17.1.4.15.1 Wearable Monitoring, Wearable Cameras

Zhu, Z., Satizábal, H.F., Blanke, U., Perez-Uribe, A., Tröster, G.,
Naturalistic Recognition of Activities and Mood Using Wearable Electronics,
AffCom(7), No. 3, July 2016, pp. 272-285.
IEEE DOI 1609
Acceleration BibRef

Timmons, A.C., Chaspari, T., Han, S.C., Perrone, L., Narayanan, S.S., Margolin, G.,
Using Multimodal Wearable Technology to Detect Conflict among Couples,
Computer(50), No. 3, March 2017, pp. 50-59.
IEEE DOI 1704
Behavioral sciences BibRef

Shrestha, P.[Prakash], Saxena, N.[Nitesh],
An Offensive and Defensive Exposition of Wearable Computing,
Surveys(50), No. 6, January 2018, pp. Article No 92.
DOI Link 1801
Wearable computing is rapidly getting deployed in many commercial, medical, and personal domains of day-to-day life. BibRef

Yao, R.[Rui], Lin, G.S.[Guo-Sheng], Shi, Q.F.[Qin-Feng], Ranasinghe, D.C.[Damith C.],
Efficient dense labelling of human activity sequences from wearables using fully convolutional networks,
PR(78), 2018, pp. 252-266.
Elsevier DOI 1804
Human activity recognition, Time series sequence classification, Fully convolutional networks BibRef

Yu, H.K.[Hong-Kai], Yu, H.Z.[Hao-Zhou], Guo, H.[Hao], Simmons, J.[Jeff], Zou, Q.[Qin], Feng, W.[Wei], Wang, S.[Song],
Multiple human tracking in wearable camera videos with informationless intervals,
PRL(112), 2018, pp. 104-110.
Elsevier DOI 1809
Wearable cameras, Multiple human tracking, Informationless interval BibRef

Hudson, F., Clark, C.,
Wearables and Medical Interoperability: The Evolving Frontier,
Computer(51), No. 9, September 2018, pp. 86-90.
IEEE DOI 1810
Wearable computing, Medical devices, Internet of Things, Implants, Standards, standards, medical devices, wearables, TIPPSS BibRef

Guo, M., Wang, Z., Yang, N., Li, Z., An, T.,
A Multisensor Multiclassifier Hierarchical Fusion Model Based on Entropy Weight for Human Activity Recognition Using Wearable Inertial Sensors,
HMS(49), No. 1, February 2019, pp. 105-111.
IEEE DOI 1901
Feature extraction, Biomedical monitoring, Wearable sensors, Activity recognition, Monitoring, Sensor fusion, Body area network, wearable system BibRef

Cabrera-Quiros, L., Hung, H.,
A Hierarchical Approach for Associating Body-Worn Sensors to Video Regions in Crowded Mingling Scenarios,
MultMed(21), No. 7, July 2019, pp. 1867-1879.
IEEE DOI 1906
Acceleration, Wearable sensors, Streaming media, Task analysis, Cameras, Mingling, wearable sensor, association BibRef

Gedik, E., Cabrera-Quiros, L., Martella, C., Englebienne, G., Hung, H.,
Towards Analyzing and Predicting the Experience of Live Performances with Wearable Sensing,
AffCom(12), No. 1, January 2021, pp. 269-276.
IEEE DOI 2103
Sensors, Motion pictures, Physiology, Accelerometers, Couplings, Appraisal, Atmospheric measurements, Human behavior, dance BibRef

Edwards, J.,
Wearables-Fashion With a Purpose: A New Generation of Wearable Devices Uses Signal Processing to Make Life Easier, Healthier, and More Secure [Special Reports],
SPMag(38), No. 2, March 2021, pp. 15-136.
IEEE DOI 2103
Performance evaluation, Wearable computers, Mobile handsets, Biomedical monitoring, Usability, Monitoring BibRef

Bianco, S.[Simone], Napoletano, P.[Paolo], Raimondi, A.[Alberto], Rima, M.[Mirko],
U-WeAr: User Recognition on Wearable Devices through Arm Gesture,
HMS(52), No. 4, August 2022, pp. 713-724.
IEEE DOI 2208
Gesture recognition, Accelerometers, Inertial sensors, Hidden Markov models, Gyroscopes, Task analysis, Servers, user verification BibRef

Wu, R.J.[Ren-Jie], Lee, B.G.[Boon Giin], Pike, M.[Matthew], Zhu, L.Z.[Lin-Zhen], Chai, X.Q.[Xiao-Qing], Huang, L.[Liang], Wu, X.[Xian],
IOAM: A Novel Sensor Fusion-Based Wearable for Localization and Mapping,
RS(14), No. 23, 2022, pp. xx-yy.
DOI Link 2212
BibRef

Dai, Y.[Yudi], Wang, Z.Y.[Zhi-Yong], Lin, X.P.[Xi-Ping], Wen, C.L.[Cheng-Lu], Xu, L.[Lan], Shen, S.Q.[Si-Qi], Ma, Y.X.[Yue-Xin], Wang, C.[Cheng],
HiSC4D: Human-Centered Interaction and 4D Scene Capture in Large-Scale Space Using Wearable IMUs and LiDAR,
PAMI(46), No. 12, December 2024, pp. 11236-11253.
IEEE DOI 2411
Laser radar, Cameras, Sensors, Location awareness, Accuracy, Point cloud compression, 3D computer vision, dataset, scene mapping BibRef

