02351nam 2200361 450 991073435810332120230815235531.0(CKB)5470000002907727(NjHacI)995470000002907727(EXLCZ)99547000000290772720230815d2023 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierSensors for Human Activity Recognition /edited by Hui Liu, Hugo Gamboa, Tanja SchultzBasel :MDPI - Multidisciplinary Digital Publishing Institute,2023.1 online resource (216 pages)3-0365-7555-3 Human activity recognition (HAR) and human behavior recognition (HBR) play increasingly important roles in the digital age. High-quality sensory observations applicable to recognizing users' activities and behaviors, including electrical, magnetic, mechanical (kinetic), optical, acoustic, thermal, and chemical biosignals, are inseparable from sensors' sophisticated design and appropriate application. Traditional sensors suitable for HAR and HBR, including external sensors for smart homes, optical sensors such as cameras for capturing video signals, and bioelectrical, biomagnetic, and biomechanical sensors for wearable applications, have been studied and verified adequately. They continue to be researched in depth for more effective and efficient usage, and brand-new areas facilitated by sensor-based HAR/HBR are emerging, such as interactive edutainment, single-motion duration analysis, time series information retrieval, handcrafted and high-level feature design, and fall detection. Meanwhile, innovative sensor research for HAR or HBR is also very active in the academic community, including new sensors appropriate for HAR/HBR, new designs and applications of the above-mentioned traditional sensors, and the usage of non-traditional HAR-/HBR-related sensor types, among others.Sensor networksCongressesSensor networks681.2Schultz TanjaGamboa HugoLiu HuiNjHacINjHaclBOOK9910734358103321Sensors for Human Activity Recognition3400961UNINA