The document provides an overview of research on improving energy efficiency in wireless access networks, with a focus on solutions proposed for 3GPP Long Term Evolution (LTE) systems. It describes an energy consumption model for wireless access networks that identifies base stations as the primary consumer of energy. It then summarizes time, frequency, and spatial domain approaches studied in LTE to reduce base station energy usage by decreasing power amplifier operating times when traffic is low. These proposed solutions aim to make energy consumption scale with traffic load but face limitations regarding compatibility, applicability to low traffic conditions, and potential impact on user equipment performance.
Novel Optimization to Reduce Power Drainage in Mobile Devices for Multicarrie...IJECEIAES
With increasing adoption of multicarrier-based communications e.g. 3G and 4G, the users are significantly benefited with impressive data rate but at the cost of battery life of their mobile devices. We reviewed the existing techniques to find an open research gap in this regard. This paper presents a novel framework where an optimization is carried out with the objective function to maintain higher level of equilibrium between maximized data delivery and minimized transmit power. An analytical model considering multiple radio antennae in the mobile device is presented with constraint formulations of data quality and threshold power factor. The model outcome is evaluated with respect to amount of power being conserved as performance factor. The study was found to offer maximum energy conservation and the framework also suits well with existing communication system of mobile networks.
Massive MIMO-Based 5G Networks: Energy Harvesting Base Stations with Minimum ...IJASRD Journal
The degree of CSI available to Transmitter and Receiver is influenced by the capacity of MIMO (Multiple Input and Multiple Output). The maximizing Energy Efficiency (EE) is to optimum transmission strategy for multiple user Massive MIMO system are to be optimized in radio frequency energy harvesting network. The grid energy permits requite for the changeability and intermittent the harvest energy. Hence, the quality of service constraint has to been solved under the problem of power grid expenditure reduction. In hybrid Massive MIMO system focuses on Energy efficient maximization where Massive MIMO employs where there are two other promising 5G technologies: assorted networks and millimeter wave. For achieving larger Energy Efficiency gains multiple opportunities open up than with conservative Massive MIMO systems. A sarcastic psychoanalysis of the Energy Efficient development approach considering combination Massive MIMO scheme permits as to verify various open research tribulation it will immensely help users in using energy-efficient 5G deployments.
Novel Optimization to Reduce Power Drainage in Mobile Devices for Multicarrie...IJECEIAES
With increasing adoption of multicarrier-based communications e.g. 3G and 4G, the users are significantly benefited with impressive data rate but at the cost of battery life of their mobile devices. We reviewed the existing techniques to find an open research gap in this regard. This paper presents a novel framework where an optimization is carried out with the objective function to maintain higher level of equilibrium between maximized data delivery and minimized transmit power. An analytical model considering multiple radio antennae in the mobile device is presented with constraint formulations of data quality and threshold power factor. The model outcome is evaluated with respect to amount of power being conserved as performance factor. The study was found to offer maximum energy conservation and the framework also suits well with existing communication system of mobile networks.
Massive MIMO-Based 5G Networks: Energy Harvesting Base Stations with Minimum ...IJASRD Journal
The degree of CSI available to Transmitter and Receiver is influenced by the capacity of MIMO (Multiple Input and Multiple Output). The maximizing Energy Efficiency (EE) is to optimum transmission strategy for multiple user Massive MIMO system are to be optimized in radio frequency energy harvesting network. The grid energy permits requite for the changeability and intermittent the harvest energy. Hence, the quality of service constraint has to been solved under the problem of power grid expenditure reduction. In hybrid Massive MIMO system focuses on Energy efficient maximization where Massive MIMO employs where there are two other promising 5G technologies: assorted networks and millimeter wave. For achieving larger Energy Efficiency gains multiple opportunities open up than with conservative Massive MIMO systems. A sarcastic psychoanalysis of the Energy Efficient development approach considering combination Massive MIMO scheme permits as to verify various open research tribulation it will immensely help users in using energy-efficient 5G deployments.
Integrated approach for efficient power consumption and resource allocation i...IJECEIAES
The growing interest towards wireless communication advancement with smart devices has provided the desired throughput of wireless communication mechanisms. But, attaining high-speed data packets amenities is the biggest issue in different multimedia applications. Recently, OFDM has come up with the useful features for wireless communication however it faces interference issues at carrier level (intercarrier interferences). To resolve these interference issues in OFDM, various existing mechanisms were utilized cyclic prefix, but it leads to redundancy in transmitted data. Also, the transmission of this redundant data can take some more power and bandwidth. All these limitations factors can be removed from a parallel cancellation mechanism. The integration of parallel cancellation and Convolution Viterbi encoding and decoding in MIMOOFDMA will be an effective solution to have high data rate which also associations with the benefits of both the architectures of MIMO and OFDMA modulation approaches. This paper deals with this integrated mechanism for efficient resource allocation and power consumption. For performance analysis, MIMO-OFDMA system is analyzed with three different approaches likeMIMO-OFDM system without parallel cancellation (MIMO-OFDMA-WPC), MIMO-OFDMA System with parallel cancellation (MIMO-OFDMA-PC) and proposed IMO-OFDMA system with parallel cancellation and Convolution Viterbi encoding/decoding (pMIMO-OFDMAPC &CVed) for 4x4 transmitter and receiver. Through performance analysis, it is found that the proposed system achieved better resource allocation (bandwidth) with high data rate by minimized BER rate and achieved least power consumption with least BER.
