranking Alignment (MPRA), which synthesizes varied user preferences based on the characteristics of answers from code communities. We then introduce a Retrieval-augmented In-context Learning (RIL) module to mitigate the problem of outdated answers by retrieving responses to similar questions from a question bank. Due to the limited availability of high-quality, multi-answer CCQA datasets, we also developed a dataset named StaCCQA from real code communities. Extensive experiments demonstrated the effectiveness of the ALMupQA framework in terms of accuracy and user preference. Compared to the base model, ALMupQA showed nearly an 11% improvement in BLEU, with increases of 20% and 17.5% in BERTScore and CodeBERTScore, respectively.

Published
2024

3. Ultraprecise time-difference measurement via enhanced dual pointers with multiple weak interactions

Author

Guo, Yanqiang, Zhang, Jianchao, Hou, Jiahui, Guo, Xiaomin, and Xiao, Liantuan

Subjects
Quantum Physics, Physics - Optics
Abstract

Standard weak measurement with an assistant pointer and single weak interaction constrains measurement precision and quantity of interaction parameters, and a compelling characterization of quantum effect featuring weak-value amplification (WVA) remains elusive. Here, we theoretically and experimentally demonstrate an enhanced dual-pointer WVA scheme based on multiple weak interactions and variable spectrum sources. Developing triple weak interactions, momentum P pointer reaches an optimal time-difference precision of $3.34 \times {10^{-5}}$ as at 6 nm spectral width, and intensity I pointer achieves a displacement resolution of 148.8 fm within 400 kHz linewidth. A quantum effect associated with an anomalous weak value is revealed by an observable violation of a Leggett-Garg inequality. The I-pointer weak value is measured to be 1478 using multiple weak interactions and high signal-to-noise detection, achieving a two-order-of-magnitude WVA enhancement compared to standard weak measurement. Our work opens up a practical avenue for minuscule quantumness measurements in challenging environments., Comment: Main text: 6 pages, 6 figures; Supplementary material: 5 pages, 4 figures

Published
2024

4. Gait Characterization in Duchenne Muscular Dystrophy (DMD) Using a Single-Sensor Accelerometer: Classical Machine Learning and Deep Learning Approaches.

Author

Ramli, Albara, Liu, Xin, Berndt, Kelly, Goude, Erica, Hou, Jiahui, Kaethler, Lynea, Liu, Rex, Lopez, Amanda, Nicorici, Alina, Owens, Corey, Rodriguez, David, Wang, Jane, Zhang, Huanle, McDonald, Craig, Henricson, Erik, and Aranki, Daniel

Subjects
accelerometer, classical machine learning, deep learning, duchenne muscular dystrophy, gait, gait cycle, linear discriminant analysis, principal components analysis, sensors, temporospatial gait clinical features, typically developing, Adolescent, Humans, Muscular Dystrophy, Duchenne, Deep Learning, Gait, Walking, Accelerometry
Abstract

Differences in gait patterns of children with Duchenne muscular dystrophy (DMD) and typically developing (TD) peers are visible to the eye, but quantifications of those differences outside of the gait laboratory have been elusive. In this work, we measured vertical, mediolateral, and anteroposterior acceleration using a waist-worn iPhone accelerometer during ambulation across a typical range of velocities. Fifteen TD and fifteen DMD children from 3 to 16 years of age underwent eight walking/running activities, including five 25 m walk/run speed-calibration tests at a slow walk to running speeds (SC-L1 to SC-L5), a 6-min walk test (6MWT), a 100 m fast walk/jog/run (100MRW), and a free walk (FW). For clinical anchoring purposes, participants completed a Northstar Ambulatory Assessment (NSAA). We extracted temporospatial gait clinical features (CFs) and applied multiple machine learning (ML) approaches to differentiate between DMD and TD children using extracted temporospatial gait CFs and raw data. Extracted temporospatial gait CFs showed reduced step length and a greater mediolateral component of total power (TP) consistent with shorter strides and Trendelenberg-like gait commonly observed in DMD. ML approaches using temporospatial gait CFs and raw data varied in effectiveness at differentiating between DMD and TD controls at different speeds, with an accuracy of up to 100%. We demonstrate that by using ML with accelerometer data from a consumer-grade smartphone, we can capture DMD-associated gait characteristics in toddlers to teens.

