Dissertations / Theses on the topic 'Load sharing, Energy balancing'
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Adams, Daniel Alan. "Optimal Load Balancing in a Beowulf Cluster." Link to electronic thesis, 2005. http://www.wpi.edu/Pubs/ETD/Available/etd-050205-135758/.
Full textAntoniadis, Antonios. "Scheduling algorithms for saving energy and balancing load." Doctoral thesis, Humboldt-Universität zu Berlin, Mathematisch-Naturwissenschaftliche Fakultät II, 2012. http://dx.doi.org/10.18452/16566.
Full textThis thesis studies problems of scheduling tasks in computing environments. We consider both the modern objective function of minimizing energy consumption, and the classical objective of balancing load across machines. We first investigate offline deadline-based scheduling in the setting of a single variable-speed processor that is equipped with a sleep state. The objective is that of minimizing the total energy consumption. Apart from settling the complexity of the problem by showing its NP-hardness, we provide a lower bound of 2 for general convex power functions, and a particular natural class of schedules. We also present an algorithmic framework for designing good approximation algorithms. Furthermore, we give tight bounds for the aforementioned particular class of schedules. We then focus on the multiprocessor setting where each processor has the ability to vary its speed. We first study the offline problem and show that optimal schedules can be computed efficiently in polynomial time. Regarding the online problem and a natural class of power functions, we extend the two well-known single-processor algorithms Optimal Available and Average Rate. We prove that Optimal Available has the same competitive ratio as in the single-processor case. For Average Rate we show a competitive factor that increases by an additive constant of one compared to the single-processor result. With respect to load balancing, we consider offline load balancing on identical machines, with the objective of minimizing the current load, for temporary unit-weight jobs. The problem can be seen as coloring n intervals with k colors, such that for each point on the line, the maximal difference between the number of intervals of any two colors is minimal. We prove that a coloring with maximal difference at most one is always possible, and develop a fast polynomial-time algorithm for generating such a coloring. Lastly, we prove that two generalizations of the problem are NP-hard.
Padoin, Edson Luiz. "Energy-aware load balancing approaches to improve energy efficiency on HPC systems." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2016. http://hdl.handle.net/10183/140401.
Full textCurrent HPC systems have made more complex simulations feasible, yielding benefits to several research areas. To meet the increasing processing demands of these simulations, new equipment is being designed, aiming at the exaflops scale. A major challenge for building these systems is the power that they will require, which current perspectives reach the GigaWatts. To address this problem, this thesis presents an approach to increase the energy efficiency using of HPC resources, aiming to reduce the effects of load imbalance to save energy. We developed an energy-aware strategy, called ENERGYLB, which considers platform characteristics, and the load irregularity and dynamicity of the applications to improve the energy efficiency. Our strategy takes into account the current computational load and clock frequency, to decide whether to call a load balancing strategy that reduces load imbalance by migrating tasks, or use Dynamic Voltage and Frequency Scaling (DVFS) technique to adjust the clock frequencies of the cores according to their weighted loads. As different processor architectures can feature two levels of DVFS granularity, per-chip DVFS or per-core DVFS, we created two different algorithms for our strategy. The first one, FG-ENERGYLB, allows a fine control of the clock frequency of cores in systems that have few tens of cores and feature per-core DVFS control. On the other hand, CGENERGYLB is suitable for HPC platforms composed of several multicore processors that do not allow such a fine-grained control, i.e., that only perform per-chip DVFS. Both approaches exploit residual imbalances on iterative applications and combine dynamic load balancing with DVFS techniques. Thus, they reduce the clock frequency of underloaded computing cores, which experience some residual imbalance even after tasks are remapped. We evaluate the applicability of our approaches using the CHARM++ parallel programming system over benchmarks and real world applications. Experimental results present improvements in energy consumption and power demand over state-of-the-art algorithms. The energy savings with ENERGYLB used alone were up to 25%with our FG-ENERGYLB algorithm, and up to 27%with our CG-ENERGYLB algorithm. Nevertheless, residual imbalances were still present after tasks were remapped. In this case, when our approaches were employed together with these load balancers, an improvement in energy savings of up to 56% is achieved with FG-ENERGYLB and up to 36% with CG-ENERGYLB. These savings were obtained by exploiting residual imbalances on iterative applications. By combining dynamic load balancing with the DVFS technique, our approach is able to reduce the average power demand of parallel systems, reduce the task migration among the available resources, and keep load balancing overheads low.
Thiam, Cheikhou. "Anti load-balancing for energy-aware distributed scheduling of virtual machines." Toulouse 3, 2014. http://thesesups.ups-tlse.fr/2441/.