Influence choice of the injection nodes of energy source on on-line losses of...IJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
International Journal of Modern Engineering Research (IJMER) covers all the fields of engineering and science: Electrical Engineering, Mechanical Engineering, Civil Engineering, Chemical Engineering, Computer Engineering, Agricultural Engineering, Aerospace Engineering, Thermodynamics, Structural Engineering, Control Engineering, Robotics, Mechatronics, Fluid Mechanics, Nanotechnology, Simulators, Web-based Learning, Remote Laboratories, Engineering Design Methods, Education Research, Students' Satisfaction and Motivation, Global Projects, and Assessment…. And many more.
Last mile mobile hybrid optical wireless access network routing enhancementjournalBEEI
This study focuses on mobile ad hoc networks (MANETs) that support Internet routing protocol imposing stringent resource consumption constraints of Quality of service (QoS). The mobile Internet causes the ongoing issue of inefficient use of the MANET resources due to its random nature of wireless environments. In this paper, the new improved architecture of the last mile mobile hybrid optical-wireless access network (adLMMHOWAN) is proposed and designed to tackle the arised issues. The proposed design is based on a unified wireless-wired network solution required the deployment of MANET-based wireless fidelity (WiFi) technology at the wireless front-end and wavelengths division multiplexing passive optical network (WDM PON) at the optical backhaul. The critical performance metrics such as network capacity and energy consumption based on modified AODVUU routing protocol using OMNeT++ software is analyzed with 2 scenarios, namely the number of nodes and mobility speed. This mode of communication results in better QoS network capacity of 47.07% improvement, with 26.85% reduction of lower energy resource consumption for mobile wireless front-end over passive optical network backhaul architecture when compared with the existing work of oRiq scheme that focus on improvement in MANETs.
P LACEMENT O F E NERGY A WARE W IRELESS M ESH N ODES F OR E-L EARNING...IJCI JOURNAL
Energy efficiency solutions are more vital for Gree
n Mesh Network (GMN) campuses. Today students are
benefited using these e-learning methodologies. Ren
ewable energies such as solar, wind, hydro has
tremendous applications on energy efficient wireles
s networks for sustaining the ever growing traffic
demands. One of the major issues in designing a GMN
is minimizing the number of deployed mesh routers
and gateways and satisfying the sustainable QOS bas
ed energy constraints. During low traffic periods t
he
mesh routers are switched to power save or sleep mo
de. In this paper we have mathematically formulated
a
single objective function with multi constraints to
optimize the energy. The objective is to place min
imum
number of Mesh routers and gateways in a set of can
didate location. The mesh nodes are powered using
the solar energy to meet the traffic demands. Two g
lobal optimisation algorithms are compared in this
paper to optimize the energy sustainability, to gua
rantee seamless connectivity
NETWORK ENERGY SAVING TECHNOLOGIES FOR GREEN WIRELESS ACCESS NETWORKSMadhav Thekkedath
Now a day smart phone users are increased and the energy consumption problem in mobile industry has become crucial. For the growth of mobile industry energy efficiency of the system must be improved. In order to improve the methods of network energy usage usually reduction of the Base Stations are to be employed.
The mobile industry faces a critical energy consumption challenge. By 2014 smart phones will exceed 1.82 billion units and surpass PCs as the most common web access devices. That’s why it is one of the important things. As all know that a smart is mainly for easy access to the network at anytime and anywhere. So it employs powering up all the Radio Base Stations (RBS’s) at maximum power. Since there are more number of service providers competition exist at the field of telecommunication. So it yields in more energy consumption to get monopoly among them. In the field of engineering, a system is usually designed to transform energy to useful work. Energy Efficiency can therefore be defined as the ratio of useful work to the total supplied energy. The useful work in a communication system refers to the effort to deliver modulated signals for information exchange. The definition of Energy Efficiency varies according to measured objects. There are two basic methods to measure Energy Efficiency. One way is to define Energy Efficiency as the ratio of efficient output power/energy to total input power/energy. This definition is widely used by systems and components such as power supply, Power Amplifiers, and antennas. The other way defines Energy Efficiency as the performance per unit of energy consumption.
The seminar gives a brief description about the methods to manage the network energy even when the on time access to network by mobile phones. Also gives a summary about existing and latest methodologies about the management in RBS’s.