Published
2024

6. A primer on the use of machine learning to distil knowledge from data in biological psychiatry

Author

Quinn, Thomas P., Hess, Jonathan L., Marshe, Victoria S., Barnett, Michelle M., Hauschild, Anne-Christin, Maciukiewicz, Malgorzata, Elsheikh, Samar S. M., Men, Xiaoyu, Schwarz, Emanuel, Trakadis, Yannis J., Breen, Michael S., Barnett, Eric J., Zhang-James, Yanli, Ahsen, Mehmet Eren, Cao, Han, Chen, Junfang, Hou, Jiahui, Salekin, Asif, Lin, Ping-I, Nicodemus, Kristin K., Meyer-Lindenberg, Andreas, Bichindaritz, Isabelle, Faraone, Stephen V., Cairns, Murray J., Pandey, Gaurav, Müller, Daniel J., and Glatt, Stephen J.

Published
2024
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12. Polygenic resilience scores capture protective genetic effects for Alzheimer’s disease

Author

Hou, Jiahui, Hess, Jonathan L, Armstrong, Nicola, Bis, Joshua C, Grenier-Boley, Benjamin, Karlsson, Ida K, Leonenko, Ganna, Numbers, Katya, O’Brien, Eleanor K, Shadrin, Alexey, Thalamuthu, Anbupalam, Yang, Qiong, Andreassen, Ole A, Brodaty, Henry, Gatz, Margaret, Kochan, Nicole A, Lambert, Jean-Charles, Laws, Simon M, Masters, Colin L, Mather, Karen A, Pedersen, Nancy L, Posthuma, Danielle, Sachdev, Perminder S, Williams, Julie, Fan, Chun Chieh, Faraone, Stephen V, Fennema-Notestine, Christine, Lin, Shu-Ju, Escott-Price, Valentina, Holmans, Peter, Seshadri, Sudha, Tsuang, Ming T, Kremen, William S, and Glatt, Stephen J

Subjects
Genetics, Alzheimer's Disease, Brain Disorders, Human Genome, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Genetic Testing, Neurodegenerative, Prevention, Dementia, Aging, Acquired Cognitive Impairment, Aetiology, 2.1 Biological and endogenous factors, Alzheimer Disease, Apolipoprotein E4, Apolipoproteins E, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Multifactorial Inheritance, Risk Factors, Alzheimer’s Disease Neuroimaging Initiative, Clinical Sciences, Public Health and Health Services, Psychology
Abstract

Polygenic risk scores (PRSs) can boost risk prediction in late-onset Alzheimer's disease (LOAD) beyond apolipoprotein E (APOE) but have not been leveraged to identify genetic resilience factors. Here, we sought to identify resilience-conferring common genetic variants in (1) unaffected individuals having high PRSs for LOAD, and (2) unaffected APOE-ε4 carriers also having high PRSs for LOAD. We used genome-wide association study (GWAS) to contrast "resilient" unaffected individuals at the highest genetic risk for LOAD with LOAD cases at comparable risk. From GWAS results, we constructed polygenic resilience scores to aggregate the addictive contributions of risk-orthogonal common variants that promote resilience to LOAD. Replication of resilience scores was undertaken in eight independent studies. We successfully replicated two polygenic resilience scores that reduce genetic risk penetrance for LOAD. We also showed that polygenic resilience scores positively correlate with polygenic risk scores in unaffected individuals, perhaps aiding in staving off disease. Our findings align with the hypothesis that a combination of risk-independent common variants mediates resilience to LOAD by moderating genetic disease risk.