Full textThe multiplication of Cloud computing has resulted in the establishment of largescale data centers around the world containing thousands of compute nodes. However, Cloud consume huge amounts of energy. Energy consumption of data centers worldwide is estimated at more than 1. 5% of the global electricity use and is expected to grow further. A problem usually studied in distributed systems is to evenly distribute the load. But when the goal is to reduce energy consumption, this type of algorithms can lead to have machines largely under-loaded and therefore consuming energy unnecessarily. This thesis presents novel techniques, algorithms, and software for distributed dynamic consolidation of Virtual Machines (VMs) in Cloud. The main objective of this thesis is to provide energy-aware scheduling strategies in cloud computing for energy saving. To achieve this goal, we use centralized and decentralized approaches. Contributions in this method are presented these two axes. The objective of our approach is to reduce data center's total energy consumed by controlling cloud applications' overall energy consumption while ensuring cloud applications' service level agreement. Energy consumption is reduced by dynamically deactivating and reactivating physical nodes to meet the current resource demand. The key contributions are: - First, we present an energy aware clouds scheduling using anti-load balancing algorithm : concentrate the load on a minimum number of severs. The goal is to turn off the machines released and therefore minimize the energy consumption of the system. - The second axis proposed an algorithm which works by associating a credit value with each node. The credit of a node depends on its affinity to its jobs, its current workload and its communication behavior. Energy savings are achieved by continuous consolidation of VMs according to current utilization of resources, virtual network topologies established between VMs, and thermal state of computing nodes. The experiment results, obtained with a simulator which extends CloudSim (EnerSim), show that the cloud application energy consumption and energy efficiency are being improved. - The third axis is dedicated to the consideration of a decentralized dynamic scheduling approach entitled Cooperative scheduling Anti-load balancing Algorithm for cloud. It is a decentralized approach that allows cooperation between different sites. To validate this algorithm, we have extended the simulator MaGateSim. With an extensive experimental evaluation with a real workload dataset, we got the conclusion that both the approach using centralized and decentralized algorithms can reduce energy consumed by data centers
Gou, Changjiang. "Task Mapping and Load-balancing for Performance, Memory, Reliability and Energy." Thesis, Lyon, 2020. http://www.theses.fr/2020LYSEN047.
Full textThis thesis focuses on multi-objective optimization problems arising when running scientific applications on high performance computing platforms and streaming applications on embedded systems. These optimization problems are all proven to be NP-complete, hence our efforts are mainly on designing efficient heuristics for general cases, and proposing optimal solutions for special cases.Some scientific applications are commonly modeled as rooted trees. Due to the size of temporary data, processing such a tree may exceed the local memory capacity. A practical solution on a multiprocessor system is to partition the tree into many subtrees, and run each on a processor, which is equipped with a local memory. We studied how to partition the tree into several subtrees such that each subtree fits in local memory and the makespan is minimized, when communication costs between processors are accounted for.Then, a practical work of tree scheduling arising in parallel sparse matrix solver is examined. The objective is to minimize the factorization time by exhibiting good data locality and load balancing. The proportional mapping technique is a widely used approach to solve this resource-allocation problem. It achieves good data locality by assigning the same processors to large parts of the task tree. However, it may limit load balancing in some cases. Based on proportional mapping, a dynamic scheduling algorithm is proposed. It relaxes the data locality criterion to improve load balancing. The performance of our approach has been validated by extensive experiments with the parallel sparse matrix direct solver PaStiX.Streaming applications often appear in video and audio domains. They are characterized by a series of operations on streaming data, and a high throughput. Multi-Processor System on Chip (MPSoC) is a multi/many-core embedded system that integrates many specific cores through a high speed interconnect on a single die. Such systems are widely used for multimedia applications. Lots of MPSoCs are batteries-operated. Such a tight energy budget intrinsically calls for an efficient schedule to meet the intensive computation demands. Dynamic Voltage and Frequency Scaling (DVFS) can save energy by decreasing the frequency and voltage at the price of increasing failure rates. Another technique to reduce the energy cost and meet the reliability target consists in running multiple copies of tasks. We first model applications as linear chains and study how to minimize the energy consumption under throughput and reliability constraints, using DVFS and duplication technique on MPSoC platforms.Then, in a following study, with the same optimization goal, we model streaming applications as series-parallel graphs, which are more complex than simple chains and more realistic. The target platform has a hierarchical communication system with two levels, which is common in embedded systems and high performance computing platforms. The reliability is guaranteed through either running tasks at the maximum speed or triplication of tasks. Several efficient heuristics are proposed to tackle this NP-complete optimization problem
Ibrahim, Rwan. "An energy-efficient and load-balancing cluster-based routing protocol for wireless sensor networks." Thesis, McGill University, 2013. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=119428.
Full textLe clustering est une technique de routage populaire utilisée dans la configuration d'un réseau de capteurs sans fil. Cette technique peutétablir les paramètres de communication entre tous les nœuds du réseau pour une collecte de données plus efficace. Elle traite l'obstacle principal à la performance des réseaux de capteurs sans fil, l'efficacité énergétique, et peut être utilisée dans la reconfiguration du réseau selon le changement de conditions des nœuds. La contribution de cette thèse au domaine de routage dans les réseaux de capteurs sans fil consiste dans la présentation d'un nouvel algorithme de routage à base de clustering écoénergétique et d'équilibrage de charge (en anglais, Energy-efficient and Load-balancing Cluster-based routing algorithm ou ELC) pour les réseaux de capteurs sans fil à base de accès multiple avec écoute de porteuse. Particulièrement, les critères de distance et énergie résiduelle sont pris en considération dans la formulation de la procédure de sélection des Cluster Heads (CHs) tout en garantissant que le réseau est formé en tout temps par un nombre désirable de CHs. Outre que la distance, la taille du cluster est de même utilisée dans la formulation de la fonction du coût de la formation des clusters. Ceci vise à équilibrer la répartition de charges et l'énergie des nœuds du réseau, et par conséquence, à aboutir à une plus longue durée de vie du réseau. En outre, ELC emploie une technique de routage inter-cluster avec sauts multiples qui se base sur une approche au moindre coût qui prend en considération l'efficacité énergétique et l'équilibrage de charge dans le réseau. Les simulations démontrent que ELC consomme moins d'énergie et aboutit à une plus longue durée de vie du réseau par rapport à d'autres algorithmes de routage à base de clustering comme LEACH-C et CBCDACP.
Antoniadis, Antonios [Verfasser], Susanne [Akademischer Betreuer] Albers, Christoph [Akademischer Betreuer] Dürr, and Andrzej [Akademischer Betreuer] Lingas. "Scheduling algorithms for saving energy and balancing load / Antonios Antoniadis. Gutachter: Susanne Albers ; Christoph Dürr ; Andrzej Lingas." Berlin : Humboldt Universität zu Berlin, Mathematisch-Naturwissenschaftliche Fakultät II, 2012. http://d-nb.info/1025291131/34.