Efficient power allocation method for non orthogonal multiple access 5G systemsIJECEIAES
One of the hot research topics for the upcoming 5G (fifth-generation) wireless communication networks is the non orthogonal multiple access (NOMA) systems, where it have attracted both industrial and academic fields to improve the existing spectral efficiency. In fact, the multiuser detection process for NOMA systems is largely affected by the power distribution of the received signals. In this paper, a new method has been proposed to control the transmit power among active users in one of the promising NOMA systems; the interleave division multiple access (IDMA) which has been adopted here for consideration. Unlike conventional methods, where tedious mathematical computations are required; a simple and direct method has been derived. The proposed method has been applied to IDMA system with different FEC codes. The obtained results show that the proposed method outperforms the conventional one as compared to optimal results.
Empirical studies have revealed that a significant amount of energy is lost unnecessarily in the
network architectures, protocols, routers and various other network devices. Thus there is a need for techniques
to obtain green networking in the computer architecture which can lead to energy saving. Green networking is
an emerging phenomenon in the computer industry because of its economic and environmental benefits. Saving
energy leads to cost-cutting and lower emission of greenhouse gases which are apparently one of the major
threats to the environment. ’Greening’ as the name suggests is the process of constructing network architecture
in such a way so as to avoid unnecessary loss of power and energy due its various components and can be
implemented using various techniques out of which four are mentioned in this review paper, namely Adaptive
link rate (ALR), Dynamic Voltage and Frequency scaling(DVFS), Interface proxying and energy aware
applications and software.
Network Reconfiguration of Distribution System for Loss Reduction Using GWO A...IJECEIAES
This manuscript presents a feeder reconfiguration in primary distribution networks with an objective of minimizing the real power loss or maximization of power loss reduction. An optimal switching for the network reconfiguration problem is introduced in this article based on step by step switching and simultaneous switching. This paper proposes a Grey Wolf Optimization (GWO) algorithm to solve the feeder reconfiguration problem through fitness function corresponding to optimum combination of switches in power distribution systems. The objective function is formulated to solve the reconfiguration problem which includes minimization of real power loss. A nature inspired Grey Wolf Optimization Algorithm is utilized to restructure the power distribution system and identify the optimal switches corresponding minimum power loss in the distribution network. The GWO technique has tested on standard IEEE 33-bus and 69-bus systems and the results are presented.
Novel Optimization to Reduce Power Drainage in Mobile Devices for Multicarrie...IJECEIAES
With increasing adoption of multicarrier-based communications e.g. 3G and 4G, the users are significantly benefited with impressive data rate but at the cost of battery life of their mobile devices. We reviewed the existing techniques to find an open research gap in this regard. This paper presents a novel framework where an optimization is carried out with the objective function to maintain higher level of equilibrium between maximized data delivery and minimized transmit power. An analytical model considering multiple radio antennae in the mobile device is presented with constraint formulations of data quality and threshold power factor. The model outcome is evaluated with respect to amount of power being conserved as performance factor. The study was found to offer maximum energy conservation and the framework also suits well with existing communication system of mobile networks.
Integrated approach for efficient power consumption and resource allocation i...IJECEIAES
The growing interest towards wireless communication advancement with smart devices has provided the desired throughput of wireless communication mechanisms. But, attaining high-speed data packets amenities is the biggest issue in different multimedia applications. Recently, OFDM has come up with the useful features for wireless communication however it faces interference issues at carrier level (intercarrier interferences). To resolve these interference issues in OFDM, various existing mechanisms were utilized cyclic prefix, but it leads to redundancy in transmitted data. Also, the transmission of this redundant data can take some more power and bandwidth. All these limitations factors can be removed from a parallel cancellation mechanism. The integration of parallel cancellation and Convolution Viterbi encoding and decoding in MIMOOFDMA will be an effective solution to have high data rate which also associations with the benefits of both the architectures of MIMO and OFDMA modulation approaches. This paper deals with this integrated mechanism for efficient resource allocation and power consumption. For performance analysis, MIMO-OFDMA system is analyzed with three different approaches likeMIMO-OFDM system without parallel cancellation (MIMO-OFDMA-WPC), MIMO-OFDMA System with parallel cancellation (MIMO-OFDMA-PC) and proposed IMO-OFDMA system with parallel cancellation and Convolution Viterbi encoding/decoding (pMIMO-OFDMAPC &CVed) for 4x4 transmitter and receiver. Through performance analysis, it is found that the proposed system achieved better resource allocation (bandwidth) with high data rate by minimized BER rate and achieved least power consumption with least BER.
