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LOAD BALANCING AND ENERGY EFFICIENCY IN WSN BY CLUSTER JOINING METHODIAEME Publication
In any WSN life of network is depending on life of sensor node. Thus, proper load balancing is very useful for improving life of network. The tree-based routing protocols like GSTEB used dynamic tree structures for routing without any formation of collections. In cases of larger networks, the scheme is not always feasible. In this proposed work cluster-based routing method is used. Cluster head is selected such that it should be close to the base station and should have maximum residential energy than other nodes selected for cluster formation. Size of cluster is controlled by using location-based cluster joining method such that nodes selects their nearest collection head based on the signal strength from cluster head and distance between node and cluster head. Nodes connect to head having the highest signal strength and closest to the base station, this minimizes size of cluster and reduces extra energy consumption. In addition to this cluster formation process starts only after availability of data due to an event. So proposed protocol performs better than existing tree based protocols like GSTEB in terms of energy efficiency
LOAD BALANCING AND ENERGY EFFICIENCY IN WSN BY CLUSTER JOINING METHODIAEME Publication
In any WSN life of network is depending on life of sensor node. Thus, proper load balancing is very useful for improving life of network. The tree-based routing protocols like GSTEB used dynamic tree structures for routing without any formation of collections. In cases of larger networks, the scheme is not always feasible. In this proposed work cluster-based routing method is used. Cluster head is selected such that it should be close to the base station and should have maximum residential energy than other nodes selected for cluster formation. Size of cluster is controlled by using location-based cluster joining method such that nodes selects their nearest collection head based on the signal strength from cluster head and distance between node and cluster head. Nodes connect to head having the highest signal strength and closest to the base station, this minimizes size of cluster and reduces extra energy consumption. In addition to this cluster formation process starts only after availability of data due to an event. So proposed protocol performs better than existing tree based protocols like GSTEB in terms of energy efficiency
DWDM-RAM: An Architecture for Data Intensive Service Enabled by Next Generati...Tal Lavian Ph.D.
An architecture is proposed for data-intensive services enabled by next generation dynamic optical networks. The architecture supports new data communication services that allow for coordinating extremely large sets of distributed data. The architecture allows for novel features including algorithms for optimizing and scheduling data transfers,methods for allocating and scheduling network resources, and an intelligent middleware platform that is capable of interfacing application level services to the underlying optical technologies. The significance of the architecture is twofold: 1) it encapsulates “optical network resources” into a service framework to support dynamically provisioned and advance scheduled data-intensive transport services, and 2) it establishes a generalized enabling framework for intelligent services and applications over next generation networks, not necessarily optical end-to-end. DWDM-RAM1 is an implementation version of the architecture, which is conceptual as well as experimental. This architecture has been implemented in prototype on OMNInet, which is an advanced experimental metro area optical testbed that is based on novel architecture, protocols, control plane services (Optical Dynamic Intelligent Network-ODIN2), and advanced photonic components. This paper presents the concepts behind the DWDM-RAM architecture and its design. The paper also describes an application scenario using the architecture’s data transfer service and network resource services over the agile OMNInet testbed.
Energy-aware strategy for data forwarding in IoT ecosystem IJECEIAES
The Internet of Things (IoT) is looming technology rapidly attracting many industries and drawing research attention. Although the scale of IoT-applications is very large, the capabilities of the IoT-devices are limited, especially in terms of energy. However, various research works have been done to alleviate these shortcomings, but the schemes introduced in the literature are complex and difficult to implement in practical scenarios. Therefore, considering the energy consumption of heterogeneous nodes in IoT eco-system, a simple energy-efficient routing technique is proposed. The proposed system has also employed an SDN controller that acts as a centralized manager to control and monitor network services, there by restricting the access of selfish nodes to the network. The proposed system constructs an analytical algorithm that provides reliable data transmission operations and controls energy consumption using a strategic mechanism where the path selection process is performed based on the remaining energy of adjacent nodes located in the direction of the destination node. The proposed energy-efficient data forwarding mechanism is compared with the existing AODV routing technique. The simulation result demonstrates that the protocol is superior to AODV in terms of packet delivery rate, throughput, and end-to-end delay.