Full textBroberg, James Andrew, and james@broberg com au. "Effective task assignment strategies for distributed systems under highly variable workloads." RMIT University. Computer Science and Information Technology, 2007. http://adt.lib.rmit.edu.au/adt/public/adt-VIT20080130.150130.
Full textChan, Kristen Y. "MULTIPLE INPUT SINGLE OUTPUT CONVERTER WITH UNEVEN LOAD SHARING CONTROL FOR IMPROVED SYSTEM EFFICIENCY." DigitalCommons@CalPoly, 2020. https://digitalcommons.calpoly.edu/theses/2139.
Full textPatrick, Stasha Noelle. "Control of aggregate electric water heaters for load shifting and balancing intermittent renewable energy generation in a smart grid environment." Thesis, Montana State University, 2011. http://etd.lib.montana.edu/etd/2011/patrick/PatrickS1211.pdf.
Full textMohd, Daut Mohamad Hazwan. "Pico-grid : multiple multitype energy harvesting system." Thesis, University of Cambridge, 2019. https://www.repository.cam.ac.uk/handle/1810/289426.
Full textGlad, Andreas, and Mattias Forsman. "Automated Live Migration of Virtual Machines." Thesis, Blekinge Tekniska Högskola, Sektionen för datavetenskap och kommunikation, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-5443.
Full textCarpa, Radu. "Energy Efficient Traffic Engineering in Software Defined Networks." Thesis, Lyon, 2017. http://www.theses.fr/2017LYSEN065/document.
Full textThis work seeks to improve the energy efficiency of backbone networks by automatically managing the paths of network flows to reduce the over-provisioning. Compared to numerous works in this field, we stand out by focusing on low computational complexity and smooth deployment of the proposed solution in the context of Software Defined Networks (SDN). To ensure that we meet these requirements, we validate the proposed solutions on a network testbed built for this purpose. Moreover, we believe that it is indispensable for the research community in computer science to improve the reproducibility of experiments. Thus, one can reproduce most of the results presented in this thesis by following a couple of simple steps. In the first part of this thesis, we present a framework for putting links and line cards into sleep mode during off-peak periods and rapidly bringing them back on when more network capacity is needed. The solution, which we term ``SegmenT Routing based Energy Efficient Traffic Engineering'' (STREETE), was implemented using state-of-art dynamic graph algorithms. STREETE achieves execution times of tens of milliseconds on a 50-node network. The approach was also validated on a testbed using the ONOS SDN controller along with OpenFlow switches. We compared our algorithm against optimal solutions obtained via a Mixed Integer Linear Programming (MILP) model to demonstrate that it can effectively prevent network congestion, avoid turning-on unneeded links, and provide excellent energy-efficiency. The second part of this thesis studies solutions for maximizing the utilization of existing components to extend the STREETE framework to workloads that are not very well handled by its original form. This includes the high network loads that cannot be routed through the network without a fine-grained management of the flows. In this part, we diverge from the shortest path routing, which is traditionally used in computer networks, and perform a particular load balancing of the network flows. In the last part of this thesis, we combine STREETE with the proposed load balancing technique and evaluate the performance of this combination both regarding turned-off links and in its ability to keep the network out of congestion. After that, we use our network testbed to evaluate the impact of our solutions on the TCP flows and provide an intuition about the additional constraints that must be considered to avoid instabilities due to traffic oscillations between multiple paths
Phadke, Swanand Shripad. "Distributed Control for Smart Lighting." The Ohio State University, 2010. http://rave.ohiolink.edu/etdc/view?acc_num=osu1274899902.
Full textNazaritalooki, Vahid. "Reliable and energy efficient routing for ad hoc networks." Doctoral thesis, Universidade de Aveiro, 2014. http://hdl.handle.net/10773/14008.
Full textIn Mobile Ad hoc NETworks (MANETs), where cooperative behaviour is mandatory, there is a high probability for some nodes to become overloaded with packet forwarding operations in order to support neighbor data exchange. This altruistic behaviour leads to an unbalanced load in the network in terms of traffic and energy consumption. In such scenarios, mobile nodes can benefit from the use of energy efficient and traffic fitting routing protocol that better suits the limited battery capacity and throughput limitation of the network. This PhD work focuses on proposing energy efficient and load balanced routing protocols for ad hoc networks. Where most of the existing routing protocols simply consider the path length metric when choosing the best route between a source and a destination node, in our proposed mechanism, nodes are able to find several routes for each pair of source and destination nodes and select the best route according to energy and traffic parameters, effectively extending the lifespan of the network. Our results show that by applying this novel mechanism, current flat ad hoc routing protocols can achieve higher energy efficiency and load balancing. Also, due to the broadcast nature of the wireless channels in ad hoc networks, other technique such as Network Coding (NC) looks promising for energy efficiency. NC can reduce the number of transmissions, number of re-transmissions, and increase the data transfer rate that directly translates to energy efficiency. However, due to the need to access foreign nodes for coding and forwarding packets, NC needs a mitigation technique against unauthorized accesses and packet corruption. Therefore, we proposed different mechanisms for handling these security attacks by, in particular by serially concatenating codes to support reliability in ad hoc network. As a solution to this problem, we explored a new security framework that proposes an additional degree of protection against eavesdropping attackers based on using concatenated encoding. Therefore, malicious intermediate nodes will find it computationally intractable to decode the transitive packets. We also adopted another code that uses Luby Transform (LT) as a pre-coding code for NC. Primarily being designed for security applications, this code enables the sink nodes to recover corrupted packets even in the presence of byzantine attacks.
