SeaMo&amp;#x002B;: A virtual real-time multimedia service framework on handhelds to enable remote real-time patient monitoring for mobile doctors

Prasad, G. B.; Seema, K.; Shrikant, U. H.; Garge, Gopi Krishna S; Anand, S.; Hegde, M. S.

doi:10.1109/comsnets.2013.6465600

Cited by 3 publications

(1 citation statement)

References 11 publications

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“…So far, a good number of intelligent RHM applications has been proposed (Babu et al, 2013;Lee et al, 2007;Prasad et al, 2013;Won-Jae Yi et al, 2014;Xiaohui et al, 2012). Some of them are characterized by a centralized architecture that requires permanent communication between local sensing-data sources and remote decision support components, so implying sophisticated and reliable mechanisms for handling data losses or delays in the information flow.…”

Section: Introductionmentioning

confidence: 99%

Design and validation of a light-weight reasoning system to support remote health monitoring applications

Minutolo

Esposito

Pietro

2015

Engineering Applications of Artificial Intelligence

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Section: Introductionmentioning

confidence: 99%

Design and validation of a light-weight reasoning system to support remote health monitoring applications

Minutolo

Esposito

Pietro

2015

Engineering Applications of Artificial Intelligence

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Resource Optimized TTSH-URA for Multimedia Stream Authentication in Swallowable-Capsule-Based Wireless Body Sensor Networks

Wang

Zhao³

2014

IEEE J. Biomed. Health Inform.

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To ease the burdens on the hospitalization capacity, an emerging swallowable-capsule technology has evolved to serve as a remote gastrointestinal (GI) disease examination technique with the aid of the wireless body sensor network (WBSN). Secure multimedia transmission in such a swallowable-capsule-based WBSN faces critical challenges including energy efficiency and content quality guarantee. In this paper, we propose a joint resource allocation and stream authentication scheme to maintain the best possible video quality while ensuring security and energy efficiency in GI-WBSNs. The contribution of this research is twofold. First, we establish a unique signature-hash (S-H) diversity approach in the authentication domain to optimize video authentication robustness and the authentication bit rate overhead over a wireless channel. Based on the full exploration of S-H authentication diversity, we propose a new two-tier signature-hash (TTSH) stream authentication scheme to improve the video quality by reducing authentication dependence overhead while protecting its integrity. Second, we propose to combine this authentication scheme with a unique S-H oriented unequal resource allocation (URA) scheme to improve the energy-distortion-authentication performance of wireless video delivery in GI-WBSN. Our analysis and simulation results demonstrate that the proposed TTSH with URA scheme achieves considerable gain in both authenticated video quality and energy efficiency.

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Result and Analysis of Implemented Real Time Wireless Health Monitoring System Using Sensors

Malke¹,

Suresh²

2014

IOSRJECE

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This purposed paper based on wireless health monitoring system which is real time. Wireless Health Monitoring System (WHMS) is system in which body parameter of patient are sensed by sensor which are connected to the patient's body. When The body parameter of patient senesced by sensors are in the normal range (Below threshold value)it will transferred to Nurse control station on real time using transreceiver models having different range according to model. Nurse control station data transferred to doctor's smart phone using internet on real time .There is bidirectional data transfer between doctor's smart phone and nurse control station. On the other side when the body parameter of patient senesced by sensors are above the normal range(above threshold value )then gives alert message to doctor's smart phone as well as ambulance using GSM module and also transmit data from local site to remote monitoring site. The main goal of system is to provide efficient wireless health monitoring in normal cases as well as in emergency cases.

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SeaMo+: A virtual real-time multimedia service framework on handhelds to enable remote real-time patient monitoring for mobile doctors

Cited by 3 publications

References 11 publications

Design and validation of a light-weight reasoning system to support remote health monitoring applications

Design and validation of a light-weight reasoning system to support remote health monitoring applications

Resource Optimized TTSH-URA for Multimedia Stream Authentication in Swallowable-Capsule-Based Wireless Body Sensor Networks

Result and Analysis of Implemented Real Time Wireless Health Monitoring System Using Sensors

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