Influence choice of the injection nodes of energy source on on-line losses of...IJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
International Journal of Modern Engineering Research (IJMER) covers all the fields of engineering and science: Electrical Engineering, Mechanical Engineering, Civil Engineering, Chemical Engineering, Computer Engineering, Agricultural Engineering, Aerospace Engineering, Thermodynamics, Structural Engineering, Control Engineering, Robotics, Mechatronics, Fluid Mechanics, Nanotechnology, Simulators, Web-based Learning, Remote Laboratories, Engineering Design Methods, Education Research, Students' Satisfaction and Motivation, Global Projects, and Assessment…. And many more.
Last mile mobile hybrid optical wireless access network routing enhancementjournalBEEI
This study focuses on mobile ad hoc networks (MANETs) that support Internet routing protocol imposing stringent resource consumption constraints of Quality of service (QoS). The mobile Internet causes the ongoing issue of inefficient use of the MANET resources due to its random nature of wireless environments. In this paper, the new improved architecture of the last mile mobile hybrid optical-wireless access network (adLMMHOWAN) is proposed and designed to tackle the arised issues. The proposed design is based on a unified wireless-wired network solution required the deployment of MANET-based wireless fidelity (WiFi) technology at the wireless front-end and wavelengths division multiplexing passive optical network (WDM PON) at the optical backhaul. The critical performance metrics such as network capacity and energy consumption based on modified AODVUU routing protocol using OMNeT++ software is analyzed with 2 scenarios, namely the number of nodes and mobility speed. This mode of communication results in better QoS network capacity of 47.07% improvement, with 26.85% reduction of lower energy resource consumption for mobile wireless front-end over passive optical network backhaul architecture when compared with the existing work of oRiq scheme that focus on improvement in MANETs.
P LACEMENT O F E NERGY A WARE W IRELESS M ESH N ODES F OR E-L EARNING...IJCI JOURNAL
Energy efficiency solutions are more vital for Gree
n Mesh Network (GMN) campuses. Today students are
benefited using these e-learning methodologies. Ren
ewable energies such as solar, wind, hydro has
tremendous applications on energy efficient wireles
s networks for sustaining the ever growing traffic
demands. One of the major issues in designing a GMN
is minimizing the number of deployed mesh routers
and gateways and satisfying the sustainable QOS bas
ed energy constraints. During low traffic periods t
he
mesh routers are switched to power save or sleep mo
de. In this paper we have mathematically formulated
a
single objective function with multi constraints to
optimize the energy. The objective is to place min
imum
number of Mesh routers and gateways in a set of can
didate location. The mesh nodes are powered using
the solar energy to meet the traffic demands. Two g
lobal optimisation algorithms are compared in this
paper to optimize the energy sustainability, to gua
rantee seamless connectivity
NETWORK ENERGY SAVING TECHNOLOGIES FOR GREEN WIRELESS ACCESS NETWORKSMadhav Thekkedath
Now a day smart phone users are increased and the energy consumption problem in mobile industry has become crucial. For the growth of mobile industry energy efficiency of the system must be improved. In order to improve the methods of network energy usage usually reduction of the Base Stations are to be employed.
The mobile industry faces a critical energy consumption challenge. By 2014 smart phones will exceed 1.82 billion units and surpass PCs as the most common web access devices. That’s why it is one of the important things. As all know that a smart is mainly for easy access to the network at anytime and anywhere. So it employs powering up all the Radio Base Stations (RBS’s) at maximum power. Since there are more number of service providers competition exist at the field of telecommunication. So it yields in more energy consumption to get monopoly among them. In the field of engineering, a system is usually designed to transform energy to useful work. Energy Efficiency can therefore be defined as the ratio of useful work to the total supplied energy. The useful work in a communication system refers to the effort to deliver modulated signals for information exchange. The definition of Energy Efficiency varies according to measured objects. There are two basic methods to measure Energy Efficiency. One way is to define Energy Efficiency as the ratio of efficient output power/energy to total input power/energy. This definition is widely used by systems and components such as power supply, Power Amplifiers, and antennas. The other way defines Energy Efficiency as the performance per unit of energy consumption.
The seminar gives a brief description about the methods to manage the network energy even when the on time access to network by mobile phones. Also gives a summary about existing and latest methodologies about the management in RBS’s.
Efficient power allocation method for non orthogonal multiple access 5G systemsIJECEIAES
One of the hot research topics for the upcoming 5G (fifth-generation) wireless communication networks is the non orthogonal multiple access (NOMA) systems, where it have attracted both industrial and academic fields to improve the existing spectral efficiency. In fact, the multiuser detection process for NOMA systems is largely affected by the power distribution of the received signals. In this paper, a new method has been proposed to control the transmit power among active users in one of the promising NOMA systems; the interleave division multiple access (IDMA) which has been adopted here for consideration. Unlike conventional methods, where tedious mathematical computations are required; a simple and direct method has been derived. The proposed method has been applied to IDMA system with different FEC codes. The obtained results show that the proposed method outperforms the conventional one as compared to optimal results.