Nas redes móveis ad hoc (MANETs), onde o comportamento cooperativo é obrigatório, existe uma elevada probabilidade de alguns nós ficarem sobrecarregados nas operações de encaminhamento de pacotes no apoio à troca de dados com nós vizinhos. Este comportamento altruísta leva a uma sobrecarga desequilibrada em termos de tráfego e de consumo de energia. Nestes cenários, os nós móveis poderão beneficiar do uso da eficiência energética e de protocolo de encaminhamento de tráfego que melhor se adapte à sua capacidade limitada da bateria e velocidade de processamento. Este trabalho de doutoramento centra-se em propor um uso eficiente da energia e protocolos de encaminhamento para balanceamento de carga nas redes ad hoc. Actualmente a maioria dos protocolos de encaminhamento existentes considera simplesmente a métrica da extensão do caminho, ou seja o número de nós, para a escolha da melhor rota entre fonte (S) e um nó de destino (D); no mecanismo aqui proposto os nós são capazes de encontrar várias rotas por cada par de nós de origem e destino e seleccionar o melhor caminho segundo a energia e parâmetros de tráfego, aumentando o tempo de vida útil da rede. Os nossos resultados mostram que pela aplicação deste novo mecanismo, os protocolos de encaminhamento ad hoc actuais podem alcançar uma maior eficiência energética e balanceamento de carga. Para além disso, devido à natureza de difusão dos canais sem fio em redes ad-hoc, outras técnicas, tais como a Codificação de Rede (NC), parecem ser também promissoras para a eficiência energética. NC pode reduzir o número de transmissões, e número de retransmissões e aumentar a taxa de transferência de dados traduzindo-se directamente na melhoria da eficiência energética. No entanto, devido ao acesso dos nós intermediários aos pacotes em trânsito e sua codificação, NC necessita de uma técnica que limite as acessos não autorizados e a corrupção dos pacotes. Explorou-se o mecanismo de forma a oferecer um novo método de segurança que propõe um grau adicional de protecção contra ataques e invasões. Por conseguinte, os nós intermediários mal-intencionados irão encontrar pacotes em trânsito computacionalmente intratáveis em termos de descodificação. Adoptou-se também outro código que usa Luby Transform (LT) como um código de précodificação no NC. Projectado inicialmente para aplicações de segurança, este código permite que os nós de destino recuperem pacotes corrompidos mesmo em presença de ataques bizantinos.
Westerberg, Jacob. "Active Phase Balancing and Battery Systems for Peak Power Reduction in Residential Real Estate : An Economic Feasibility Study." Thesis, KTH, Industriell Management, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-272974.
Full textTidigare forskning har visat att fasbalansering enskilt kan förbättra driften hos lokala distributionsnät och att ett batterisystem i tillägg till fasbalanserarens kraftelektronik ytterligare kan minska de negativa effekterna av fasobalanser. Däremot har mindre uppmärksamhet riktats mot den ekonomiska genomförbarheten hos dessa teknologier och i synnerhet för implementation på lastens sida av elmätaren. Det tycks vara så att spridningen av fasbalanserare, med eller utan energilagring, hindras av osäkerheten kring dess ekonomiska potential trots att båda teknologierna är kommersiellt tillgängliga. Detta arbete ämnar därför att värdera och jämföra den ekonomiska nyttan hos de två konfigurationerna vid toppreducering av fastighetselen i svenska bostadsfastigheter. Värderingen utfördes med hjälp av en särskilt utvecklad deterministisk tekno-ekonomisk modell som beaktade historiska lastdata från tre svenska fastigheter, kostnadsuppskattningar för en uppsättning av konfigurationer som användes vid dimensionering av systemen, applicerbara tariffer och avgifter för elektricitet och dess distribution samt tekniska parametrar såsom kapaciteter och verkningsgrader för de olika komponenterna. Ett annorlunda tillvägagångssätt tillämpades vidare för att utöka datamängden genom linjär extrapolation av lastprofilerna, vilket resulterade i tre uppsättningar av 91 syntetiserade lastprofiler. Nettonuvärdet beräknades följaktligen för varje profil och investeringsalternativ för att sedan plottas och analyseras per ursprunglig fastighet. Resultaten visade att båda konfigurationerna kan uppvisa lönsamhet, men endast under särskilda förutsättningar. Den enskilda fasbalanseraren bedömdes som lönsam för fastigheter vars strömtoppar är påtagligt obalanserade och som överstiger 50 A, med största möjliga lönsamhet för profiler som överstiger 63 A då dessa möjliggör ett tariffbyte. Det kombinerade systemets lönsamhet bedömdes vara ännu mer beroende av tariffbytet och därför endast lönsamt för strömtoppar över 63 A. En betydligt större grundinvestering för det kombinerade systemet gör vidare att den enskilda fasbalanseraren i regel är att föredra, såvida inte kalkylräntan är så låg som 2 % eller mindre. Baserat på detta uppmanas potentiella investerare att undersöka balanstillståndet hos deras laster och att utföra en egen kalkyl baserat på deras specifika last, kapitalkostnad och nätföretag.
Prueter, Phillip Edward. "A Study of the Mechanical Design and Gear Tooth Root Strains in Flexible Pin, Multi-Stage, Planetary Wind Turbine Gear Trains Using Three Dimensional Finite Element/Contact Mechanics Models and Experiments." The Ohio State University, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=osu1313372765.
Full textFröberg, Niklas, and Elias Mehdipoor. "Hur kan installationen av smarta elnätstjänster i bostäder bidra till ökad efterfrågeflexibilitet?" Thesis, KTH, Hållbar utveckling, miljövetenskap och teknik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-284333.