Published
2022

13. Gait Characterization in Duchenne Muscular Dystrophy (DMD) Using a Single-Sensor Accelerometer: Classical Machine Learning and Deep Learning Approaches

Author

Ramli, Albara Ah, Liu, Xin, Berndt, Kelly, Goude, Erica, Hou, Jiahui, Kaethler, Lynea B., Liu, Rex, Lopez, Amanda, Nicorici, Alina, Owens, Corey, Rodriguez, David, Wang, Jane, Zhang, Huanle, Aranki, Daniel, McDonald, Craig M., and Henricson, Erik K.

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

Differences in gait patterns of children with Duchenne muscular dystrophy (DMD) and typically-developing (TD) peers are visible to the eye, but quantifications of those differences outside of the gait laboratory have been elusive. In this work, we measured vertical, mediolateral, and anteroposterior acceleration using a waist-worn iPhone accelerometer during ambulation across a typical range of velocities. Fifteen TD and fifteen DMD children from 3-16 years of age underwent eight walking/running activities, including five 25 meters walk/run speed-calibration tests at a slow walk to running speeds (SC-L1 to SC-L5), a 6-minute walk test (6MWT), a 100 meters fast-walk/jog/run (100MRW), and a free walk (FW). For clinical anchoring purposes, participants completed a Northstar Ambulatory Assessment (NSAA). We extracted temporospatial gait clinical features (CFs) and applied multiple machine learning (ML) approaches to differentiate between DMD and TD children using extracted temporospatial gait CFs and raw data. Extracted temporospatial gait CFs showed reduced step length and a greater mediolateral component of total power (TP) consistent with shorter strides and Trendelenberg-like gait commonly observed in DMD. ML approaches using temporospatial gait CFs and raw data varied in effectiveness at differentiating between DMD and TD controls at different speeds, with an accuracy of up to 100%. We demonstrate that by using ML with accelerometer data from a consumer-grade smartphone, we can capture DMD-associated gait characteristics in toddlers to teens.

Published
2021

15. Progressive deep network for blind motion image deblurring

Author

WANG Xiaohua, HOU Jiahui, ZHANG Kaibing, CHENG Jing, and SU Zebin

Subjects
blind motion image deblurring, contextual attention fustion, progressive deep network, dilated convolution, Materials of engineering and construction. Mechanics of materials, TA401-492, Environmental engineering, TA170-171
Abstract

The multi-stage deep neural network in the blind motion image deblurring task lacks a large range of receptive fields and it was difficult to reasonably interact with the image features of each stage. A progressive depth network (PDNet) with dilated convolution and contextual attention fusion module was thus proposed for restoring sharp images. This method included three stages:local feature extraction, image feature integration and image restoration. In the local feature extraction stage and image feature integration stage, multi-branch dilated convolution module (MDCB) was used to increase receptive field to adapt to different degrees of motion blur. In the image feature integration stage and image restoration stage, the contextual attention fusion module was used for information interaction of image features in different stages to achieve progressive image feature enhancement. The proposed method could make full use of local and global image features to guide image restoration through the three-stage progressive enhancement strategy, so as to generate sharp and high-quality images. The experimental results showed that compared with SRN and other networks, the proposed PDNet had a better effect on GoPro data set and RealBlur-J data set, and the peak signal to noise ratio (PSNR) had an average increase of 2.9 dB, and the structural similarity (SSIM) had an average increase of 0.05.

Published
2023
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16. Adaptive Federated Dropout: Improving Communication Efficiency and Generalization for Federated Learning

Author

Bouacida, Nader, Hou, Jiahui, Zang, Hui, and Liu, Xin

Subjects
Computer Science - Machine Learning, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

With more regulations tackling users' privacy-sensitive data protection in recent years, access to such data has become increasingly restricted and controversial. To exploit the wealth of data generated and located at distributed entities such as mobile phones, a revolutionary decentralized machine learning setting, known as Federated Learning, enables multiple clients located at different geographical locations to collaboratively learn a machine learning model while keeping all their data on-device. However, the scale and decentralization of federated learning present new challenges. Communication between the clients and the server is considered a main bottleneck in the convergence time of federated learning. In this paper, we propose and study Adaptive Federated Dropout (AFD), a novel technique to reduce the communication costs associated with federated learning. It optimizes both server-client communications and computation costs by allowing clients to train locally on a selected subset of the global model. We empirically show that this strategy, combined with existing compression methods, collectively provides up to 57x reduction in convergence time. It also outperforms the state-of-the-art solutions for communication efficiency. Furthermore, it improves model generalization by up to 1.7%.