Empirical studies have revealed that a significant amount of energy is lost unnecessarily in the
network architectures, protocols, routers and various other network devices. Thus there is a need for techniques
to obtain green networking in the computer architecture which can lead to energy saving. Green networking is
an emerging phenomenon in the computer industry because of its economic and environmental benefits. Saving
energy leads to cost-cutting and lower emission of greenhouse gases which are apparently one of the major
threats to the environment. ’Greening’ as the name suggests is the process of constructing network architecture
in such a way so as to avoid unnecessary loss of power and energy due its various components and can be
implemented using various techniques out of which four are mentioned in this review paper, namely Adaptive
link rate (ALR), Dynamic Voltage and Frequency scaling(DVFS), Interface proxying and energy aware
applications and software.
Network Reconfiguration of Distribution System for Loss Reduction Using GWO A...IJECEIAES
This manuscript presents a feeder reconfiguration in primary distribution networks with an objective of minimizing the real power loss or maximization of power loss reduction. An optimal switching for the network reconfiguration problem is introduced in this article based on step by step switching and simultaneous switching. This paper proposes a Grey Wolf Optimization (GWO) algorithm to solve the feeder reconfiguration problem through fitness function corresponding to optimum combination of switches in power distribution systems. The objective function is formulated to solve the reconfiguration problem which includes minimization of real power loss. A nature inspired Grey Wolf Optimization Algorithm is utilized to restructure the power distribution system and identify the optimal switches corresponding minimum power loss in the distribution network. The GWO technique has tested on standard IEEE 33-bus and 69-bus systems and the results are presented.
Novel Optimization to Reduce Power Drainage in Mobile Devices for Multicarrie...IJECEIAES
With increasing adoption of multicarrier-based communications e.g. 3G and 4G, the users are significantly benefited with impressive data rate but at the cost of battery life of their mobile devices. We reviewed the existing techniques to find an open research gap in this regard. This paper presents a novel framework where an optimization is carried out with the objective function to maintain higher level of equilibrium between maximized data delivery and minimized transmit power. An analytical model considering multiple radio antennae in the mobile device is presented with constraint formulations of data quality and threshold power factor. The model outcome is evaluated with respect to amount of power being conserved as performance factor. The study was found to offer maximum energy conservation and the framework also suits well with existing communication system of mobile networks.
Recent many works have concentrated on
dynamically turning on/off some base stations (BSs) in order to
improve energy efficiency in radio access networks (RANs). In
this survey, we broaden the research over BS switching
operations, which should competition up with traffic load
variations. The proposed method formulate the traffic variations
as a Markov decision process which should differ from dynamic
traffic loads which are still quite challenging to precisely forecast.
A reinforcement learning framework based BS switching
operation scheme was designed in order to minimize the energy
consumption of RANs. Furthermore a transfer actor-critic
algorithm (TACT) is used to speed up the ongoing learning
process, which utilizes the transferred learning expertise in
historical periods or neighboring regions. The proposed TACT
algorithm performs jumpstart and validates the feasibility of
significant energy efficiency increment.
Downlink massive full dimension-multiple input multiple output downlink beam...IJECEIAES
The long-term evolution and advancement (LTE-A) of the 5G wireless network depends critically on energy consumption. Many existing solutions focus on limiting power constraints and consequently system coverage. So, improving the antenna array elements of the base station (BS) can solve this issue. In this paper, introduce a coordinated ON-OFF switching method in the massive full dimensional multiple input multiple output (massive-FD-MIMO) system. It enhances the radiation pattern of the antenna array element by adjusting the angular power spectra at the BS. By the way, it allows to select the minimum number of antennas for effective beamforming toward specific user equipment’s (UEs). In this context, part of antenna element should be active mode and remining should be sleep mode at the time of signal beamforming. The multipath spatial profiles are decided the beamforming frequency band with minimize energy consumption. As part of the method, we used a conjugated beamforming with power optimization scheme to determine the individual antenna potential and fading channel condition, power optimization is performed. This method quality of service, reliability, energy consumption and data rate can all be evaluated by experimenting with different-sized antenna arrays such as 16×16, 32×32, 64×64 and 128×128.
Ijeee 24-27-energy efficient communication for adhoc networksKumar Goud
Energy Efficient Communication for Adhoc Networks
1SK.Nagula Meera 2Dr. D.Srinivasa Kumar 3Dr. D.Srinivasa Rao
Research Scholar Professor & Principal Professor, ECE department
ECE department, JNTU Hyderabad Hosur Institute of Technology and Science
Errandapalli Village, Beerpalli PO JNTU College of Engineering Hyderabad(Autonomous)
Ramapuram (via), Krishnagri Dt., Tamilnadu
Abstract: A mobile accidental network (MANET) may be an assortment of nodes equipped with wireless communications and a networking capability while not central network management. The method of wireless networks within the applications like transferring video files is subjected to twin constraints. Each step-down of power and different QOS needs like delay, throughputs square measure need to be bewaring properly. Mobile accidental Networks square measure a lot of perceptive to those problems wherever every mobile device is active sort of a router and consequently, routing delay adds significantly to overall end-to-end delay. This paper presents a survey on power economical routing protocols for Mobile Ad-Hoc Networks. This survey focused on recent progress on power saving algorithms. Additionally we recommend one power aware technique which can cut back power consumption yet as increase the lifespan of node and network.