Full textAs innovation and society continue their growth, electrification is increasing rapidly. To achieve several of the environmental goals set by the Swedish Parliament, a transition to an electricity system based on electricity from renewable sources is also required. The increasing electrification entails not only increased demands on the amount of electricity produced, but also the ability to transport it. Increased load on the electricity grid creates bottlenecks and capacity shortages in larger cities and regions, which makes it difficult to establish, among other things, new factories and residential areas, which slows down the development of society. To solve this capacity shortage, the Swedish electrical grid needs to be expanded. However, this is a relatively slow process, which places demands on innovative solutions that can relieve the electricity grid, both short term and long term. Such a solution is an increased demand flexibility, which means that certain power-demanding activities are moved to times of the day when the grid is less congested. By using smart grid technology, consumers can get information about electricity prices in real time and thereby adjust their electricity consumption and benefit from lower electricity prices and greater access to renewable energy when the top load on the electricity grid is lower. The purpose of this study is to investigate how such smart grid services can result in increased demand flexibility in homes, and whether this demand flexibility can help counteract the capacity shortage in the Swedish grid. To investigate this, a literature study focusing on behavioral changes linked to sustainable development, and four qualitative interviews with relevant actors in the energy industry, have been conducted. The results from the literature study have been analyzed to investigate whether or not they are applicable to smart grid services to achieve increased demand flexibility. The qualitative interviews have been summarized and analyzed to examine what issues there is agreement and disagreement in among the industry's players. After analysis and discussion, the study shows that smart grid services linked to residential electricity consumption have the potential to achieve increased demand flexibility and that this demand flexibility can contribute to reducing capacity shortage. However, this should not be seen as a universal solution but as one of several necessary solutions to tackle the problem.
Савченко, Наталя Панасівна. "Регулювання графіка навантаження електричних мереж за допомогою споживача-регулятора з кінетичним енергонакопичувачем." Thesis, Донбаська національна академія будівництва і архітектури, 2018. http://repository.kpi.kharkov.ua/handle/KhPI-Press/37646.
Full textThesis for the degree of candidate of technical sciences in specialty 141 – electric power industry, electrical engineering and electromechanics – National Technical University "Kharkov Polytechnic Institute" of the Ministry of Education and Science of Ukraine, Kharkov, 2018. The thesis is devoted to regulation of electric load schedules with the help of regulator consumers to connect kinetic energy storages to their power supply system, which will lead to an increase in the efficiency of the functioning of electrical networks and power quality indicators. In the dissertation the methods of regulation of electronic loading schedules are investigated and the feasibility of using administrative buildings with storage devices connected to the power supply system, as consumers of regulators, is substantiated. The application of different types of accumulating devices in power supply systems has been investigated, and the use of a kinetic energy carrier for regulating load schedules of the consumer-regulator has been proposed. The analysis of risk assessment methods in energy with the purpose of their reduction, which will increase the reliability of the power supply system of the consumer-regulator, and the method of the hierarchy of T.Saati is used directly for the analysis of risks and their compensation when connected to the system of power supply of the kinetic energy accumulator. The design of the flywheel with a variable torque of inertia and imbalance loads, which differs from the existing presence of alternating moment of inertia and imbalance loads, which will reduce the energy consumption in the initial period of rotation of the flywheel and improve the smoothness of rotation in the working mode is developed, therefore, it has the best technical characteristics compared with analogues and can be used as a kinetic energy storage device. The method of balancing the load in the power supply system of an administrative building, based on the use of kinetic energy storage, has allowed to improve the quality of electricity due to the lack of switching in the power supply system. A model for energy exchange between the power supply system of the building and the kinetic energy storage device is developed, which differs from the current taking into account the design of the flywheel KES, which makes it possible to improve the accuracy of energy calculations. The possibility of regulating the electric load graphs of the consumer-regulator is shown when adjusting the parameters and characteristics of the kinetic energy storage, which will effectively regulate the load schedule of the electrical network as a whole. The influence of the design of the electric motor and the flywheel structure in the KEN on the accumulation of electric energy on the acceleration and loading characteristics of the drive for controlling the electric load schedule of the electric networks has been experimentally confirmed.
Савченко, Наталя Панасівна. "Регулювання графіка навантаження електричних мереж за допомогою споживача-регулятора з кінетичним енергонакопичувачем." Thesis, НТУ "ХПІ", 2018. http://repository.kpi.kharkov.ua/handle/KhPI-Press/37633.
Full textThe thesis is devoted to regulation of electric load schedules with the help of regulator consumers to connect kinetic energy storages to their power supply system, which will lead to an increase in the efficiency of the functioning of electrical networks and power quality indicators. In the dissertation the methods of regulation of electronic loading schedules are investigated and the feasibility of using administrative buildings with storage devices connected to the power supply system, as consumers of regulators, is substantiated. The application of different types of accumulating devices in power supply systems has been investigated, and the use of a kinetic energy carrier for regulating load schedules of the consumer-regulator has been proposed. The analysis of risk assessment methods in energy with the purpose of their reduction, which will increase the reliability of the power supply system of the consumer-regulator, and the method of the hierarchy of T.Saati is used directly for the analysis of risks and their compensation when connected to the system of power supply of the kinetic energy accumulator. The design of the flywheel with a variable torque of inertia and imbalance loads, which differs from the existing presence of alternating moment of inertia and imbalance loads, which will reduce the energy consumption in the initial period of rotation of the flywheel and improve the smoothness of rotation in the working mode is developed, therefore, it has the best technical characteristics compared with analogues and can be used as a kinetic energy storage device. The method of balancing the load in the power supply system of an administrative building, based on the use of kinetic energy storage, has allowed to improve the quality of electricity due to the lack of switching in the power supply system. A model for energy exchange between the power supply system of the building and the kinetic energy storage device is developed, which differs from the current taking into account the design of the flywheel KES, which makes it possible to improve the accuracy of energy calculations. The possibility of regulating the electric load graphs of the consumer-regulator is shown when adjusting the parameters and characteristics of the kinetic energy storage, which will effectively regulate the load schedule of the electrical network as a whole. The influence of the design of the electric motor and the flywheel structure in the KEN on the accumulation of electric energy on the acceleration and loading characteristics of the drive for controlling the electric load schedule of the electric networks has been experimentally confirmed.
