0000000000702474

AUTHOR

Fabio Di Franco

showing 8 related works from this author

Channel estimation and transmit power control in wireless body area networks

2015

Wireless body area networks have recently received much attention because of their application to assisted living and remote patient monitoring. For these applications, energy minimisation is a critical issue since, in many cases, batteries cannot be easily replaced or recharged. Reducing energy expenditure by avoiding unnecessary high transmission power and minimising frame retransmissions is therefore crucial. In this study, a transmit power control scheme suitable for IEEE 802.15.6 networks operating in beacon mode with superframe boundaries is proposed. The transmission power is modulated, frame-by-frame, according to a run-time estimation of the channel conditions. Power measurements u…

Settore ING-INF/03 - Telecomunicazionibusiness.industryComputer scienceTKWireless Body area Newtork; WBAN; TPCTransmitter power outputIndustrial and Manufacturing EngineeringReturn channelTest caseBody area networkElectronic engineeringWirelessSuperframeTPCWBANWireless Body area NewtorkbusinessFade marginComputer networkPower controlIET Wireless Sensor Systems
researchProduct

An energy analysis of IEEE 802.15.6 scheduled access modes

2010

Body Area Networks (BANs) are an emerging area of wireless personal communications. The IEEE 802.15.6 working group aims to develop a communications standard optimised for low power devices operating on, in or around the human body. IEEE 802.15.6 specifically targets low power medical application areas. The IEEE 802.15.6 draft defines two main channel access modes; contention based and contention free. This paper examines the energy lifetime performance of contention free access and in particular of periodic scheduled allocations. This paper presents an overview of the IEEE 802.15.6 and an analytical model for estimating the device lifetime. The analysis determines the maximum device lifeti…

Settore ING-INF/03 - TelecomunicazioniComputer scienceInter-Access Point Protocolbusiness.industryPhysical layerbiomedical communication body area networks personal area networksIEEE 802.15.6 scheduled access modes body area network channel access modes communications standard device lifetime estimation energy analysis energy lifetime performance human body low power devices low power medical application areas periodic scheduled allocation wireless personal communicationTelecommunications linkBody area networkWirelessIEEE 802.11e-2005TransceiverbusinessIEEE 802.15IEEE 802.11r-2008Computer network2010 IEEE Globecom Workshops
researchProduct

On-body to on-body channel characterization

2011

Interest in on-body communication channels is growing as the use of wireless devices increases in medical, consumer and military sensor applications. This paper presents an experimental investigation and analysis of the narrowband on-body propagation channel. This analysis considers each of the factors affecting the channel during a range of stationary and motion activities in different environments with actual wireless mote devices on the body. Use of such motes allows greater freedom in the subject's movements and the inclusion of real-world indoor and outdoor environments in a test sequence. This paper identifies and analyses the effect of the different components of the signal propagati…

EngineeringSettore ING-INF/03 - Telecomunicazionibusiness.industrySignallaw.inventionRadio propagationNarrowbandRelaylawElectronic engineeringWirelessFadingbusinessShadow mappingChannel Characterisation channel propagation Embedded system design Body Area NetworksCommunication channel2011 IEEE SENSORS Proceedings
researchProduct

1 Hop or 2 hops: Topology analysis in Body Area Network

2014

Wireless Body Area Networks (WBANs) have recently received much attention due to the possibility to be used in healthcare applications. For these applications, link reliability and energy efficiency are critical issues, as in many cases, information carried can be vital for the patient and batteries cannot be easily replaced. The wireless on-body channel experiences significant temporal variation due to body movements and the use of relays is sometimes necessary in order to guarantee reliability or improve lifetime. In this paper, an experimental evaluation is used to give a better understanding about reliability, energy consumption and lifetime in a single hop or a two hops communication. …

business.industryWireless networkComputer scienceEnergy EfficiencySettore ING-INF/03 - TelecomunicazioniNetwork architectureWireless WANWireless Body Area Network; Relay Mechanism;Energy Efficiency; Network architectureEnergy consumptionRelay MechanismEnergy requirementHop (networking)Body area networkWirelessbusinessWireless Body Area NetworkEfficient energy useComputer network
researchProduct

The effect of body shape and gender on wireless Body Area Network on-body channels

