00978cam a22002534a 4500991001873309707536021112s2003 fr a b 001 0 fre 270840698111584173b14084375-39ule_instDip.to Beni CulturaliitaQueyrel, Anne171310Athènes, la cité archaïque et classique :du VIIIe siècle à la fin du Ve siècle /Anne QueyrelParis :Picard,c2003305 p. :ill. ;24 cm.Antiquité/Synthèses,1158-4173 ;7Contiene bibliografia: pp. [287]-296Atene (Grecia)Storia.b1408437502-04-1402-11-12991001873309707536LE001 SG VI 18012001000177110le001pE51.00-l- 00000.i1548471325-02-13Athènes, la cité archaïque et classique240865UNISALENTOle00102-11-12ma -frefr 0005343nam 2201309z- 450 991055733820332120220111(CKB)5400000000042496(oapen)https://directory.doabooks.org/handle/20.500.12854/76585(oapen)doab76585(EXLCZ)99540000000004249620202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierWearable and Nearable Biosensors and Systems for HealthcareBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (226 p.)3-0365-0974-7 3-0365-0975-5 Biosensors and systems in the form of wearables and "nearables" (i.e., everyday sensorized objects with transmitting capabilities such as smartphones) are rapidly evolving for use in healthcare. Unlike conventional approaches, these technologies can enable seamless or on-demand physiological monitoring, anytime and anywhere. Such monitoring can help transform healthcare from the current reactive, one-size-fits-all, hospital-centered approach into a future proactive, personalized, decentralized structure. Wearable and nearable biosensors and systems have been made possible through integrated innovations in sensor design, electronics, data transmission, power management, and signal processing. Although much progress has been made in this field, many open challenges for the scientific community remain, especially for those applications requiring high accuracy. This book contains the 12 papers that constituted a recent Special Issue of Sensors sharing the same title. The aim of the initiative was to provide a collection of state-of-the-art investigations on wearables and nearables, in order to stimulate technological advances and the use of the technology to benefit healthcare. The topics covered by the book offer both depth and breadth pertaining to wearable and nearable technology. They include new biosensors and data transmission techniques, studies on accelerometers, signal processing, and cardiovascular monitoring, clinical applications, and validation of commercial devices.HumanitiesbicsscSocial interactionbicsscaccelerationaccelerometersacoustic emissionsadaptive recursive least squares filter (ARLSF)ageingballistocardiogramballistocardiographyBCIblood pressurebody sensor networkcapacitive sensorscardiac mechanicscardiac outputcompression therapyconsumer-wearable devicesCSPEEGelectro-oscillography (EOG)electrocardiogramElectrocardiogram (ECG)EmfitexpertiseFBCSP (filter bank common spatial pattern)feature engineeringflexible sensorsgenderglovegrip force controlgrip force profilesheart ratehome monitoringhuman activity recognitionin-earjoint soundsknee joint loadingLC sensormachine learningmedical pressure monitoringmotion artifactn/aonline learningoptical pulse rate monitoringparticle swarm optimization (PSO)photoplethysmogramphotoplethysmographypick-and-drop simulator taskpressure sensorpressure sensorspulse ratepulse transit timequaternionRiemannian geometryrobotic assistant systems for surgeryseismocardiogramseismocardiographySeismocardiography (SCG)sensor fusionsleep apneasleep recordingsmartphonestress evaluationstroke volumesupport vector machinesynchronizationtangent spacetelemedicinetelerehabilitationthin-film sensorstotal peripheral resistanceultra-short heart rate variabilityunsupervised learningvalidationvoice analysiswearable sensingwearable sensorwireless sensorswound monitoringHumanitiesSocial interactionDi Rienzo Marcoedt1303368Mukkamala RamakrishnaedtDi Rienzo MarcoothMukkamala RamakrishnaothBOOK9910557338203321Wearable and Nearable Biosensors and Systems for Healthcare3026954UNINA