Kheriji, Sabrine. "Design of an Energy-Aware Unequal Clustering Protocol based on Fuzzy Logic for Wireless Sensor Networks." Universitätsverlag Chemnitz, 2020. https://monarch.qucosa.de/id/qucosa%3A73303.
Full textDer Energieverbrauch ist ein Hauptanliegen in drahtlosen Sensornetzwerken (WSNs), was zu einer starken Nachfrage nach energiebewussten Kommunikationstechnologien führt. In diesem Zusammenhang wurden mehrere ungleiche clusterbasierte Routing-Protokolle vorgeschlagen. Allerdings verwenden nur die wenigsten energetische Analysemodelle für die Berechnung des optimalen Cluster-Radius, und mehrere Protokolle können keine optimale Auslastungsbalance zwischen Sensorknoten realisieren. In diesem Zusammenhang ist es das Ziel der Dissertation, ein clusterbasiertes Routing-Protokoll zur Verbesserung der Energieeffizienz im WSN zu entwickeln. Wir schlagen einen Fuzzy-basierten Energy-Aware Unequal Clustering-Algorithmus (FEAUC) mit zirkulärer Partitionierung vor, um den Energieverbrauch zwischen Sensorknoten auszugleichen und das durch eine Multi-Hop-Kommunikation entstehende Hotspot-Problem zu lösen. Der entwickelte FEAUC umfasst hauptsächlich vier Phasen: Eine Offline-Phase, eine Clusterbildungsphase, eine Kooperationsphase und eine Phase der Datensammlung. Während der Offline-Phase wird eine Energieanalyse durchgeführt, um den Radius jedes Ringes und den optimalen Cluster- Radius pro Ring zu berechnen. Die Clusterbildungsphase basiert auf einem Fuzzy-Logik-Ansatz für die Clusterkopf (CH)-Auswahl. Die Kooperationsphase zielt darauf ab, einen Zwischenknoten als einen Router zwischen verschiedenen CHs zu definieren. In der Datensammelphase wird die Übertragung von Datenpaketen von Sensorknoten zu ihren entsprechenden CHs als eine Intra-Cluster-Kommunikation definiert, während die Übertragung von Daten von einem CH zu einem anderen CH bis zum Erreichen der Basisstation als eine Inter-Cluster-Kommunikation definiert wird. Die Machbarkeit des entwickelten FEAUC wird durch die Ausarbeitung eines Vergleichs mit ausgewählten referenzierten ungleichen Clustering-Algorithmen unter Berücksichtigung verschiedener Parameter demonstriert, hauptsächlich des Energieverbrauchs, der Batterielebensdauer, der Zeit bis zum Abschalten des ersten Knotens (FND), der Zeit, in der die Hälfte der Knoten offline ist (HND) und der Zeit bis zum letzten Knoten stirbt (LND). Obwohl mit dem entwickelten FEAUC die Lebensdauer des Netzwerks erhöht warden soll, indem die große Last der CH-Aufgaben gleichmäßig auf die übrigen Knoten verteilt wird, stellt die Durchführung des Clustering-Prozesses in jeder Runde eine zusätzliche Belastung dar, die die verbleibende Energie erheblich entziehen kann. Aus diesem Grund wurde das auf FEAUC basierende Protokoll zu einem fehlerto-leranten Algorithmus (FEAUC-FT) weiterentwickelt. Er unterstützt die Fehlerto-leranz durch die Verwendung von Backup-CHs zur Vermeidung des Re-Clustering-Prozesses in bestimmten Runden oder durch den Aufbau weiterer Routing-Pfade im Falle eines Verbindungsausfalls zwischen verschiedenen CHs. Die Validierung des entwickelten FEAUC in realen Szenarien ist durchgeführt worden. Einige Sensorknoten, die mit Batterien betrieben werden, sind in einem kreisförmigen Bereich angeordnet und bilden Cluster. Leistungsbewertungen warden anhand realistischer Szenarien durchgeführt und für einen realen Einsatz unter Verwendung des drahtlosen Low-Power-Sensorknoten panStamp getestet. Zur Vervollständigung früherer Arbeiten wird als Schritt des Proof-of-Concept ein intelligentes Bewässerungssystem mit der Bezeichnung Air-IoT entworfen. Darüber hinaus wird eine IoT-basierte Echtzeit-Sensorknotenarchitektur zur Kontrolle derWassermenge in einigen eingesetzten Knoten eingeführt. Zu diesem Zweck wird ein mit der Cloud verbundenes drahtloses Netzwerk zur Überwachung der Bodenfeuchtigkeit und -temperatur gut konzipiert. Im Allgemeinen ist dieser Schritt unerlässlich, um den vorgeschlagenen ungleichen clusterbasierten Routing-Algorithmus in einem realen Demonstrator zu validieren und zu bewerten.Der vorgeschlagene Prototyp garantiert sowohl Echtzeit-Überwachung als auch zuverlässige und kostengünstige Übertragung zwischen jedem Knoten und der Basisstation.:1 Introduction 2 Theoretical background 3 State of the art of unequal cluster-based routing protocols 4 FEAUC: Fuzzy-based Energy-Aware Unequal Clustering 5 Experimental validation of the developed unequal clustering protocol 6 Real application to specific uses cases 7 Conclusions and future research directions
Sapountzis, Nikolaos. "Optimisation au niveau réseau dans le cadre des réseaux hétérogènes nouvelle génération." Electronic Thesis or Diss., Paris, ENST, 2016. http://www.theses.fr/2016ENST0082.