Published
2020

22. On Measurement of the Spatio-Frequency Property of OFDM Backscattering

Author

Zhang, Xiaoxue, Mi, Nanhuan, He, Xin, Yang, Panlong, Du, Haohua, Hou, Jiahui, and Wan, Peng-Jun

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Orthogonal frequency-division multiplexing (OFDM) backscatter system, such as Wi-Fi backscatter, has recently been recognized as a promising technique for the IoT connectivity, due to its ubiquitous and low-cost property. This paper investigates the spatial-frequency property of the OFDM backscatter which takes the distance and the angle into account in different frequency bands. We deploy three typical scenarios for performing measurements to evaluate the received signal strength from the backscatter link. The impact of the distances among the transmitter, the tag and the receiver, as well as the angle between the transmitter and the tag is observed through the obtained measurement data. From the evaluation results, it is found that the best location of tag is either close to the receiver or the transmitter which depends on the frequency band, and the best angle is 90 degrees between the transmitter and the receiver. This work opens the shed light on the spatial deployment of the backscatter tag in different frequency band with the aim of improving the performance and reducing the interference.

Published
2018

24. VoiceMask: Anonymize and Sanitize Voice Input on Mobile Devices

Author

Qian, Jianwei, Du, Haohua, Hou, Jiahui, Chen, Linlin, Jung, Taeho, Li, Xiang-Yang, Wang, Yu, and Deng, Yanbo

Subjects
Computer Science - Cryptography and Security, Computer Science - Human-Computer Interaction
Abstract

Voice input has been tremendously improving the user experience of mobile devices by freeing our hands from typing on the small screen. Speech recognition is the key technology that powers voice input, and it is usually outsourced to the cloud for the best performance. However, the cloud might compromise users' privacy by identifying their identities by voice, learning their sensitive input content via speech recognition, and then profiling the mobile users based on the content. In this paper, we design an intermediate between users and the cloud, named VoiceMask, to sanitize users' voice data before sending it to the cloud for speech recognition. We analyze the potential privacy risks and aim to protect users' identities and sensitive input content from being disclosed to the cloud. VoiceMask adopts a carefully designed voice conversion mechanism that is resistant to several attacks. Meanwhile, it utilizes an evolution-based keyword substitution technique to sanitize the voice input content. The two sanitization phases are all performed in the resource-limited mobile device while still maintaining the usability and accuracy of the cloud-supported speech recognition service. We implement the voice sanitizer on Android systems and present extensive experimental results that validate the effectiveness and efficiency of our app. It is demonstrated that we are able to reduce the chance of a user's voice being identified from 50 people by 84% while keeping the drop of speech recognition accuracy within 14.2%.

Published
2017

28. Targeting endothelial PDGFR‐β facilitates angiogenesis‐associated bone formation through the PAK1/NICD axis

Author

Lin, Hancheng, primary, Lin, Rongmin, additional, Hou, Jiahui, additional, Zhu, Chencheng, additional, Liu, Guanqiao, additional, Lin, Yihuang, additional, Su, Jianwen, additional, Yang, Mankai, additional, Yang, Bingsheng, additional, Ma, Yuan, additional, Cheng, Caiyu, additional, Deng, Mingye, additional, Yu, Bin, additional, Xu, Ting, additional, Wu, HangTian, additional, and Cui, Zhuang, additional

Published
2024
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29. Performance Analysis of MPTCP Under High Load Based on SDN Environment

