A5014564230- Energy Harvesting in Wireless Networks
- Innovative Energy Harvesting Technologies
- UAV Applications and Optimization
- Advanced MIMO Systems Optimization
- IoT and Edge/Fog Computing
- Wireless Power Transfer Systems
- Molecular Communication and Nanonetworks
- Energy Efficient Wireless Sensor Networks
- Indoor and Outdoor Localization Technologies
- Advanced Sensor and Energy Harvesting Materials
- IoT Networks and Protocols
- Cognitive Radio Networks and Spectrum Sensing
- Cloud Computing and Resource Management
- Blockchain Technology Applications and Security
- EEG and Brain-Computer Interfaces
- Distributed Control Multi-Agent Systems
- Water Quality Monitoring Technologies
- IoT-based Smart Home Systems
- Power Line Communications and Noise
- Millimeter-Wave Propagation and Modeling
- Flow Measurement and Analysis
- Advanced biosensing and bioanalysis techniques
- Smart Grid Energy Management
- Neuroscience and Neural Engineering
- Electricity Theft Detection Techniques
Newcastle University
2024
University of Oxford
2022-2024
Koç University
2015-2023
Science Oxford
2022-2023
University of Southampton
2019-2022
Technology Innovation Institute
2022
Khalifa University of Science and Technology
2022
Jožef Stefan Institute
2022
Virginia Tech
2022
National Technical University of Athens
2022
Internet of Things (IoT) is a perfect candidate to realize efficient observation and management for Smart City concept. This requires deployment large number wireless devices. However, replenishing batteries thousands, maybe millions devices may be hard or even impossible. In order solve this problem, Energy Harvesting (IoEHT) proposed. Although the first studies on IoEHT focused energy harvesting (EH) as an auxiliary power provisioning method, now completely battery-free self-sufficient...
Over the past six decades, computing systems field has experienced significant transformations, profoundly impacting society with transformational developments, such as Internet and commodification of computing. Underpinned by technological advancements, computer systems, far from being static, have been continuously evolving adapting to cover multifaceted societal niches. This led new paradigms cloud, fog, edge computing, Things (IoT), which offer fresh economic creative opportunities....
Extensive use of amateur drones (ADrs) poses a threat to the public safety due their possible misuse. Hence, surveillance (SDrs) are utilized detect and eliminate potential threats. However, limited battery, lack efficient communication networking solutions degrade quality surveillance. To this end, we conceptualize Energy Neutral Internet Drones (enIoD) enable enhanced connectivity between by overcoming energy limitations for autonomous continuous operation. Power provisioning with...
The recent development of quantum computing, which makes use entanglement, superposition, and other fundamental concepts, has the ability to provide substantial processing advantages over traditional computing. These features help solve many hard problems that cannot be solved with computing methods. are in areas like modeling mechanics, logistics, making chemical-based advances, designing drugs, statistical science, sustainable energy, banking, reliable communication, chemical engineering....
The integration of serverless edge computing and the Industrial Internet Things (IIoT), like Industry 4.0 applications, is seen as a promising development that can make industrial processes more efficient faster. These two technologies be integrated to optimize production by enabling faster adaptation in critical industries with variable environmental conditions. However, challenges have negative impact on latency, such cold start due paradigm, are one challenging problems this process. Cold...
Electric-field energy harvesting (EFEH) can be considered as an emerging and promising alternative for self-sustainable next-generation WSNs. Unlike conventional methods that rely on ambient variables, EFEH provides more reliable durable operation it is operable with any voltage-applied conductive material. Therefore, better suited advanced throughput applications requiring a certain QoS. In this article, we introduce newly WSN paradigm, focus enabling technology smart grid architectures,...
Widespread and pervasive IoT adoption is threatened by finite-capacity batteries of wireless devices. To mitigate this issue, energy harvesting (EH) power transfer (WPT), in addition to energy-efficient communication techniques, have been widely explored. Although these efforts achieved longevity some extent, ever-evolving services seek fully autonomous things without constraints. meet demand relieve the ongoing networking challenges, we propose a new concept called Internet MIMO Things...
The Internet of Bio-Nano Things (IoBNT) is a transformative communication framework characterized by heterogeneous networks comprising both biological entities and artificial micro/nano-scale devices, so-called (BNTs), interfaced with conventional for enabling innovative biomedical environmental applications. Realizing the potential IoBNT requires development new unconventional technologies, such as molecular communications, well corresponding transceivers, bio-cyber interfacing technologies...
Internet of Things (IoT) is envisioned to bring the connection every object/ service/process seamlessly and efficiently observe, manage, control pervasive systems. This necessitates employment wireless standalone devices in excessive numbers. However, periodic maintenance thousands, maybe millions batteries will add massive workload replenishment costs operation. In order alleviate this problem, we introduce a totally new energy harvesting paradigm based on utilizing ambient electric-field...