Dai, Y.[Yudi], Lin, Y.[Yitai], Wen, C.L.[Cheng-Lu], Shen, S.Q.[Si-Qi], Xu, L.[Lan], Yu, J.Y.[Jing-Yi], Ma, Y.X.[Yue-Xin], Wang, C.[Cheng],
HSC4D: Human-centered 4D Scene Capture in Large-scale Indoor-outdoor Space Using Wearable IMUs and LiDAR,
CVPR22(6782-6792)
IEEE DOI 2210
Location awareness, Laser radar, Dynamics, Stairs, Robot sensing systems, Motion capture, Sensors, Motion and tracking BibRef

Doyle-Baker, P.K.[Patricia K.], Petersen, J.A.[Jennie A.], Ghoneim, D.[Dalia], Blackstaffe, A.[Anita], Naish, C.[Calli], McCormack, G.R.[Gavin R.],
A Mixed Methods Evaluation of Wearable Technology: Findings from the Vivo Play Scientist (VPS) Program,
IJGI(13), No. 12, 2024, pp. 454.
DOI Link 2501
BibRef

Zhang, L.M.[Li-Ming], Zhang, W.B.[Wen-Bin], Japkowicz, N.[Nathalie],
Conditional-UNet: A Condition-aware Deep Model for Coherent Human Activity Recognition From Wearables,
ICPR21(5889-5896)
IEEE DOI 2105
Legged locomotion, Deep learning, Support vector machines, Wearable computers, Time series analysis, Gesture recognition, Activity recognition BibRef

Matei, O.[Oliviu], Erdei, R.[Rudolf], Moga, A.[Alexandru], Heb, R.[Robert],
A Serverless Architecture for a Wearable Face Recognition Application,
RISS20(642-655).
Springer DOI 2103
BibRef

Penna, A., Mohammadi, S., Jojic, N., Murino, V.,
Summarization and Classification of Wearable Camera Streams by Learning the Distributions over Deep Features of Out-of-Sample Image Sequences,
ICCV17(4336-4344)
IEEE DOI 1802
Markov processes, feature extraction, feedforward neural nets, image classification, image sequences, Visualization BibRef

Mathews, S.M.[Sherin M.], Kambhamettu, C.[Chandra], Barner, K.E.[Kenneth E.],
Maximum Correntropy Based Dictionary Learning Framework for Physical Activity Recognition Using Wearable Sensors,
ISVC16(II: 123-132).
Springer DOI 1701
BibRef

Al Safadi, E., Mohammad, F., Iyer, D., Smiley, B.J., Jain, N.K.,
Generalized activity recognition using accelerometer in wearable devices for IoT applications,
AVSS16(73-79)
IEEE DOI 1611
Accelerometers BibRef

Lin, Y.W.[Yue-Wei], Abdelfatah, K.[Kareem], Zhou, Y.J.[You-Jie], Fan, X.C.[Xiao-Chuan], Yu, H.K.[Hong-Kai], Qian, H.[Hui], Wang, S.[Song],
Co-Interest Person Detection from Multiple Wearable Camera Videos,
ICCV15(4426-4434)
IEEE DOI 1602
BibRef

Zheng, K.[Kang], Lin, Y.W.[Yue-Wei], Zhou, Y.J.[You-Jie], Salvi, D.[Dhaval], Fan, X.C.[Xiao-Chuan], Guo, D.Z.[Da-Zhou], Meng, Z.[Zibo], Wang, S.[Song],
Video-Based Action Detection Using Multiple Wearable Cameras,
ChaLearn14(727-741).
Springer DOI 1504
BibRef

Zhou, J.[Jiang], Duane, A.[Aaron], Albatal, R.[Rami], Gurrin, C.[Cathal], Johansen, D.[Dag],
Wearable Cameras for Real-Time Activity Annotation,
MMMod15(II: 319-322).
Springer DOI 1501
Personal (Big) Data Modeling for Information Access & Retrieval BibRef

Wang, P.[Peng], Smeaton, A.F.[Alan F.], Gurrin, C.[Cathal],
Factorizing Time-Aware Multi-way Tensors for Enhancing Semantic Wearable Sensing,
MMMod15(I: 571-582).
Springer DOI 1501
BibRef

Moghimi, M.[Mohammad], Azagra, P.[Pablo], Montesano, L.[Luis], Murillo, A.C.[Ana C.], Belongie, S.J.[Serge J.],
Experiments on an RGB-D Wearable Vision System for Egocentric Activity Recognition,
Egocentric14(611-617)
IEEE DOI 1409
BibRef

Zhan, K.[Kai], Ramos, F., Faux, S.,
Activity recognition from a wearable camera,
ICARCV12(365-370).
IEEE DOI 1304
BibRef

Sundaram, S.[Sudeep], Mayol-Cuevas, W.W.[Walterio W.],
Egocentric Visual Event Classification with Location-Based Priors,
ISVC10(II: 596-605).
Springer DOI 1011
BibRef
Earlier:
High level activity recognition using low resolution wearable vision,
Egocentric09(25-32).
IEEE DOI 0906
BibRef

Hanheide, M.[Marc], Hofemann, N.[Nils], Sagerer, G.[Gerhard],
Action Recognition in a Wearable Assistance System,
ICPR06(II: 1254-1258).
IEEE DOI 0609
BibRef

Yang, A.Y.[Allen Y.], Iyengar, S.[Sameer], Kuryloski, P.[Philip], Jafari, R.[Roozbeh],
Distributed segmentation and classification of human actions using a wearable motion sensor network,
CVPR4HB08(1-8).
IEEE DOI 0806
BibRef

Chapter on Motion -- Human Motion, Surveillance, Tracking, Surveillance, Activities continues in
Human Action Recognition in Still Images, Single Images .