Author

Hou, Jiahui, Hou, Dinghui, Tao, Bixin, Qi, Hui, Di, Xiaoqiang, Ren, Weiwu, Cong, Ligang, Akan, Ozgur, Editorial Board Member, Bellavista, Paolo, Editorial Board Member, Cao, Jiannong, Editorial Board Member, Coulson, Geoffrey, Editorial Board Member, Dressler, Falko, Editorial Board Member, Ferrari, Domenico, Editorial Board Member, Gerla, Mario, Editorial Board Member, Kobayashi, Hisashi, Editorial Board Member, Palazzo, Sergio, Editorial Board Member, Sahni, Sartaj, Editorial Board Member, Shen, Xuemin (Sherman), Editorial Board Member, Stan, Mircea, Editorial Board Member, Jia, Xiaohua, Editorial Board Member, Zomaya, Albert Y., Editorial Board Member, Li, Wuyungerile, editor, and Tang, Dalai, editor

Published
2020
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31. Sustainable iron production via highly efficient low-temperature electrolysis of 3D conductive colloidal electrodes.

Author

Thanwisai, Panya, Yao, Zeyi, Shahabuddin, Muntasir, Hou, Jiahui, Fu, Jinzhao, Powell IV, Adam C., and Wang, Yan

Subjects
ALLOY powders, SUSTAINABILITY, ELECTROLYTIC reduction, COPPER, ALLOYS, METAL powders
Abstract

Towards decarbonizing the carbothermic reduction of iron and steelmaking, which produces around 5% of global CO2 emissions, we herein propose a low-temperature electrolysis (100 °C) with 3D electrically–ionically conductive colloidal Fe2O3 electrodes as a novel and sustainable alternative. With the designed electrodes that offer a 3D conductive network to facilitate the electrochemical reduction of Fe2O3 at such a low temperature, high-purity Fe powder (>95%) can be produced with high current efficiency (>95%) and no direct CO2 emission. In addition to Fe, we also demonstrate the production of metal and alloy powders such as Cu, Ag, and an FeNi alloy using the proposed method. A techno-economic assessment of the process is performed to evaluate industrial feasibility as well as CO2 emission analysis. Altogether, this alternative process is green, environmentally friendly, and energy efficient, showing great potential for revolutionizing the conventional process that has had a significant environmental impact for decades. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Zwitterion‐Lubricated Hydrogel Microspheres Encapsulated with Metformin Ameliorate Age‐Associated Osteoarthritis.

Author

Hou, Jiahui, Lin, Yanpeng, Zhu, Chencheng, Chen, Yupeng, Lin, Rongmin, Lin, Hancheng, Liu, Dahai, Guan, Daogang, Yu, Bin, Wang, Jun, Wu, Hangtian, and Cui, Zhuang

Subjects
*NITRIC-oxide synthases, *CELLULAR aging, *CARBOXYL group, *RNA sequencing, *DRUG analysis, *HYALURONIC acid, *METFORMIN
Abstract

Chondrocyte senescence and reduced lubrication play pivotal roles in the pathogenesis of age‐related osteoarthritis (OA). In the present study, highly lubricated and drug‐loaded hydrogel microspheres are designed and fabricated through the radical polymerization of sulfobetaine (SB)‐modified hyaluronic acid methacrylate using microfluidic technology. The copolymer contains a large number of SB and carboxyl groups that can provide a high degree of lubrication through hydration and form electrostatic loading interactions with metformin (Met@SBHA), producing a high drug load for anti‐chondrocyte senescence. Mechanical, tribological, and drug release analyses demonstrated enhanced lubricative properties and prolonged drug dissemination of the Met@SBHA microspheres. RNA sequencing (RNA‐seq) analysis, network pharmacology, and in vitro assays revealed the extraordinary capacity of Met@SBHA to combat chondrocyte senescence. Additionally, inducible nitric oxide synthase (iNOS) has been identified as a promising protein modulated by Met in senescent chondrocytes, thereby exerting a significant influence on the iNOS/ONOO‐/P53 pathway. Notably, the intra‐articular administration of Met@SBHA in aged mice ameliorated cartilage senescence and OA pathogenesis. Based on the findings of this study, Met@SBHA emerges as an innovative and promising strategy in tackling age‐related OA serving the dual function of enhancing joint lubrication and mitigating cartilage senescence. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Understanding the Effects of Bi Modification on the Properties of Ni‐Rich Cathodes.

