Search results for "WSNs"

showing 10 items of 11 documents

Speed detection of battery-free nodes based on RF Wireless Power Transfer

2020

In the Internet of Things (IoT) era, Wireless Sensor Networks (WSNs) are rapidly increasing in terms of relevance and pervasiveness thanks to their notable real-time monitoring performance across several fields, including industrial, domestic, military, biomedical, commercial, environmental, and other sectors. A highly attractive implementation of WSNs is asset tracking with accurate data regarding the location and transportation conditions of goods, equipment, and the like. One highly promising application of WSNs along these lines is the remote speed monitoring of goods, ideally with battery-free sensor nodes that do not require any maintenance. This, however, represents a major challenge…

energy harvestingwsnsAsset trackingComputer scienceNode (networking)System of measurementReal-time computingwireless power transferSettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettriciradio frequencySettore ING-INF/01 - Elettronicainternet of thingsPower (physics)WSNs Radio Frequency Energy Harvesting Wireless Battery Charger Lithium Ion Battery Wireless Sensor Networks Internet of ThingsbatteryWireless power transferRadio frequencylithium ionwireless sensor networksEnergy harvestingWireless sensor networkwireless battery charger
researchProduct

Advanced Monitoring Systems Based on Battery-Less Asset Tracking Modules Energized through RF Wireless Power Transfer

2020

Asset tracking involving accurate location and transportation data is highly suited to wireless sensor networks (WSNs) featuring battery-less nodes that can be deployed in virtually any environment and require little or no maintenance. In response to the growing demand for advanced battery-less sensor tag solutions, this article presents a system for identifying and monitoring the speeds of assets in a WSN with battery-less tags that receive all their operating energy through radio frequency (RF) wireless power transfer (WPT) architecture, and a unique measurement approach to generate time-domain speed readouts. The assessment includes performance characteristics and key features of a syste…

Internet of thingsMaximum power principleComputer scienceAsset tracking02 engineering and technologylcsh:Chemical technologywsnSettore ING-INF/01 - Elettronica01 natural sciencesBiochemistryArticleAnalytical Chemistrywireless sensor networkRadio frequency0202 electrical engineering electronic engineering information engineeringElectronic engineeringlcsh:TP1-1185System on a chipWireless power transferWireless power transferElectrical and Electronic EngineeringInstrumentationwsnsEnergy harvesting010401 analytical chemistryEnergy conversion efficiencyWireless battery charger020206 networking & telecommunicationsWireless sensor networksAtomic and Molecular Physics and Optics0104 chemical sciencesSettore ING-IND/31 - ElettrotecnicawptNode (circuits)Radio frequencyWireless sensor networkEnergy harvestingSensors
researchProduct

Strategies and Techniques for Powering Wireless Sensor Nodes through Energy Harvesting and Wireless Power Transfer

2019

The continuous development of internet of things (IoT) infrastructure and applications is paving the way for advanced and innovative ideas and solutions, some of which are pushing the limits of state-of-the-art technology. The increasing demand for Wireless Sensor Nodes (WSNs) able to collect and transmit data through wireless communication channels, while often positioned in locations that are difficult to access, is driving research into innovative solutions involving energy harvesting (EH) and wireless power transfer (WPT) to eventually allow battery-free sensor nodes. Due to the pervasiveness of radio frequency (RF) energy, RF EH and WPT are key technologies with the potential to power …

Power managementenergy harvestingComputer science02 engineering and technologylithium-ion batterylcsh:Chemical technology01 natural sciencesBiochemistrySettore ING-INF/01 - ElettronicaEnergy harvesting; Internet of things; Lithium ion battery; Radio frequency; Wireless battery charger; Wireless sensor networks; WSNsLithium-ion batteryArticleAnalytical Chemistrywireless sensor network0202 electrical engineering electronic engineering information engineeringWirelessSystem on a chiplcsh:TP1-1185Wireless power transferElectrical and Electronic Engineeringwireless sensor networksInstrumentationwireless battery chargerbusiness.industry010401 analytical chemistryEnergy conversion efficiencyElectrical engineering020206 networking & telecommunicationsradio frequencyWSNinternet of thingsAtomic and Molecular Physics and Optics0104 chemical sciencesWSNsRadio frequencyEnergy sourcebusinesslithium ion batteryWireless sensor networkEnergy harvesting
researchProduct

MAC Protocols for Wake-up Radio: Principles, Modeling and Performance Analysis

2018

[EN] In wake-up radio (WuR) enabled wireless sensor networks (WSNs), a node triggers a data communication at any time instant by sending a wake-up call (WuC) in an on-demand manner. Such wake-up operations eliminate idle listening and overhearing burden for energy consumption in duty-cycled WSNs. Although WuR exhibits its superiority for light traffic, it is inefficient to handle high traffic load in a network. This paper makes an effort towards improving the performance of WuR under diverse load conditions with a twofold contribution. We first propose three protocols that support variable traffic loads by enabling respectively clear channel assessment (CCA), backoff plus CCA, and adaptive …

Computer scienceWireless sensor networks (WSNs)02 engineering and technology01 natural sciencesWake-up radio (WuR)Medium access control (MAC) protocol0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringLatency (engineering)QueueEnergy-efficient communicationbusiness.industryNode (networking)010401 analytical chemistryComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS020206 networking & telecommunicationsEnergy consumptionINGENIERIA TELEMATICA0104 chemical sciencesComputer Science ApplicationsInternet of Things (IoT)Variable (computer science)Modeling and performance evaluationControl and Systems EngineeringbusinessWireless sensor networkInformation SystemsComputer networkEfficient energy useData transmission
researchProduct

