Search results for "wireless"

showing 10 items of 879 documents

Low Latency Ambient Backscatter Communications with Deep Q-Learning for Beyond 5G Applications

2020

Low latency is a critical requirement of beyond 5G services. Previously, the aspect of latency has been extensively analyzed in conventional and modern wireless networks. With the rapidly growing research interest in wireless-powered ambient backscatter communications, it has become ever more important to meet the delay constraints, while maximizing the achievable data rate. Therefore, to address the issue of latency in backscatter networks, this paper provides a deep Q-learning based framework for delay constrained ambient backscatter networks. To do so, a Q-learning model for ambient backscatter scenario has been developed. In addition, an algorithm has been proposed that employ deep neur…

BackscatterWireless networkComputer science05 social sciencesReal-time computing0202 electrical engineering electronic engineering information engineering0507 social and economic geographyQ-learning020206 networking & telecommunicationsNetwork performance02 engineering and technology050703 geography5G2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring)
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Multimode WSN: Improving Robustness, Fault Tolerance and Performance of Randomly Deployed Wireless Sensor Network

2010

This paper proposes an advanced, robust and flexible solution that applies the (revised) concept of Always Best Connected (ABC) Network, typical of multimode modern mobile devices, to Wireless Sensor Network. Hostile environments and unpredictable conditions (e.g. interferences) can negatively affect communication range, potentially increasing the number of unconnected nodes in random deployments. Multimode Wireless Sensor Network (MM-WSN) is provided with an adaptive mechanism for environmental condition evaluation and with the ability of self-configuring itself for optimal networking independence of detected conditions. Proposed solution is based on advanced smart nodes provided with mult…

Base stationKey distribution in wireless sensor networksWireless ad hoc networkRobustness (computer science)business.industryComputer scienceDistributed computingMobile wireless sensor networkWirelessNetwork performancebusinessWireless sensor networkComputer network2010 2nd International Conference on Computational Intelligence, Communication Systems and Networks
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User-cell association in heterogenous small cell networks: A context-aware approach

2015

Deploying small cells to complement the traditional cellular networks is foreseen as a major feature of the next generation of wireless networks. In this paper, a novel approach for addressing the cell association problem in heterogenous small cell networks is proposed. The presented approach exploits different types of information extracted from the user devices and environment to improve the way in which users are assigned to their serving small cell base stations (SBSs). We formulate the problem within the framework of matching theory, where the players, namely the users and SBSs, have interdependent preferences over the members of the opposite set. We also utilize the fuzzy synthetic ev…

Base stationMatching (statistics)Wireless networkComputer sciencebusiness.industryQuality of serviceDistributed computingCellular networkContext (language use)Small cellbusinessFuzzy logicComputer network2015 IEEE/CIC International Conference on Communications in China (ICCC)
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Optimal Relays Deployment for 802.16j Networks

2012

In this paper, we consider optimal relay station deployment for the IEEE 802.16j networks. IEEE 802.16j is an emerging wireless broadband networking standard that integrates infrastructure base stations with multihop relay technology. The proposed relay deployment mechanism allows us to maximize network capacity for every user or to maximize total network capacity, and, therefore, to reach greater network capacity values while employing smaller number of relay stations. With the proposed approach, the necessary number of relays for a region can be found.

Base stationWireless broadbandSoftware deploymentbusiness.industryComputer scienceRelaylawComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKSData_CODINGANDINFORMATIONTHEORYbusinessWiMAXComputer networklaw.invention
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Design, implementation and experimental results of a wireless charger for E-bikes

2019

Based on the Inductive Power Transfer (IPT), the wireless energy transmission is increasingly representing an attractive solution for vehicle battery charging. Due to its high smartness, the wireless solution may be considered an interesting battery charging method for electric bicycles, as they represent light-weight and flexible means of transportation. According to the Vehicle-To-Grid (V2G) concept, the wireless power flow can occur in both the alternative directions: from the grid to the battery or in the opposite way. A Bi-Directional Inductive Power Transfer (BDIPT) system is therefore particularly convenient in the scenario of a multi-parking area. For the E-bike application, a bicyc…

Battery (electricity)Computer sciencebusiness.industry020209 energy020208 electrical & electronic engineeringElectrical engineeringelectric bicycle02 engineering and technologySettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciGridSettore ING-INF/01 - Elettronicalaw.inventionBi-directional power converterCapacitorBattery chargerElectric power transmissionlaw0202 electrical engineering electronic engineering information engineeringMaximum power transfer theoremWirelesswireless battery charginginductive power transferResistorbusiness
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Design and Implementation of an Ultra-Low Power Wake-up Radio for Wireless IoT Devices

2018

In this paper, we present the design and prototype implementation of an ultra-low power wake-up radio for wireless IoT devices. The prototyped wake-up radio consumes only 580nA from 3V power supply, covers distance range of up to 55 meters and achieves a sensitivity of -49.5dBm. This wakeup radio module can easily be integrated into wireless IoT devices and thereby reducing the overall power consumption of the battery powered and energy harvesting based devices. The prolonged life time of the devices can reduce the overall costs when deployed in large scale.