Keywords: Mobile, Ad-Hoc networks, QOS, MANET, IBSS, ATIM, DPSM.
Interplay of Communication and Computation Energy Consumption for Low Power S...ijasuc
The sensor network design approach normally considers the communication energy consumption for
evaluating a communication protocol. This is true for the low power devices such as MICAz/MICA2
which do not consume a lot of energy for the data treatment. However, recently developed sensor devices
for multimedia applications such as iMote2 do consume considerable amount of energy for data
processing. In this article, we consider various scenarios for routing the data in wireless multimedia
sensor networks by considering the local design parameters of devices such as PXA27x and beagleboard.
The proposed routing solution considers node level optimizations such as data compression, dynamic
voltage and frequency scaling (DVFS) for making a routing decision. The proposed approaches have
been simulated to prove the effectiveness of the approach.
Communication Cost Reduction by Data Aggregation: A SurveyIJMTST Journal
Wireless Sensor Networks have gained wide popularity in the recent years for its high-ranking applications such as remote environment monitoring, target tracking, safety-critical monitoring etc. However Wireless Sensor Networks face many constraints like low computational power, small storage, and limited energy resources. One of the important issues in wireless sensor network is to increase the network lifetime to keep the network operational as long as possible. In this survey paper, we provide a comprehensive review of the existing literature on techniques and protocols for data aggregation to reduce communication cost and increase network lifetime in wireless sensor networks.
Modeling and Analysis of Energy Efficient Cellular Networksijtsrd
Energy consumption has become a primary concern in design and operation of wireless communication networks due to two main reasons- Environmental concerns and Cost. The next generation network systems will have to consider energy efficient designs in any aspect. The 5G network which is most awaited today though proposes better data rates but also speaks about energy efficiency in its agenda. Iram Masood Hamdani | Raj Kumar Jain "Modeling and Analysis of Energy Efficient Cellular Networks" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-2 , February 2019, URL: https://www.ijtsrd.com/papers/ijtsrd21381.pdf
Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/21381/modeling-and-analysis-of-energy-efficient-cellular-networks/iram-masood-hamdani
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Evaluation of Utility Advanced Distribution Management System (ADMS) and Prot...Power System Operation
Practical and cost-effective communications solutions are needed to enable control of the growing number of integrated distributed energy resources (DERs) and grid-edge local aggregator devices such as home energy management systems. Each year, the total installed photovoltaic (PV) system capacity increases by an estimated 5 GW, over half of which is interconnected to the distribution system.1 PV’s increasing penetration—already accounting for the bulk of DER capacity—underscores the need to enable and manage its continued integration on the distribution system.2 Much previous work has shown that advanced distribution management systems (ADMS), which are effectively integration platforms for various grid control and visibility applications, can help enable the integration of higher levels of PV while also improving the overall performance and efficiency of the distribution circuit. Greater connectivity and controllability of utility- and customer-owned equipment increases the level of DER integration and overall circuit performance.3 The required performance of the enabling communications system, however, has been less thoroughly studied and is often greatly oversimplified in ADMS performance analysis. The availability of new technologies such as distributed sensors, two-way secure communications, advanced software for data management, and intelligent and autonomous controllers is driving the identification of communications standards and general requirements,4 but the link between the communications system and the expected performance of a utility-implemented control system such as an ADMS or other communications-reliant protective function requires further investigation.
Power consumption and energy management for edge computing: state of the artTELKOMNIKA JOURNAL
Edge computing aims to make internet-based services and remote computing power close to the user by placing information technology (IT) infrastructure at the network edges. This proximity provides data centers with low-latency and context-aware services. Edge computing power consumption is mainly caused by data centers, network equipment, and user equipment. With edge computing (EC), energy management platforms for residential, industrial, and commercial sectors are built. Energy efficiency is considered to be one of the key aspects of edge power constraints. This paper provides the state of the art of power consumption and energy management for edge computing, the computation offloading methods, and more important highlights the power efficiency of edge computing systems. Furthermore, renewable energy and related concepts will also be explored and presented since no human participation is required in replacing or recharging batteries when using such energy sources. Based on such study, a recommendation is to develop a dynamic system for energy management in real-time with the assessment of local renewable energy so that the system be reliable with minimum power consumption. Also, regarding energy management, we recommend providing backup energy sources (or using more than one energy source) or (a hybrid technique).