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.
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.
LOAD BALANCING AND ENERGY EFFICIENCY IN WSN BY CLUSTER JOINING METHODIAEME Publication
In any WSN life of network is depending on life of sensor node. Thus, proper load balancing is very useful for improving life of network. The tree-based routing protocols like GSTEB used dynamic tree structures for routing without any formation of collections. In cases of larger networks, the scheme is not always feasible. In this proposed work cluster-based routing method is used. Cluster head is selected such that it should be close to the base station and should have maximum residential energy than other nodes selected for cluster formation. Size of cluster is controlled by using location-based cluster joining method such that nodes selects their nearest collection head based on the signal strength from cluster head and distance between node and cluster head. Nodes connect to head having the highest signal strength and closest to the base station, this minimizes size of cluster and reduces extra energy consumption. In addition to this cluster formation process starts only after availability of data due to an event. So proposed protocol performs better than existing tree based protocols like GSTEB in terms of energy efficiency
LOAD BALANCING AND ENERGY EFFICIENCY IN WSN BY CLUSTER JOINING METHODIAEME Publication
In any WSN life of network is depending on life of sensor node. Thus, proper load balancing is very useful for improving life of network. The tree-based routing protocols like GSTEB used dynamic tree structures for routing without any formation of collections. In cases of larger networks, the scheme is not always feasible. In this proposed work cluster-based routing method is used. Cluster head is selected such that it should be close to the base station and should have maximum residential energy than other nodes selected for cluster formation. Size of cluster is controlled by using location-based cluster joining method such that nodes selects their nearest collection head based on the signal strength from cluster head and distance between node and cluster head. Nodes connect to head having the highest signal strength and closest to the base station, this minimizes size of cluster and reduces extra energy consumption. In addition to this cluster formation process starts only after availability of data due to an event. So proposed protocol performs better than existing tree based protocols like GSTEB in terms of energy efficiency
DWDM-RAM: An Architecture for Data Intensive Service Enabled by Next Generati...Tal Lavian Ph.D.
An architecture is proposed for data-intensive services enabled by next generation dynamic optical networks. The architecture supports new data communication services that allow for coordinating extremely large sets of distributed data. The architecture allows for novel features including algorithms for optimizing and scheduling data transfers,methods for allocating and scheduling network resources, and an intelligent middleware platform that is capable of interfacing application level services to the underlying optical technologies. The significance of the architecture is twofold: 1) it encapsulates “optical network resources” into a service framework to support dynamically provisioned and advance scheduled data-intensive transport services, and 2) it establishes a generalized enabling framework for intelligent services and applications over next generation networks, not necessarily optical end-to-end. DWDM-RAM1 is an implementation version of the architecture, which is conceptual as well as experimental. This architecture has been implemented in prototype on OMNInet, which is an advanced experimental metro area optical testbed that is based on novel architecture, protocols, control plane services (Optical Dynamic Intelligent Network-ODIN2), and advanced photonic components. This paper presents the concepts behind the DWDM-RAM architecture and its design. The paper also describes an application scenario using the architecture’s data transfer service and network resource services over the agile OMNInet testbed.
Energy-aware strategy for data forwarding in IoT ecosystem IJECEIAES
The Internet of Things (IoT) is looming technology rapidly attracting many industries and drawing research attention. Although the scale of IoT-applications is very large, the capabilities of the IoT-devices are limited, especially in terms of energy. However, various research works have been done to alleviate these shortcomings, but the schemes introduced in the literature are complex and difficult to implement in practical scenarios. Therefore, considering the energy consumption of heterogeneous nodes in IoT eco-system, a simple energy-efficient routing technique is proposed. The proposed system has also employed an SDN controller that acts as a centralized manager to control and monitor network services, there by restricting the access of selfish nodes to the network. The proposed system constructs an analytical algorithm that provides reliable data transmission operations and controls energy consumption using a strategic mechanism where the path selection process is performed based on the remaining energy of adjacent nodes located in the direction of the destination node. The proposed energy-efficient data forwarding mechanism is compared with the existing AODV routing technique. The simulation result demonstrates that the protocol is superior to AODV in terms of packet delivery rate, throughput, and end-to-end delay.