Battery (electricity)Computer sciencebusiness.industry05 social sciencesElectrical engineering050801 communication & media studies02 engineering and technologyWake021001 nanoscience & nanotechnologyPower (physics)0508 media and communicationsHardware_GENERALRange (aeronautics)Wireless0210 nano-technologybusinessInternet of ThingsSensitivity (electronics)Energy harvesting2018 IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS)
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Predicting the Batteries' State of Health in Wireless Sensor Networks Applications

2018

[EN] The lifetime of wireless sensor networks deployments depends strongly on the nodes battery state of health (SoH). It is important to detect promptly those motes whose batteries are affected and degraded by ageing, environmental conditions, failures, etc. There are several parameters that can provide significant information of the battery SoH, such as the number of charge/discharge cycles, the internal resistance, voltage, drained current, temperature, etc. The combination of these parameters can be used to generate analytical models capable of predicting the battery SoH. The generation of these models needs a previous process to collect dense data traces with sampled values of the batt…

Battery (electricity)EnergyState of healthComputer science020209 energyProcess (computing)Battery02 engineering and technologyInternal resistanceWireless sensor networksReliability engineeringState of health (SoH)TECNOLOGIA ELECTRONICAMicrocontrollerHardware_GENERALControl and Systems EngineeringModels0202 electrical engineering electronic engineering information engineeringComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMSElectrical and Electronic EngineeringMicrocontrollersWireless sensor networkVoltage
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Solar Inexhaustible Power Source for Wireless Sensor Node

2008

Currently the appearance of really low power wireless transceivers is motivating the use of renewable energies to power embedded wireless sensor nodes in many applications. Nevertheless, energy storage and its degradation still keep on being the main issues in the design of any battery powered device. We present an autonomous power source based on a new system architecture, which uses the energy scavenging to replenish two different rechargeable energy buffers instead of the conventional single one. Combining appropriately a degradable large backup battery (Lithium-Ion) and a shorter but non degradable storage element (Supercapacitor), the lifetime of the group can be widely extended to wha…

Battery (electricity)EngineeringBackup batterybusiness.industryEmbedded systemElectrical engineeringWirelessbusinessWireless sensor networkEnergy harvestingEnergy storageSolar powerRenewable energy2008 IEEE Instrumentation and Measurement Technology Conference
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Wireless battery chargers for portable applications: Design and test of a high-efficiency power receiver

2013

In this study, the authors present a 5 W wireless battery charger for handheld devices. Efficiency-related issues are addressed. A power receiver architecture which improves power conversion efficiency is proposed. Design hints are provided for further applications. Comparison with a conventional architecture is provided as well. Laboratory prototypes of both the proposed and the conventional architectures have been realised. Both prototypes are tested by using the same power transmitter to perform a valuable comparison. As shown by the experimental results, in the receiver side power conversion efficiency is increased up to 99% thanks to the proposed solution.

Battery (electricity)EngineeringBattery chargerHand held devicebusiness.industryPower transmittersTransmitterEnergy conversion efficiencyElectrical engineeringPortable applicationSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciSettore ING-INF/01 - ElettronicaPower (physics)Power conversion efficiencieBattery chargerHigh-efficiencyElectronic engineeringWirelessElectrical and Electronic EngineeringDesign and testbusinessMobile devicePower receiver
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Efficiency optimization in bi-directional inductive power transfer systems

2015

Inductive Power Transfer (IPT) allows to wirelessly supply electronic devices. Thus, it is a very smart technique of battery charging for electric vehicles. In a parking area scenario, IPT is a proper method aiming at the energy transfer from the vehicle battery to the electric grid too. Bi-Directional Inductive Power Transfer (BDIPT) Systems are an attractive solution for the automotive market. Due to the great relevance of the energy saving problem, the goal of an efficiency maximization is researched by the energy market. In this paper, an in-depth investigation of the power efficiency in BDIPT systems is carried out, aiming at the optimum efficiency.

Battery (electricity)EngineeringDelaybi-directional inductive power transferbusiness.industryElectrical engineeringWireless communicationBidirectional controlSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciGridVehicleBatterieCouplingWirelessMaximum power transfer theoremwireless battery chargingEnergy marketElectronicsmaximum efficiencybusinessElectrical efficiencyHarmonic analysiEnergy (signal processing)
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