Biological screening of herbal drugs: Introduction and Need for
Phyto-Pharmacological Screening, New Strategies for evaluating
Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
Antifertility, Toxicity studies as per OECD guidelines
The simplified electron and muon model, Oscillating Spacetime: The Foundation...RitikBhardwaj56
Discover the Simplified Electron and Muon Model: A New Wave-Based Approach to Understanding Particles delves into a groundbreaking theory that presents electrons and muons as rotating soliton waves within oscillating spacetime. Geared towards students, researchers, and science buffs, this book breaks down complex ideas into simple explanations. It covers topics such as electron waves, temporal dynamics, and the implications of this model on particle physics. With clear illustrations and easy-to-follow explanations, readers will gain a new outlook on the universe's fundamental nature.
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
Normal Labour/ Stages of Labour/ Mechanism of LabourWasim Ak
Normal labor is also termed spontaneous labor, defined as the natural physiological process through which the fetus, placenta, and membranes are expelled from the uterus through the birth canal at term (37 to 42 weeks
Executive Directors Chat Leveraging AI for Diversity, Equity, and InclusionTechSoup
Let’s explore the intersection of technology and equity in the final session of our DEI series. Discover how AI tools, like ChatGPT, can be used to support and enhance your nonprofit's DEI initiatives. Participants will gain insights into practical AI applications and get tips for leveraging technology to advance their DEI goals.
2. energy can be saved are energy lost in cabling and alternating
current/direct current (AC/DC) converting, and energy used
to drive cooling fans. As shown in [3], for a Global System
for Mobile Communications (GSM) BS, to provide 120W of
efficient output to antennas, the BS needs to be powered at
3802W. The overall efficiency is only 3.1%. Various solutions
are proposed to increase energy efficiency of the BS from
different aspects: increasing PA efficiency, using non-active
cooling techniques, using masthead PA to reduce feeder loss,
using energy efficient backhaul solutions, applying energy
efficient deployment strategies, and improving protocols for
energy efficiency.
This paper reviews soft methods to improve energy ef-
ficiency of wireless access networks, with a focus on BS
solutions in LTE systems. In LTE the BS is called eNobeB,
however we use the term BS through the paper. Moreover by
BS we mean a radio BS (RBS). Soft methods refer to solutions
based on changes in protocols, architecture, and deployment
strategies. Soft methods provide flexible and cost efficient
solutions with minimum impact on hardware. They are derived
from the fact that currently energy consumed by a BS does
not scale with its traffic load. By adapting the configuration
of a BS with the traffic load, significant energy saving can be
achieved.
The paper is organized as following. In the next section,
we provide a power consumption model of a GSM system
and highlight the power consumption of main components in
the system. We use this model to identify energy consumption
problem in similar systems. In Section III, the overview on
energy saving efforts in LTE standardization is summarized.
The advantages and disadvantages of the proposed solutions
are analyzed. A simple performance comparison is provided
to show efficiency of those solutions under a daily traffic
pattern. Since the study in Section III are mainly focused on
the BS side, in Section IV, new methods at the network and
system level are introduced. We believe those new methods
are promising to push energy efficiency of wireless systems
to a new level. To enable green wireless access systems, key
research problems are also summarized in Section IV. The
conclusion is drawn in Section V.
II. ENERGY CONSUMPTION MODEL OF BS
This section describes an energy consumption model for
wireless access network. The aim is to understand how energy
is consumed in a RBS of a wireless access network. Since
BSs consume most of energy in a wireless access network,
identifying energy consumption problems in a BS provides
clues for better energy saving solutions for the whole system.
We provide a generic model for BS and analyze power
consumption of a GSM BS. The reason for using reference
data from a GSM system is that we can easily get those data
from the public source. A Wideband Code Division Multiple
Access (WCDMA) or LTE BS is expected to have similar
order of power consumption as a GSM BS, although there is
a trend that new generation of BS consumes less power.
The energy consumption reference model is defined in
[4]. We only use the outdoor reference model here as the
main difference between outdoor and indoor model is the
climate control. As shown in Fig. 2, the reference model of
a BS is composed by a BS equipment and support system
infrastructure. A BS equipment is a network component which
serves one or more cells and interface the mobile station
through air interface and a wireless network infrastructure.
Transceivers and associated power amplifiers are included in
a BS equipment. The support system of a BS includes power
supply, climate control for temperature control, transmission
module connected to core network, and battery backup. The
power loss of the battery backup is not taken into account in
this model.
AC/DC
power
supply
Climate
control
Battery back-up
(excluded in model)
Transmission/
aux (optional)
RF interface
Network
Power
interface
RBS equipment – outdoor system
3802W
85%
efficiency
Cable efficiency
99%
500W
300W
2400W 12 transceivers
Output
10W X12Transceivers
PA
idle
140W X 12
60W X12
40W X 12
Fig. 2. Energy consumption reference model for BS. (Note: Values in italic
are power consumption figures in GSM system.)