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.
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.
ENERGY SAVINGS IN APPLICATIONS FOR WIRELESS SENSOR NETWORKS TIME CRITICAL REQ...IJCNCJournal
Along with handling and poor storage capacity, each sensor in wireless sensor network (WSN) is equipped
with a limited power source and very difficult to be replaced in most application environments. Improving
the energy savings in applications for wireless sensor networks is necessary. In this paper, we mainly focus
on energy consumption savings in applications for wireless sensor networks time critical requirements. Our
Paper accompanying analysis of advanced technologies for energy saving techniques for the optimization
of energy efficiency together with the data transmission is optimal. Moreover, we propose improvements to
increase energy savings in applications for wireless sensor networks require time critical (LEACH
improvements). Simulation results show that our proposed protocol significantly better than LEACH about
the formation of clusters in each round, the average power, the number of nodes alive and average total
received data in base stations.
Approach to minimizing consumption of energy in wireless sensor networks IJECEIAES
The Wireless Sensor Networks (WSN) technology has benefited from a central position in the research space of future emerging networks by its diversity of applications fields and also by its optimization techniques of its various constraints, more essentially, the minimization of nodal energy consumption to increase the global network lifetime. To answer this saving energy problem, several solutions have been proposed at the protocol stack level of the WSN. In this paper, after presenting a state of the art of this technology and its conservation energy techniques at the protocol stack level, we were interested in the network layer to propose a routing solution based on a localization aspect that allows the creation of a virtual grid on the coverage area and introduces it to the two most well-known energy efficiency hierarchical routing protocols, LEACH and PEGASIS. This allowed us to minimize the energy consumption and to select the clusters heads in a deterministic way unlike LEACH which is done in a probabilistic way and also to minimize the latency in PEGASIS, by decomposing its chain into several independent chains. The simulation results, under "MATLABR2015b", have shown the efficiency of our approach in terms of overall residual energy and network lifetime.
Load Balance in Data Center SDN Networks IJECEIAES
In the last two decades, networks had been changed according to the rapid changing in its requirements. The current Data Center Networks have large number of hosts (tens or thousands) with special needs of bandwidth as the cloud network and the multimedia content computing is increased. The conventional Data Center Networks (DCNs) are highlighted by the increased number of users and bandwidth requirements which in turn have many implementation limitations. The current networking devices with its control a nd forwarding planes coupling result in network architectures are not suitable for dynamic computing and storage needs. Software Defined networking (SDN) is introduced to change this notion of traditional networks by decoupling control and forwarding planes. So, due to the rapid increase in the number of applications, websites, storage space, and some of the network resources are being underutilized due to static routing mechanisms. To overcome these limitations, a Software Defined Network based Openflow Data Center network architecture is used to obtain better performance parameters and implementing traffic load balancing function. The load balancing distributes the traffic requests over the connected servers, to diminish network congestions, and reduce un derutilization problem of servers. As a result, SDN is developed to afford more effective configuration, enhanced performance, and more flexibility to deal with huge network designs.
A Novel Weighted Clustering Based Approach for Improving the Wireless Sensor ...IJERA Editor
Great lifetime and reliability is the key aim of Wireless Sensor Network (WSN) design. As for prolonging
lifetime of this type of network, energy is the most important resource; all recent researches are focused on more
and more energy efficient techniques. Proposed work is Weighted Clustering Approach based on Weighted
Cluster Head Selection, which is highly energy efficient and reliable in mobile network scenario. Weight
calculation using different attributes of the nodes like SNR (Signal to Noise Ratio), Remaining Energy, Node
Degree, Mobility, and Buffer Length gives efficient Cluster Head (CH) on regular interval of time. CH rotation
helps in optimum utilization of energy available with all nodes; results in prolonged network lifetime.