In Radio Frequency (RF)-powered networks, peak antenna gains and path-loss models are often used to predict the power that can be received by a rectenna. However, this leads significant over-estimation of harvested when using rectennas in dynamic setting. This work proposes more realistic parameters for evaluating RF-powered Body Area Networks (BANs), utilizes them analyze compare performance an BAN based on 915 MHz 2.4 GHz rectennas. Two fully-textile antennas: monopole patch, designed...
For decades, the design of untethered devices has been focused on delivering a fixed quality service with minimum power consumption, to enable battery-powered reasonably long deployment lifetime. However, realize promised tens billions connected in Internet Things, computers must operate autonomously and harvest ambient energy avoid cost maintenance requirements imposed by mains- or operation. But harvested typically fluctuates, often unpredictably, large temporal spatial variability....
Considering the inability of existing energy resources to satisfy current needs, right and efficient use has become compulsory. To make sustainability permanent, management planning activities should be carried out by arranging working hours decreasing wasting. For all these, power metering, managing controlling systems or plugs been proposed in recent efforts. Starting from this point, a new DASH7-based Smart Plug (D7SP) is designed implemented achieve better structure compared ZigBee...
The Internet of Things (IoT) digitizes the physical world with wireless devices sensing their surroundings and delivering periodic notifications parameters they are monitoring. However, this operation is bound by finite-capacity batteries, in which replenishment practically infeasible due to envisioned size IoT networks. By also considering autonomous self-sufficient service vision paradigm, need for novel approaches overcoming energy constraints evident. Here, unmanned aerial vehicles...
Transient computing enables application execution to be performed despite power outages. Although it handles the non-deterministic nature of energy harvesting (EH), sensor systems envisioned by IoT seek more costand volume-effective solutions, which are better tailored requirements. Additionally, a major drawback transient computing, keeping track time, hinders its widespread adoption in IoT. To overcome these challenges, this paper proposes control flow for combining two state-of-the-art...
The Internet of Things (IoT) is a key enabler for remote monitoring and control any medium with wireless devices deployed in substantial numbers. However, these often lack the desired lifetimes due to their incompetent batteries. If envisaged scale IoT realized, replenishing millions batteries will become impractical. To address this issue, joint utilization two prominent technologies, energy harvesting (EH) power transfer (WPT), explored letter. By coupling data from empirical measurements...
Sensor nodes, one of the most crucial elements Internet Things (IoT), sense environment and send their observations to a remote Access Point (AP). One drawback sensor nodes in an IoT setting is limited battery supply. Hereby, energy harvesting (EH) stands as promising solution reduce or even completely eliminate lifetime constraints sensors with exploitation available resources. In this paper, we propose electric-field EH (EFEH) method enable battery-less execution sensor-based services for...
Recent advances in low-power computing enable energy harvesting-powered devices, even scarce conditions. This reduces the reliance on batteries Internet of Things reducing cost and enabling new application domains. However, scarcity requires devices to operate intermittently, with minimal stored where high-cost radio frequency (RF) communication dominates power consumption, so transceivers are disabled most time. For deployment challenging environments without high capability neighboring a...
The intermittent and varying nature of energy harvesting (EH) entails dedicated management with large storage, which is a limiting factor for low-power/cost systems small form factors. Transient computing allows system operations to be performed in the presence power outages by saving state into non-volatile memory (NVM), thereby reducing size this storage. These are often designed task-based strategy, requires storage sized most consuming task. That is, however, not ideal since their tasks...
Planning and management of energy are among the most important topics nowadays due to fact that existing power plants systems fail satisfy demand keep up with daily developing technologies. To maintain need systems, researchers aiming improve usage savings available resources systems. For example, metering system has been proposed decrease wasting. The purpose this can be explained as limiting consumption in some cases like standby or while switching programs devices which is installed on....
Cities are monitored by sparsely positioned high-cost reference stations that fail to capture local variations. Although these must be ubiquitous achieve high spatio-temporal resolutions, the required capital expenditure makes infeasible. Here, low-cost IoT devices come into prominence; however, non-disposable and often non-rechargeable batteries they have pose a huge risk for environment. The projected numbers of will also yield heavy network traffic, thereby crippling RF spectrum. To...
Ultrasonic technologies have established themselves as optimal solutions for water flow rate measurement thanks to the high reliability and efficiency they offer. However, existing applications often require ultrasonic sensors be embedded in pipes, i.e., intrusive, which significantly increases initial deployment maintenance costs. Considering volume of employment, one each house, meters designed a way that consumers can deploy maintain them without any skilled labourer. Hence, this paper...