As seen from Fig. 2, for a GSM system with 12 transceivers,
the feeding power from the AC power supply is 3802W. For
each transceiver, the input power is 200W, among which 60W
is consumed at idle time and 140W is used for transmission.
The output power after a power amplifier is 40W, and the final
power sent over air is only 10W. We can easily get in this case
the PAs consumes 70% of the whole power, PA efficiency is
28%, and overall efficiency of the BS is only 3.1%. For a 3G
BS, PA efficiency can be 45% and overall efficiency of a 3G
BS is less than 12%. PA efficiency is still the main problem
for overall energy efficiency.
It is clear that the PA is the main concern in energy efficient
solutions for the BS. Physical constraints puts a significant
limit on PA efficiency. PA efficiency of 60% is now the
target by advanced power amplifier techniques. In addition to
continuously improve PA efficiency, the alternative way is to
switch off the PA when there is no traffic to transmit. Many
energy saving proposals for the BS fall into this category. We
will describe them in the next section.
4. to maintain the same Power Spectral Density (PSD), smaller
bandwidth requires less output power. The advantage of this
approach is that it is suitable for low traffic load. However,
this approach does not shut down the PA. As an operating
PA consumes much more than an inactive PA, the energy
saving from this approach may be marginal. Moreover, a PA
normally operates at an optimized point with a given output
power range. Reducing the output power will degrade the PA
efficiency and in turn the gain for energy saving.
Fig. 4. Bandwidth change with same power spectral density.
Carrier aggregation is the second approach used for fre-
quency domain energy saving. It assumes carriers are aggre-
gated to groups and served by an individual PA. The idea
is to shut down the associated PA when the corresponding
aggregated carriers are not scheduled for traffic. This approach
relies on the implementation of PAs in the BS. It is only
applicable to BS which has aggregated carries and has separate
PA attached to each carrier.
In general, frequency domain solutions have less impact to
UE. However, due to the constraints mentioned above, the
efficiency of frequency domain solutions is limited.
C. Spatial domain approaches
Reducing antenna number is the most common used energy
saving approach in the spatial domain. It is illustrated in Fig. 5.
In this case, if the branches of antenna are reduced from 4
to 1, energy consumption of transceivers is reduce to 1/4,
as PAs associated with those branches can be shut down.
Antenna number reduction approach can be used in the low
traffic condition. The reduction of antenna branches decreases
the total output power and makes cell size being shrunk.
Additional mechanism is needed to maintain the strength of
control signals at the cell edge. The bandwidth reduction
approach can be applied here as less bandwidth requires less
power. The antenna number reduction approach may lead to
service degradation or interruption as the antenna reconfigu-
ration causes delay. It is suggested to use this approach for
semi-static load.
The cell switch-off approach [8] is a system level approach
which works in an area covered by multiple cells. The system
level approach means there is no need to modify the low layer
components in the BS. When the traffic load in a given area
is low, some cells can be shut down and the served UEs
are handed over to remaining working cells. Those inactive
cells can be turned on again during the busy time. There are
two ways to switch on/off cells. One is the signaling directly
between BSs. The other is the dedicated control from the
Fig. 5. Reduce antenna number for energy saving.
Operations, Administration, and Maintenance (OAM) layer of
the system.
A special case of the cell switch-off approach is called
the hierarchical cell structure (HCS) approach [9], in which
always-on macrocells are deployed for basic coverage and
small cells are used for capacity boost. Cells for capacity boost
only operate when the traffic load is high in macrocells.
While the cell switch-off approach tries to make a good
balance between performance and energy saving, it has limi-
tations. Firstly, frequently switching on/off cells affects ser-
vices in UEs. Its usage should be limited to a semi-static
manner. Secondly, switching off cells may reduce the battery
life of served UEs as they have to connect other cells far
away. Thirdly, if switching off a cell creates uncovered area,
remaining active neighboring cells need to increase their power
to cover this area. This may make the energy saving gain
become marginal.
D. Performance comparison
We use the result from [5] to show the actual performance
of different energy saving approaches under a realistic daily
traffic pattern. The daily traffic pattern is shown in Fig. 6,
which includes 7 hours of low load time and 2 hours of idle
time. It should be noted that different traffic patterns lead to
different performance results.
Relativetrafficdistribution
0.2
0.4
0.6
0.8
1
Time (hour)
20 4 6 8 10 12 14 16 18 20 22
Fig. 6. Daily downlink traffic load pattern.
Fig. 7 shows the relative energy saving performance of
different approaches as compared to the full load case. The
energy saving approaches for no load scenarios, which are
extended cell DTX and MBSFN for no load, achieve energy
6. ACKNOWLEDGEMENT
The work from the author of VTT was supported by the
JADE project, which was partly funded by Finnish Funding
Agency for Technology and Innovation (DN 40474/09).
The work from the authors of Zhejiang University was
supported Key Project of the Office of Science and Technology
of Zhejiang Province (No. 2008C01051-3).
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