Implementation is done using the NS2 network simulator and performance evaluation is carried out in terms of
PDR (Packet Delivery Ratio), End to End Delay, Throughput, and Energy Consumption. Demonstration of the
obtained results shows that proposed work is adaptable for improving the performance. In order to justify the
solution, the performance of proposed technique is compared with the performance of traditional approach. The
performance of proposed technique is found optimum as compared to the traditional techniques.
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Active Network is a novel approach of networking to mobile users in which the nodes are programmed to perform custom operations on the messages that pass through the node. It provides an architectural support for dynamically deploying new protocols in an existing network topology. The routers in an active network can download and execute code that is contained in the packets passing through them, thus rendering the node recognized and run totally new protocols without making any changes to the architecture of the network. Because the network's behavior can be altered at any time, active networks could be used to provide dynamic quality of service (QoS) or to support dynamic solutions to traffic congestion. This research implements and tests such specialized Active Networks security service known as the firewall and the ping service in Active Network. Active Network environment will be implemented on a small scale test scenario in order to study the performance and characteristics of active networks
CUTTING DOWN ENERGY USAGE IN WIRELESS SENSOR NETWORKS USING DUTY CYCLE TECHNI...ijwmn
A wireless sensor network is composed of many sensor nodes, that have beengiven out in a
specific zoneandeach of them hadanability of collecting information from the environment and
sending collected data to the sink. The most significant issues in wireless sensor networks,
despite the recent progress is the trouble of the severe limitations of energy resources.Since that
in different applications of sensor nets, we could throw a static or mobile sink, then all aspects of
such networks should be planned with an awareness of energy.One of the most significant topics
related to these networks, is routing. One of the most widely used and efficient methods of
routing isa hierarchy (based on clustering) method.
CUTTING DOWN ENERGY USAGE IN WIRELESS SENSOR NETWORKS USING DUTY CYCLE TECHNI...ijwmn
A wireless sensor network is composed of many sensor nodes, that have beengiven out in a
specific zoneandeach of them hadanability of collecting information from the environment and
sending collected data to the sink. The most significant issues in wireless sensor networks,
despite the recent progress is the trouble of the severe limitations of energy resources.Since that
in different applications of sensor nets, we could throw a static or mobile sink, then all aspects of
such networks should be planned with an awareness of energy.One of the most significant topics
related to these networks, is routing. One of the most widely used and efficient methods of
routing isa hierarchy (based on clustering) method.
In The present study with the objective of cutting down energy consumption and persistence of
network coverage, we have offered a novel algorithm based on clustering algorithms and multihop routing.To achieve this goal, first, we layer the network environment based on the size of the
network.We will identify the optimal number of cluster heads and every cluster head based on
the mechanism of topology control will start to accept members.Likewise, we set the first layer
as gate layer and subsequently identifying the gate’s nodes, we’d turn away half of the sensors
and then stop using energy and the remaining nodes in this layer will join the gate’s nodes
because they hold a critical part in bettering the functioning of the system. Cluster heads off
following layers send the information to cluster heads in the above layer until sent data will be
sent to gate’s nodes and finally will be sent to sink. We have tested the proposed algorithm in
two situations 1) when the sink is off and 2)when a sink is on and simulation data shows that
proposed algorithm has better performance in terms of the life span of a network than LEACH
and ELEACH protocols.