2010

Technological advancements have made possible the emergence of Body Area Networks (BANs). There are numerous on-body channel characterizations in the literature performed on a phantom or a single human subject. In this paper, using multiple subjects, we consider the effect of body shape and gender on the on-body channel. A characterization of a narrowband on-body to on-body channel among different subjects is presented. The paper investigates the relationship between the propagation and the subject's physical characteristics. The investigation is performed at 2360 MHz; the new medical band undergoing FCC approval. Our results show that the path loss in women is less than that in men and the…

GeographyNarrowbandSettore ING-INF/03 - TelecomunicazioniStatisticsBody area networkElectronic engineeringPath lossFadingAntenna measurements Antennas and propagation Body area networks Channel models Fading Shape Wireless sensor networks Body Area Networks Body shape Channel characterization Channel propagation IEEE802.15.6. Wireless Sensor NetworksWireless sensor networkImaging phantomRice distributionCommunication channel
researchProduct

Analysis of the Effect of Human Presence on a Wireless Sensor Network

2011

Wireless Sensor Networks (WSNs) are gaining an increasing industry wide adoption. However, there remain major challenges such as network dimensioning and node placement especially in Built Environment Networks (BENs). Decisions on the node placement, orientation, and the number of nodes to cover the area of interest are usually ad-hoc. Ray tracing tools are traditionally employed to predict RF signal propagation; however, such tools are primarily intended for outdoor environments. RF signal propagation varies greatly indoors due to building materials and infrastructure, obstacles, node placement, antenna orientation and human presence. Because of the complexity of signal prediction, these f…

business.industryComputer scienceSettore ING-INF/03 - TelecomunicazioniRSSReal-time computingcomputer.file_formatRadio propagationKey distribution in wireless sensor networksBuilt Environment Networks (BENs) Human Presence Node Placement Radiation Patterns Wireless Sensor Networks (WSNs)Ray tracing (graphics)Radio frequencyTransceiverbusinessWireless sensor networkcomputerDimensioningSoftwareComputer network
researchProduct

On-body and off-body transmit power control in IEEE 802.15.6 scheduled access networks

2014

Wireless Body Area Networks (WBANs) have received much attention due to the possibility to be used in healthcare applications. For these applications, energy saving is a critical issue, as in many cases, batteries cannot be easily replaced. A transmit power control scheme, able to adapt to the variations of the wireless body channel, will allow consistent energy saving and longer battery life. In this paper we propose a transmit power control scheme suitable for IEEE 802.15.6 narrowband scheduled access networks, in which the transmission power is modulated frame by frame according to a run-time estimation of the channel propagation conditions. A simple and effective line search algorithm i…

IEEE 802.15.6Access networkAdaptive Transmit Power ControlSettore ING-INF/03 - TelecomunicazioniInter-Access Point Protocolbusiness.industryComputer scienceTransmitter power outputKey distribution in wireless sensor networksNarrowbandComputer Science::Networking and Internet ArchitectureElectronic engineeringWirelessWBANRadio resource managementWireless Body Area NetworkbusinessWireless sensor networkFade marginIEEE 802.15ATPCComputer Science::Information TheoryPower controlComputer networkCommunication channel2014 IEEE 25th Annual International Symposium on Personal, Indoor, and Mobile Radio Communication (PIMRC)
researchProduct

Current characterisation for ultra low power wireless body area networks

2010

The emerging area of body area networks (BAN) imposes challenging requirements on hardware and software to achieve the desired lifetimes for certain devices such as long term medical implants. In this paper, we propose a novel approach to the measurement and characterisation of the energy consumption of BAN devices. The approach uses a low cost energy auditing circuit and addresses the problem of accurately measuring low-level current consumption. This new technique will allow precise and analytical measurements of systems and components in terms of energy. This will help circuit designers minimise power consumption in BAN devices. Software engineers might use this approach to validate and …

business.industryComputer scienceBody area networks Body sensor networks Circuits Costs Current measurement Energy consumption Energy measurement Hardware Implants Power engineering and energy Body Area Networks Current characterization Embedded system design Energy efficiency Power Consumption Wireless Network softwareEnergy consumptionPower (physics)SoftwareEmbedded systemCode (cryptography)Electronic engineeringWirelessbusinessEnergy (signal processing)Electronic circuitEfficient energy use2010 8th Workshop on Intelligent Solutions in Embedded Systems
researchProduct