Full textBy 2016, it is well-known that mobile networking has dominated our lives. We use our mobile cell phones for almost everything: from social networking to streaming, finding accommodation or banking. Nevertheless, it seems that operators have not understood yet this domination, since their networks consist of nodes that: (i) suffer from enormous load fluctuations, (ii) waste their resources, and (iii) are blamed to be a major energy-killer worldwide. Such shortcomings hurt: load-balancing, spectral and energy efficiency, respectively. The goal of this dissertation is to carefully study these efficiencies and achieve a good trade-off between them for future mobile 5G heterogeneous networks (HetNets). Towards this direction, we firstly focus on (i) the user and traffic differentiation, emerging from the MTC and IoT applications, and (ii) the RAN. Specifically, we perform appropriate modeling, performance analysis and optimization for a family of objectives, using tools mostly coming from (non) convex optimization, probability and queueing theory. Our initial consideration is on network-layer optimizations (e.g. studying the user association problem). Then, we analytically show that cross-layer optimization is key for the success of future HetNets, as one needs to jointly study other problems coming from the layers below (e.g. the TDD allocation problem from the MAC, or the cross-interference management from the PHY) to avoid performance degradation. Finally, we add the backhaul network into our framework, and consider additional constraints related to the backhaul capacity, backhaul topology, as well as the problem of backhaul TDD allocation
Boora, Arash Abbasalizadeh. "Flexible high-power multi DC-DC converters for train systems." Thesis, Queensland University of Technology, 2010. https://eprints.qut.edu.au/33208/1/Arash_Boora_Thesis.pdf.
Full textSahoo, Subham Swaroop. "Coordinated control of DC microgrids." Thesis, 2018. http://eprint.iitd.ac.in:80//handle/2074/7929.
Full textWang, Po-Hsiang, and 王柏翔. "Energy Aware Load-Balancing for Cloud Computing." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/55281172159216406003.
Full text國立交通大學
資訊科學與工程研究所
99
Recent movement in cloud computing is showing the trend that more and more companies start to deploy their services on the cloud instead of worrying about the troublesome server configuration and administration by themselves. This trend also helps in consolidating hardware resource usage because the same set of machine resources can serve multiple companies. Through a virtualization technique, different companies’ virtual machines (VMs) could share hardware resources on a single physical machine to improve the resource utilization. In order to maximize resource utilization, a load-balancing mechanism for cloud computing is needed to avoid performance degradation, hardware error or failure due to some overloading physical machines. Load balancing for cloud computing can be performed by migrating a VM from an overloaded host to an underutilized host. Since VM migration time are proportional to the amount of physical memory allocated to the VM. In a cloud data center with tens of thousands of physical machines and hundreds of thousands of VMs, one by one VM migration may take long time to reach a system load equilibrium state. In this paper, we propose an algorithm that transforms the load-balancing problem into a minimum weighted matching problem of a weighted bipartite graph. According to the minimum weighted matching obtained from Hungarian method, we concurrently migrate VMs from overloaded hosts to underutilized hosts. We use the CloudSim toolkit to test our algorithm’s performance and the experimental results show that our algorithm not only obtains a good load balance but also reduces the time to reach system load equilibrium state. We also build a cloud development platform via XCP OS to prove that our algorithm could be used in a realistic cloud environment. Furthermore, a major cause of energy inefficiency in a cloud datacenter is the idle power wasted when servers run at low utilization. Therefore, we modify our load-balancing algorithm to migrate all VMs out of low utilized hosts, then to turn off them to save energy during load-balancing process.
Lin, Te-Sun, and 林德森. "Energy-Aware Load Balancing for Distributed SDN Controllers." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/75809248381322274600.
Full text國立交通大學
網路工程研究所
103
Unlike the traditional network, the Software Defined Network (SDN) provides a way to control flows in a network by decoupling the control plane and data plane. Since an SDN network using a single controller to manage flows in the network may lead to SDN scalability and a single point of failure problems, some related work puts an emphasis on the issues of distributed SDN controllers. A related work on distributed SDN controllers or multiple SDN controllers, EstiCon, proposed a dynamic load balancing scheme. However, the issue of energy saving for distributed SDN controllers hasn’t been addressed. The main contributions of this paper are as follows. (1) We propose an Energy-Aware Load Balancing (EALB) algorithm for distributed SDN controllers. The proposed EALB balances the loads of distributed SDN controllers and turns some controllers into sleep mode under light load. The loads of SDN controllers are mainly caused by number of packet-in messages received. When packet-in messages become too many for a controller to handle, its loading needs to be migrated. When a controller becomes overloaded, the proposed EALB migrates some switches handled by the overloaded controller to other controllers in order to balance the loads. (2) In addition, we use a neural network based predictor to check whether it can turn a controller into sleep mode for energy saving. Simulation results show that the proposed EALB can save 11% of energy consumption compared to LB (EALB without energy saving). For load balancing of distributed SDN controllers, the load balancing metric (LBM) of the proposed EALB is from 1.19 to 1.4 under packet-in message rates from 300 to 900 (messages/second), which is only slightly higher than that (from 1.16 to 1.35) of LB. Keywords: Energy-aware, load balancing, neural network-based prediction, packet-in message, software defined network. Keywords: Energy-aware, Load balancing, neural network-based prediction, packet-in message, software defined network.