Dynamic resource allocation for opportunistic software-defined IoT networks: s...IJECEIAES
Several wireless technologies have recently emerged to enable efficient and scalable Internet-of-Things (IoT) networking. Cognitive radio (CR) technology, enabled by software-defined radios, is considered one of the main IoT-enabling technologies that can provide opportunistic wireless access to a large number of connected IoT devices. An important challenge in this domain is how to dynamically enable IoT transmissions while achieving efficient spectrum usage with a minimum total power consumption under interference and traffic demand uncertainty. Toward this end, we propose a dynamic bandwidth/channel/power allocation algorithm that aims at maximizing the overall network’s throughput while selecting the set of power resulting in the minimum total transmission power. This problem can be formulated as a two-stage binary linear stochastic programming. Because the interference over different channels is a continuous random variable and noting that the interference statistics are highly correlated, a suboptimal sampling solution is proposed. Our proposed algorithm is an adaptive algorithm that is to be periodically conducted over time to consider the changes of the channel and interference conditions. Numerical results indicate that our proposed algorithm significantly increases the number of simultaneous IoT transmissions compared to a typical algorithm, and hence, the achieved throughput is improved.
Throughput analysis of energy aware routing protocol for real time load distr...eSAT Journals
Abstract Wireless sensor network (WSNs) are self-organized systems that depend on highly distributed and scattered low cost tiny devices. These devices have some limitations such as processing capability, memory size, communication distance coverage and energy capabilities. In order to maximize the autonomy of individual nodes and indirectly the lifetime of the network, most of the research work is done on power saving techniques. Hence, we propose energy-aware load distribution technique that can provide an excellent data transfer of packets from source to destination via hop by hop basis. Therefore, by making use of the cross-layer interactions between the physical layer and the network layer thus leads to an improvement in energy efficiency of the entire network when compared with other protocols and it also improves the response time in case of network change. Keywords:- wireless sensor network, energy-aware, load distribution, power saving, cross layer interactions.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
DWDM-RAM: Enabling Grid Services with Dynamic Optical NetworksTal Lavian Ph.D.
Advances in Grid technology enable the deployment of data-intensive distributed applications, which require moving Terabytes or even Petabytes of data
between data banks. The current underlying networks cannot provide dedicated links with adequate end-to-end sustained bandwidth to support the requirements of these Grid applications. DWDM-RAM1 is a novel service-oriented architecture, which harnesses the enormous bandwidth potential of optical networks and demonstrates their on-demand nsage on the OMNlnet. Preliminary experiments suggest that dynamic optical networks, such as the OMNlnet, are the ideal option for transferring such massive amounts of data. DWDM-RAM incorporates an OGSI/OGSA compliant service interface and will promote greater convergence between dynamic optical networks and data intensive Grid computing.
Routing Optimization with Load Balancing: an Energy Efficient ApproachEswar Publications
The area of Wireless Sensor Network (WSN) is covered with considerable range of problems, where majority of research attempts were carried out to enhance the network lifetime of WSN. But very few of the studies have proved successful. This manuscript discusses about a structure for optimizing routing and load balancing that uses standard radio and energy model to perform energy optimization by introducing a novel routing agent. The routing agent is built within aggregator node and base station to perform self motivated reconfiguration in case of energy depletion. Compared with standard LEACH algorithm, the proposed technique has better energy efficiency within optimal data aggregation duration.
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.
Traffic management inside software-defined data centre networkingjournalBEEI
In recent years, data centre (DC) networks have improved their rapid exchanging abilities. Software-defined networking (SDN) is presented to alternate the impression of conventional networks by segregating the control plane from the SDN data plane. The SDN presented overcomes the limitations of traditional DC networks caused by the rapidly incrementing amounts of apps, websites, data storage needs, etc. Software-defined networking data centres (SDN-DC), based on the open-flow (OF) protocol, are used to achieve superior behaviour for executing traffic load-balancing (LB) jobs. The LB function divides the traffic-flow demands between the end devices to avoid links congestion. In short, SDN is proposed to manage more operative configurations, efficient enhancements and further elasticity to handle massive network schemes. In this paper the opendaylight controller (ODL-CO) with new version OF 1.4 protocol and the ant colony optimization algorithm is proposed to test the performance of the LB function using IPv6 in a SDN-DC network by studying the throughput, data transfer, bandwidth and average delay performance of the networking parameters before and after use of the LB algorithm. As a result, after applying the LB, the throughput, data transfer and bandwidth performance increased, while the average delay decreased.