An RF Wireless Power Transfer system to power battery-free devices for asset tracking

2019

Internet of Things (IoT) and Wireless Sensor Networks (WSN) infrastructures are becoming more and more available and diffused. One major outcome is the development of new services that help to make everyday life easier and better. One of those to which this paper reserves special attention is asset tracking which refers to the method of tracking physical assets. This service is very well based on IoT infrastructure and, due to the enormous number of objects to be traced, desperately needs the availability of inexpensive tags with sensing capabilities, that can be conveniently monitored from a long distance and require no maintenance. For this, engineers are called to face very challenging i…

Service (systems architecture)Computer scienceAsset trackingReal-time computingBattery02 engineering and technologyAsset (computer security)01 natural sciencesWireless Battery ChargerEnergy Harvesting0202 electrical engineering electronic engineering information engineeringSystem on a chipWireless power transferwireless sensor networksRadio Frequency010401 analytical chemistry020206 networking & telecommunicationsinternet of things0104 chemical sciencesWSNsIdentification (information)Lithium IonInternet of ThingEnergy harvestingWireless sensor networkWireless Sensor Network
researchProduct

Performance Analysis of Synchronous Duty-Cycled MAC Protocols

2015

In this letter, we propose an analytical model to evaluate the performance of the S-MAC protocol. The proposed model improves the accuracy of previous models in two aspects. First, it incorporates the dependence among the nodes within a cluster by defining a DTMC that models the number of active nodes, whereas the previous models considered that nodes were mutually independent. Second, it proposes new methods for calculating packet delay and energy consumption. The analytical model is validated through discrete-event based simulations. Numerical results demonstrate that the proposed analytical model and methods yield accurate results under realistic assumptions

Protocol (science)Markov modelingMarkov chainComputer scienceNetwork packetLoad modelingReal-time computingEnergy consumptionINGENIERIA TELEMATICAMarkov modelWSNsDelay and energy consumptionControl and Systems EngineeringPacket lossDuty-cycled MAC protocolsCluster (physics)Electrical and Electronic EngineeringAlgorithm
researchProduct

UAV-Assisted Data Collection in Wireless Sensor Networks: A Comprehensive Survey

2021

Wireless sensor networks (WSNs) are usually deployed to different areas of interest to sense phenomena, process sensed data, and take actions accordingly. The networks are integrated with many advanced technologies to be able to fulfill their tasks that is becoming more and more complicated. These networks tend to connect to multimedia networks and to process huge data over long distances. Due to the limited resources of static sensor nodes, WSNs need to cooperate with mobile robots such as unmanned ground vehicles (UGVs), or unmanned aerial vehicles (UAVs) in their developments. The mobile devices show their maneuverability, computational and energy-storage abilities to support WSNs in mul…

data collection scenariosTK7800-8360Computer Networks and CommunicationsProcess (engineering)Computer scienceDistributed computingComputerApplications_COMPUTERSINOTHERSYSTEMSwireless sensor networks (WSNs)mobile robotsenergy consumptionComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMSunmanned aerial vehicles (UAVs)Electrical and Electronic EngineeringData collectionControl algorithmcommunication structuresCommunication structures Control algorithms Data collection scenarios Energy consumption Mobile robots Unmanned aerial vehicles (UAVs) Wireless sensor networks (WSNs)Mobile robotEnergy consumptionSettore ING-IND/31 - ElettrotecnicaHardware and ArchitectureControl and Systems EngineeringSignal Processingcontrol algorithmsElectronicsMobile deviceWireless sensor networkLimited resourcesElectronics
researchProduct

A Battery-free Asset Monitoring System based on RF Wireless Power Transfer

2020

In the Internet of Things (IoT) era, asset monitoring represents an appealing implementation of Wireless Sensor Networks due to the enormous benefits associated with being able to monitor and record the exact position and transportation conditions of assets, personal objects, and the like. This kind of infrastructure enables the provision of increasingly advanced services, including the ability to measure the movement speed of a monitored asset using relatively inexpensive nodes with sensing capabilities and wireless transmission and reception. These nodes would ideally employ battery-free sensors that do not require any maintenance, but conventional power supply management systems cannot s…

TraverseComputer scienceNode (networking)010401 analytical chemistryReal-time computing020206 networking & telecommunications02 engineering and technologySettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciAsset (computer security)01 natural sciences0104 chemical sciencesIdentification (information)0202 electrical engineering electronic engineering information engineeringSystem on a chipWireless power transferWireless Power Transfer WPT Wireless Sensor Networks WSNs Radio Frequency Energy Harvesting Wireless Battery Charger Lithium Ion Internet of ThingsWireless sensor networkEnergy harvesting
researchProduct

Packet Aggregation in TelosB WSNs: Design, Implementation and Experiments

2016

Master's thesis in Information- and communication technology IKT590 - University of Agder 2016 WSN is an extensive field of research and a core technology which is adopted for monitoring and data assembling, used in various applications. Traditionally in a WSN, communication is performed in the fashion of single packet per transmission which produces high energy consumption and longer delay. Therefore, we introduce a novel approach by designing a system which applies packet aggregation in TelosB sensor motes using Contiki platform. In this approach, we assemble multiple packets together and send them in an aggregated frame towards the sink which can reduce the number of transmissions, energ…

Energy consumptionWSNsDelayVDP::Teknologi: 500::Informasjons- og kommunikasjonsteknologi: 550::Datateknologi: 551IKT590ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKSSpatial and temporalPacket aggregationTelosBDesign and implementationContiki
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