[242] Anomaly Detection in Electromechanical Devices Using Neural Networks: Dataset, Pipeline, and Benchmark Results.
Marcus Rüb (Hahn-Schickard, Germany), Daniel Konegen (Hahn-Schickard, Germany) and Axel Sikora (Institute of Reliable Embedded Systems and Communication Electronics (ivESK) , Germany).
[404] HarmonicThreads – An Interface that Supports Accessibility in Musical Interaction.
Ellie Nguyen (Chapman University, United States), Miyuki Weldon (Chapman University, United States) and Franceli Cibrian (Chapman University, United States).
[406] Demo: Learning Ball Juggling in Mixed Reality with Haptic Feedback.
Volodymyr Bondarenko (Dresden Technical University, Germany), Hans Winger (Dresden Technical University, Germany), Robert Rosenkranz (Dresden Technical University, Germany), Ercan Altinsoy (Dresden Technical University, Germany), Giang Nguyen (Dresden Technical University, Germany) and Frank Fitzek (Dresden Technical University, Germany).
[407] U-FLOC: Underwater Fresnel Lens based Optical Communication System.
Qiwei Wang (Dalian University of Technology, China), Chi Lin (Dalian University of Technology, China), Qing Zhang (Dalian University of Technology, China), Yu Zhang (Dalian University of Technology, China), Xin Fan (Dalian University of Technology, China) and Zhongxuan Luo (Dalian University of Technology, China).
[408] UAV-mounted RF Sensing for Precision Agriculture using Ground Reflections.
Jannis Mast (Osnabrück University, Germany), Thomas Hänel (Osnabrück University, Germany) and Nils Aschenbruck (Osnabrück University, Germany).
[409] DanZens: A Toolkit for Sensing, Labeling and Visualizing Dance Movements.
Yanelly Mego (Fowler School of Engineering, Chapman University, United States), Concepción Valdez (Department of Computer Science, CICESE, Mexico), Hector M. Camarillo-Abad (Computer Science, Occidental College, United States) and Franceli L. Cibrian (Fowler School of Engineering, Chapman University, United States).
[416] ScooterLab: A Programmable and Participatory Sensing Research Testbed using Micromobility Vehicles.
Ubaidullah Khan (University of Texas at San Antonio, United States), Raveen Wijewickrama (University of Texas at San Antonio, United States), Buddhi Ashan M.K. (University of Texas at San Antonio, United States), A.H.M Nazmus Sakib (University of Texas at San Antonio, United States), Khoi Trinh (University of Oklahoma, United States), Christina Duthie (University of Texas at San Antonio, United States), Nima Najafian (University of Oklahoma, United States), Ahmer Patel (University of Texas at San Antonio, United States), R.N. Molina (University of Texas at San Antonio, United States), Anindya Maiti (University of Oklahoma, United States), Sushil K. Prasad (University of Texas at San Antonio, United States), Greg P. Griffin (Oregon Department of Transportation, United States) and Murtuza Jadliwala (University of Texas at San Antonio, United States).
[447] iCrop+: An Edge-boosted Crop Disease Detection System via TinyML and LoRa Communication.
Xu Tao (University of Kentucky, United States), Jackson Butcher (University of Kentucky, United States), Simone Silvestri (University of Kentucky, United States) and Sajal K Das (Missouri University of Science and Technology, United States).
[448] DeePet: A Deep Learning Based Pet Comforting and Feeding System Using Internet of Things Technologies.
Lien-Wu Chen (Feng Chia University, Taiwan) and Ming-Yuan Wu (Feng Chia University, Taiwan).
[449] Ambient Intelligence-Based Continuous Authentication: A Testbed Implementation.
Ashish Nanda (Deakin University, Australia), Robin Doss (Deakin University, Australia), Adnan Anwar (Deakin University, Australia), Haftu Reda (Deakin University, Australia), Zubair Baig (Deakin University, Australia), Frank Jiang (Deakin University, Australia), Praveen Gauravaram (Tata Consulting Services, Australia), Debi Prasad Pati (Tata Consulting Services, India), Salil Kanhere (University of New South Wales, Australia) and Mohan Baruwal Chhetri (Data61, Australia).
[450] Low-Cost Sensor-based Error Detection System for Coffee Preparation: A Demonstration.
Florian Wagner (University of Greifswald, Germany), Teodor Stoev (University of Greifswald, Germany) and Kristina Yordanova (University of Greifswald, Germany).
[452] BL(u)E CRAB: A User-Centric Framework for Identifying Suspicious Bluetooth Trackers.
Dylan Conklin (Portland State University, United States), Primal Pappachan (Portland State University, United States) and Roberto Yus (University of Maryland, Baltimore County, United States).
[454] LOADS: LiDAR-based Privacy-Preserving Queue Monitoring and Analysis.
Saisricharan Malkireddy (University of Maryland, Baltimore County, United States), Sumedh Kane (University of Maryland, Baltimore County, United States), Sourimitra Medepalli (University of Maryland, Baltimore County, United States), Satvik Racharla (University of Maryland, Baltimore County, United States), Bharg Barot (University of Maryland, Baltimore County, United States), Christian Badolato (University of Maryland, Baltimore County, United States) and Roberto Yus (University of Maryland, Baltimore County, United States).