Energy Behavior in Ad Hoc Network Minimizing the Number of Hops and Maintaini...CSCJournals
Wireless ad-hoc mesh network is a special kind of network, where all of the nodes move in time. The topology of the network changes as the nodes are in the proximity of each other. Ad-hoc networks are generally self-configuring no stable infrastructure takes a place. In this network, each node should help relaying packets of neighboring nodes using multi-hop routing mechanism. This mechanism is needed to reach far destination nodes to solve problem of dead communication. This multiple traffic "hops" within a wireless mesh network caused dilemma. Wireless mesh network that contain multiple hops become increasingly vulnerable to problems such as energy degradation and rapid increasing of overhead packets. This paper provides a generic routing framework that balances energy efficient broadcast schemes in Wireless (Ad-Hoc) Mesh Network and maintaining connectivity of nodes (mobile terminals). Typically, each node’s activities will consume energy, either for sending packets, receiving or preparing/processing packets. Number of hops, distance of nodes, and size of packet will determine the consumption of energy. The framework is based on the principle that additional relay nodes with appropriate energy and routing metric between source and final destination significantly reduces the energy consumption necessary to deliver packets in Wireless (Ad-Hoc) Mesh Network while keep the connectivity of dynamic nodes. Using the framework, the average network connectivity is kept 18% higher and the lifetime of network lasting more than 2.38% compared with network with Link State Routing mechanism. The simulation notes that the end-to-end delay may increase rapidly if relay nodes are more than five.
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ENERGY SAVINGS IN APPLICATIONS FOR WIRELESS SENSOR NETWORKS TIME CRITICAL REQ...IJCNCJournal
Along with handling and poor storage capacity, each sensor in wireless sensor network (WSN) is equipped
with a limited power source and very difficult to be replaced in most application environments. Improving
the energy savings in applications for wireless sensor networks is necessary. In this paper, we mainly focus
on energy consumption savings in applications for wireless sensor networks time critical requirements. Our
Paper accompanying analysis of advanced technologies for energy saving techniques for the optimization
of energy efficiency together with the data transmission is optimal. Moreover, we propose improvements to
increase energy savings in applications for wireless sensor networks require time critical (LEACH
improvements). Simulation results show that our proposed protocol significantly better than LEACH about
the formation of clusters in each round, the average power, the number of nodes alive and average total
received data in base stations.
Approach to minimizing consumption of energy in wireless sensor networks IJECEIAES
The Wireless Sensor Networks (WSN) technology has benefited from a central position in the research space of future emerging networks by its diversity of applications fields and also by its optimization techniques of its various constraints, more essentially, the minimization of nodal energy consumption to increase the global network lifetime. To answer this saving energy problem, several solutions have been proposed at the protocol stack level of the WSN. In this paper, after presenting a state of the art of this technology and its conservation energy techniques at the protocol stack level, we were interested in the network layer to propose a routing solution based on a localization aspect that allows the creation of a virtual grid on the coverage area and introduces it to the two most well-known energy efficiency hierarchical routing protocols, LEACH and PEGASIS. This allowed us to minimize the energy consumption and to select the clusters heads in a deterministic way unlike LEACH which is done in a probabilistic way and also to minimize the latency in PEGASIS, by decomposing its chain into several independent chains. The simulation results, under "MATLABR2015b", have shown the efficiency of our approach in terms of overall residual energy and network lifetime.