Author

Meng, Zifei, Hou, Jiahui, Thanwisai, Panya, Fu, Jinzhao, Yao, Zeyi, Zheng, Yadong, Jin, Wenting, Wang, Zexin, Yang, Zhenzhen, Ma, Xiaotu, and Wang, Yan

Subjects
CATHODES, ELECTROCHEMICAL electrodes, ENERGY density, STRUCTURAL stability, ENERGY storage
Abstract

With the skyrocketing market demands for energy storage, lithium ions batteries (LIB) with higher energy density are urgently needed. Cathodes play a critical role in determining the energy density of LIB, and the most popular one is Ni‐rich cathode due to its high capacity. However, due to the fast structural degradation, Ni‐rich cathode materials should be further modified to achieve higher stability. Herein, we introduce bismuth ions in LiNi0.83Co0.11Mn0.06O2 cathodes by adding Bi2O3 during sintering to optimize the specific capacity and cycle stability. By adding 0.1 % mol Bi, the Li+ diffusion and structural stability are effectively optimized, leading to improved electrochemical performances. The modified sample delivers much higher specific capacity (222.9 mAhg−1, 0.05 C) than unmodified sample (204 mAhg−1, 0.05 C). Meanwhile, the specific capacity of optimized sample after 100 cycles at 0.33 C is 27.75 mAhg−1 higher than that of unmodified sample. Therefore, this work demonstrates that Bi modification can be regarded as a possible solution to optimizing the electrochemical performance of Ni‐rich cathodes. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Job Scheduling Under Differential Pricing: Hardness and Approximation Algorithms

Author

Huang, Qiuyuan, Zhao, Jing, Du, Haohua, Hou, Jiahui, Li, Xiang-Yang, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Ma, Liran, editor, Khreishah, Abdallah, editor, Zhang, Yan, editor, and Yan, Mingyuan, editor

Published
2017
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50. Gait Characterization in Duchenne Muscular Dystrophy (DMD) Using a Single-Sensor Accelerometer: Classical Machine Learning and Deep Learning Approaches.

Author

Ramli, Albara Ah, Liu, Xin, Berndt, Kelly, Goude, Erica, Hou, Jiahui, Kaethler, Lynea B., Liu, Rex, Lopez, Amanda, Nicorici, Alina, Owens, Corey, Rodriguez, David, Wang, Jane, Zhang, Huanle, Aranki, Daniel, McDonald, Craig M., and Henricson, Erik K.

Subjects
DEEP learning, DUCHENNE muscular dystrophy, RUNNING speed, MACHINE learning, GAIT in humans, FISHER discriminant analysis, ACCELEROMETERS
Abstract

Differences in gait patterns of children with Duchenne muscular dystrophy (DMD) and typically developing (TD) peers are visible to the eye, but quantifications of those differences outside of the gait laboratory have been elusive. In this work, we measured vertical, mediolateral, and anteroposterior acceleration using a waist-worn iPhone accelerometer during ambulation across a typical range of velocities. Fifteen TD and fifteen DMD children from 3 to 16 years of age underwent eight walking/running activities, including five 25 m walk/run speed-calibration tests at a slow walk to running speeds (SC-L1 to SC-L5), a 6-min walk test (6MWT), a 100 m fast walk/jog/run (100MRW), and a free walk (FW). For clinical anchoring purposes, participants completed a Northstar Ambulatory Assessment (NSAA). We extracted temporospatial gait clinical features (CFs) and applied multiple machine learning (ML) approaches to differentiate between DMD and TD children using extracted temporospatial gait CFs and raw data. Extracted temporospatial gait CFs showed reduced step length and a greater mediolateral component of total power (TP) consistent with shorter strides and Trendelenberg-like gait commonly observed in DMD. ML approaches using temporospatial gait CFs and raw data varied in effectiveness at differentiating between DMD and TD controls at different speeds, with an accuracy of up to 100%. We demonstrate that by using ML with accelerometer data from a consumer-grade smartphone, we can capture DMD-associated gait characteristics in toddlers to teens. [ABSTRACT FROM AUTHOR]

Published
2024
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