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5. BODYNETS 2010: Corfu Island, Greece
- Victor C. M. Leung, Athanasios V. Vasilakos, Thomas Falck, Karim Qayumi, Xinbing Wang:
5th International ICST Conference on Body Area Networks, BODYNETS 2010, Corfu Island, Greece, September 10-12, 2010. ACM / ICST 2010, ISBN 978-1-4503-0029-2
5th International ICST Conference on Body Area Networks (BODYNETS 2010)
Best paper candidates session
- Raluca Marin-Perianu, Mihai Marin-Perianu, David Rouffet, Simon Taylor
, Paul J. M. Havinga, Rezaul K. Begg
Body area wireless sensor networks for the analysis of cycling performance. 1-7 - Rongxing Lu, Xiaodong Lin, Xiaohui Liang, Xuemin (Sherman) Shen
Secure handshake with symptoms-matching: the essential to the success of mhealthcare social network. 8-15 - Dries Neirynck, Kathleen Philips, Harmke de Groot, Javier Espina:
Practical comparison of ranging in IEEE 802.15.4 and IEEE 802.15.4a medical body sensor networks. 16-22 - Sean F. Heaney, Emi Garcia-Palacios, William G. Scanlon
Context-aware body area networks (CABAN) for interactive smart environments: interference characterization. 23-28
Poster and short paper session
- Huasong Cao, Haoming Li, Leo J. Stocco, Victor C. M. Leung
Demonstration of a novel wireless three-pad ECG system for generating conventional 12-lead signals. 29-32 - Priti Aghera, Dilip Krishnaswamy, Tajana Rosing:
DynAGreen: hierarchical dynamic energy efficient task assignment for wireless healthcare systems. 33-36 - Krzysztof Piotrowski
Body area network for first responders: a case study. 37-40 - Bart Braem
Node mobility support in body sensor networks. 41-44
Communications and networking
- Mickael Maman, Laurent Ouvry:
Evaluating relaying scheme for BAN TDMA MAC using a space-time dependent channel model. 45-51 - Josep Rius:
A single conductive surface as communication media for networked devices. 52-58 - Michel Chedid, Ilja Belov, Peter Leisner:
Low power high bandwidth power-line communication network for wearable applications. 59-64 - Rong Yu, Yan Zhang, Ruchao Gao:
Mobile device aided cooperative transmission for body area networks. 65-70 - Ki-Dong Lee, Sang G. Kim, Byung K. Yi:
Low power u-healthcare services using MDC packet-level scheduling for in/on-body wireless multi-hop links in a medical body area network. 71-76 - Majid Nabi, Twan Basten
A robust protocol stack for multi-hop wireless body area networks with transmit power adaptation. 77-83 - Huasong Cao, Haoming Li, Leo J. Stocco, Victor C. M. Leung
Design and evaluation of a novel wireless three-pad ECG system for generating conventional 12-lead signals. 84-90 - Nikola B. Serbedzija, Gian Mario Bertolotti:
Adaptive and personalized body networking. 91-97 - Athanassios Boulis, Yuriy Tselishchev:
Contention vs. polling: a study in body area networks MAC design. 98-104 - Stephane Mebaley Ekome, Jean Schwoerer, Geneviève Baudoin
Performance analysis of a BPSK-BPPM UWB physical layer for wireless body area networks. 105-111
Systems and technology
- Raúl Chávez-Santiago, Ali Khaleghi
An ultra wideband propagation model for wireless cardiac monitoring devices. 112-116 - Lars Hoff, Kristin Imenes, Lars A. Fleischer, Per Steinar Halvorsen, Andreas Espinoza
Microsensors for continuous monitoring of heart function. 117-123 - Lars Erik Solberg, Ilangko Balasingham, Svein-Erik Hamran:
Candidate estimators for aorta diameter estimation using monostatic radar. 124-130 - Alexander D. Young:
From posture to motion: the challenge for real time wireless inertial motion capture. 131-137 - Shanshan Chen, Jeff S. Brantley, Taeyoung Kim
Characterizing and minimizing synchronization and calibration errors in inertial body sensor networks. 138-144 - Jae Ho Hwang, Jae Moung Kim:
WBAN system using GPPM algorithm for IEEE 802.15.TG6. 145-149 - Foad Dabiri, Hyduke Noshadi, Majid Sarrafzadeh:
Behavioral reconfigurable compression in body sensor networks. 150-156 - Orlando R. E. Pereira, João M. L. P. Caldeira
A mobile core-body temperature monitoring system on Android. 157-163 - Nicola Bicocchi
Unsupervised learning in body-area networks. 164-170 - Jonas Wåhslén, Thomas Lindh, Martin Eriksson:
A novel approach to multi-sensor data synchronization using mobile phones. 171-174
Medical applications
- Karl Øyri, Stig Støa
A biomedical wireless sensor network for hemodynamic monitoring. 175-180 - Katarzyna Wac
Body area networks for ambulatory psychophysiological monitoring: a survey of off-the-shelf sensor systems. 181-187 - Wei Chen, Sietse Dols, Sidarto Bambang-Oetomo, Loe M. G. Feijs:
Monitoring body temperature of newborn infants at neonatal intensive care units using wearable sensors. 188-194 - Gill R. Tsouri
Towards implementing a fully wireless multiple-lead electrocardiograph. 195-200 - Jamie Macbeth, Majid Sarrafzadeh:
Grouped variable model selection for heterogeneous medical signals. 201-207 - João F. R. Garcia, João M. L. P. Caldeira
Wireless body sensor design for intra-vaginal temperature monitoring. 208-213
Wearable computing
- Fahad Moiz, W. Daniel Leon-Salas, Yugyung Lee:
A wearable motion tracker. 214-219 - Alexandros Pantelopoulos, Nikolaos G. Bourbakis:
A wearable platform utilizing off-the-shelf components and performing quality analysis of physiological data. 220-226 - Mahsan Rofouei, Elisabetta Farella
Battery-aware power management techniques for wearable haptic nodes. 227-232 - Sheng Hu, Xi Chen, Jindong Tan
PAMS: a wearable physical activity monitoring system for continuous motion capture in free-living environments. 233-239 - Michael Haslgrübler
DarSens: a framework for distributed activity recognition from body-worn sensors. 240-246
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