Load Balance in Data Center SDN Networks IJECEIAES
In the last two decades, networks had been changed according to the rapid changing in its requirements. The current Data Center Networks have large number of hosts (tens or thousands) with special needs of bandwidth as the cloud network and the multimedia content computing is increased. The conventional Data Center Networks (DCNs) are highlighted by the increased number of users and bandwidth requirements which in turn have many implementation limitations. The current networking devices with its control a nd forwarding planes coupling result in network architectures are not suitable for dynamic computing and storage needs. Software Defined networking (SDN) is introduced to change this notion of traditional networks by decoupling control and forwarding planes. So, due to the rapid increase in the number of applications, websites, storage space, and some of the network resources are being underutilized due to static routing mechanisms. To overcome these limitations, a Software Defined Network based Openflow Data Center network architecture is used to obtain better performance parameters and implementing traffic load balancing function. The load balancing distributes the traffic requests over the connected servers, to diminish network congestions, and reduce un derutilization problem of servers. As a result, SDN is developed to afford more effective configuration, enhanced performance, and more flexibility to deal with huge network designs.
A Novel Weighted Clustering Based Approach for Improving the Wireless Sensor ...IJERA Editor
Great lifetime and reliability is the key aim of Wireless Sensor Network (WSN) design. As for prolonging
lifetime of this type of network, energy is the most important resource; all recent researches are focused on more
and more energy efficient techniques. Proposed work is Weighted Clustering Approach based on Weighted
Cluster Head Selection, which is highly energy efficient and reliable in mobile network scenario. Weight
calculation using different attributes of the nodes like SNR (Signal to Noise Ratio), Remaining Energy, Node
Degree, Mobility, and Buffer Length gives efficient Cluster Head (CH) on regular interval of time. CH rotation
helps in optimum utilization of energy available with all nodes; results in prolonged network lifetime.
Implementation is done using the NS2 network simulator and performance evaluation is carried out in terms of
PDR (Packet Delivery Ratio), End to End Delay, Throughput, and Energy Consumption. Demonstration of the
obtained results shows that proposed work is adaptable for improving the performance. In order to justify the
solution, the performance of proposed technique is compared with the performance of traditional approach. The
performance of proposed technique is found optimum as compared to the traditional techniques.
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Active Network is a novel approach of networking to mobile users in which the nodes are programmed to perform custom operations on the messages that pass through the node. It provides an architectural support for dynamically deploying new protocols in an existing network topology. The routers in an active network can download and execute code that is contained in the packets passing through them, thus rendering the node recognized and run totally new protocols without making any changes to the architecture of the network. Because the network's behavior can be altered at any time, active networks could be used to provide dynamic quality of service (QoS) or to support dynamic solutions to traffic congestion. This research implements and tests such specialized Active Networks security service known as the firewall and the ping service in Active Network. Active Network environment will be implemented on a small scale test scenario in order to study the performance and characteristics of active networks
CUTTING DOWN ENERGY USAGE IN WIRELESS SENSOR NETWORKS USING DUTY CYCLE TECHNI...ijwmn
A wireless sensor network is composed of many sensor nodes, that have beengiven out in a
specific zoneandeach of them hadanability of collecting information from the environment and
sending collected data to the sink. The most significant issues in wireless sensor networks,
despite the recent progress is the trouble of the severe limitations of energy resources.Since that
in different applications of sensor nets, we could throw a static or mobile sink, then all aspects of
such networks should be planned with an awareness of energy.One of the most significant topics
related to these networks, is routing. One of the most widely used and efficient methods of
routing isa hierarchy (based on clustering) method.
CUTTING DOWN ENERGY USAGE IN WIRELESS SENSOR NETWORKS USING DUTY CYCLE TECHNI...ijwmn
A wireless sensor network is composed of many sensor nodes, that have beengiven out in a
specific zoneandeach of them hadanability of collecting information from the environment and
sending collected data to the sink. The most significant issues in wireless sensor networks,
despite the recent progress is the trouble of the severe limitations of energy resources.Since that
in different applications of sensor nets, we could throw a static or mobile sink, then all aspects of
such networks should be planned with an awareness of energy.One of the most significant topics
related to these networks, is routing. One of the most widely used and efficient methods of
routing isa hierarchy (based on clustering) method.