Shieh, Tsung-Yi, and 謝存益. "A Load-Balancing Algorithm for Sharing Available Server resources in SDN." Thesis, 2016. http://ndltd.ncl.edu.tw/handle/37499096215655175187.
Full text國立中興大學
資訊科學與工程學系
104
Unlike traditional network, software define network is divided into control plane and data plane. Controller can decide how to transfer data. We can use a switch as load-balancing switch, and we decide how to transfer packet according to rule of server to reach the target of load balance. When the load of controller is too high, it may affect performance of load balance system. Therefore, how to reduce the load of controller becomes an important issue. Wildcard Rule is the subject matter we study and improve in this thesis. We propose two methods used together, one is sharing not full server and another is exchange server rules. We use two methods at the same time to avoid reducing the utilization of server without using other server when a server is full. In the case of maintaining the utilization of server, we should reduce the rule change as far as possible to maintain original wildcard rules to reach original target. In this thesis, we use the Mininet simulator as a platform to carry out many experiments for verification. The simulation results show that the method we proposed improves by 20% of server resource utilization, when compared with the original method. Our methods perform well especially when the traffic load of specific IP increases. They can effectively reduce 50% of rule changes while maintaining the same utilization level.
He, We-Jing, and 何文靖. "Load and Energy Balancing MAC Protocol for Energy Harvesting Enabled Wireless Sensor Networks." Thesis, 2014. http://ndltd.ncl.edu.tw/handle/44247390471697011384.
Full text輔仁大學
電機工程學系碩士班
102
Ambient energy from solar, vibration, heat and wind provide alternative energy sources to power sensors and extend the lifetime of wireless sensor networks, which have traditionally been powered by batteries. This paper aims to enhance the performance of energy harvesting powered wireless sensor networks in three aspects: relaying, scheduling, and medium access control. To better adapt to the characteristics of energy harvesting, an asynchronous receiver-initiated duty-cycling approach is preferred in energy harvesting powered wireless sensor networks. This reduces the duty cycle of senders, and regulates the duty and sleep intervals according to the energy levels of sensors. When nodes run out of power and need time to recharge, network holes or voids develop, forcing data packets to be routed via other paths, like detours. The proposed relaying strategy aims to prevent holes by balancing the load across the network according to nodes’ energy harvesting characteristics. This is a natural consequence of the asynchronous duty-cycling by scheduling transmission based on the receiver’s availability. The simulation results show that our scheme outperforms in terms of end-to-end delay, sender duty cycle, collision ratio, remaining energy, packet delivery ratio, energy fairness ratio, and de-tour ratio.
Hung, Chien-Chun, and 洪健淳. "An Energy-Efficient Opportunistic Routing for Load-Balancing in Wireless Sensors Networks." Thesis, 2009. http://ndltd.ncl.edu.tw/handle/96896933163852805595.
Full text國立臺灣大學
資訊工程學研究所
97
Opportunistic routing has been widely approved because of its throughput improvement for wireless mesh networks; however, few researches focus on transforming its benefit into realizing energy efficiency for wireless sensor networks (WSNs). We notice that two common issues in fixed-path routing schemes, including single-path routing or multi-path routing, are that (1) a path may traverse through a fixed set of sensors, draining out their energy, and (2) packet retransmission over an unreliable link of any fixed-path may consume energy significantly. In this paper, we exploit two natural advantages of opportunistic routing, i.e., path diversity and the improvement of transmission reliability, to develop a distributed routing scheme (EFFORT) for prolonging the network-lifetime of a WSN. Unlike prior works on minimizing transmission delay in opportunistic routing, we propose a metric (called OEC) that assists each sensor in determining a suitable forwarding set for reducing the damage to the lifetime caused by each forwarding, and, thus, enable EFFORT to extend the network lifetime by implementing forwarder selection and relay prioritization based on OEC. Simulation results show that EFFORT achieves network-lifetime extension, as well as energy-cost minimization as compared with other routing protocols.
Israr, Nauman, and Irfan U. Awan. "Multihop clustering algorithm for load balancing in wireless sensor networks." 2007. http://hdl.handle.net/10454/474.
Full textWu, Meng-Chun Merelda. "Investigation into the steady-state load sharing of weak sources in a low voltage three-phase islanded microgrid." Thesis, 2016. http://hdl.handle.net/10539/21052.
Full textThis research investigates the power sharing between distributed energy resources with voltage and frequency droop control. A case study based on voltage sources in an islanded microgrid is set up in the laboratory, referred to as: The Example Microgrid. The Example Microgrid consists of two synchronous generators, active and reactive power loads. A simulation model is constructed based on the laboratory set-up, where componentwise and system-wise testing are completed. The simulation results are validated with the experimental set-up, and it is concluded that the model accurately represents the physical system under steady-state conditions. Further simulation studies on conventional droop controllers are conducted based on the Example Microgrid model. The results indicate that the use of conventional droop control is inappropriate for small, low-voltage islanded microgrids. As a possible application of this work, three variations of adapted droop controllers are simulated and their performance evaluated. It is found that with the adapted droop controllers, the power sharing error can be minimised
M T 2016
Lee, Yong Oh. "Improving Efficiency and Effectiveness of Multipath Routing in Computer Networks." Thesis, 2012. http://hdl.handle.net/1969.1/ETD-TAMU-2012-05-11122.
Full textJegathala, Krishnan Kannan. "Implementation of Renewable Energy to Reduce Carbon Consumption and Fuel Cell as a Back-up Power for National Broadband Network (NBN) in Australia." Thesis, 2013. https://vuir.vu.edu.au/25679/.
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