In The present study with the objective of cutting down energy consumption and persistence of
network coverage, we have offered a novel algorithm based on clustering algorithms and multihop routing.To achieve this goal, first, we layer the network environment based on the size of the
network.We will identify the optimal number of cluster heads and every cluster head based on
the mechanism of topology control will start to accept members.Likewise, we set the first layer
as gate layer and subsequently identifying the gate’s nodes, we’d turn away half of the sensors
and then stop using energy and the remaining nodes in this layer will join the gate’s nodes
because they hold a critical part in bettering the functioning of the system. Cluster heads off
following layers send the information to cluster heads in the above layer until sent data will be
sent to gate’s nodes and finally will be sent to sink. We have tested the proposed algorithm in
two situations 1) when the sink is off and 2)when a sink is on and simulation data shows that
proposed algorithm has better performance in terms of the life span of a network than LEACH
and ELEACH protocols.
Dynamic resource allocation for opportunistic software-defined IoT networks: s...IJECEIAES
Several wireless technologies have recently emerged to enable efficient and scalable Internet-of-Things (IoT) networking. Cognitive radio (CR) technology, enabled by software-defined radios, is considered one of the main IoT-enabling technologies that can provide opportunistic wireless access to a large number of connected IoT devices. An important challenge in this domain is how to dynamically enable IoT transmissions while achieving efficient spectrum usage with a minimum total power consumption under interference and traffic demand uncertainty. Toward this end, we propose a dynamic bandwidth/channel/power allocation algorithm that aims at maximizing the overall network’s throughput while selecting the set of power resulting in the minimum total transmission power. This problem can be formulated as a two-stage binary linear stochastic programming. Because the interference over different channels is a continuous random variable and noting that the interference statistics are highly correlated, a suboptimal sampling solution is proposed. Our proposed algorithm is an adaptive algorithm that is to be periodically conducted over time to consider the changes of the channel and interference conditions. Numerical results indicate that our proposed algorithm significantly increases the number of simultaneous IoT transmissions compared to a typical algorithm, and hence, the achieved throughput is improved.
Throughput analysis of energy aware routing protocol for real time load distr...eSAT Journals
Abstract Wireless sensor network (WSNs) are self-organized systems that depend on highly distributed and scattered low cost tiny devices. These devices have some limitations such as processing capability, memory size, communication distance coverage and energy capabilities. In order to maximize the autonomy of individual nodes and indirectly the lifetime of the network, most of the research work is done on power saving techniques. Hence, we propose energy-aware load distribution technique that can provide an excellent data transfer of packets from source to destination via hop by hop basis. Therefore, by making use of the cross-layer interactions between the physical layer and the network layer thus leads to an improvement in energy efficiency of the entire network when compared with other protocols and it also improves the response time in case of network change. Keywords:- wireless sensor network, energy-aware, load distribution, power saving, cross layer interactions.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
DWDM-RAM: Enabling Grid Services with Dynamic Optical NetworksTal Lavian Ph.D.
Advances in Grid technology enable the deployment of data-intensive distributed applications, which require moving Terabytes or even Petabytes of data
between data banks. The current underlying networks cannot provide dedicated links with adequate end-to-end sustained bandwidth to support the requirements of these Grid applications. DWDM-RAM1 is a novel service-oriented architecture, which harnesses the enormous bandwidth potential of optical networks and demonstrates their on-demand nsage on the OMNlnet. Preliminary experiments suggest that dynamic optical networks, such as the OMNlnet, are the ideal option for transferring such massive amounts of data. DWDM-RAM incorporates an OGSI/OGSA compliant service interface and will promote greater convergence between dynamic optical networks and data intensive Grid computing.
Routing Optimization with Load Balancing: an Energy Efficient ApproachEswar Publications
The area of Wireless Sensor Network (WSN) is covered with considerable range of problems, where majority of research attempts were carried out to enhance the network lifetime of WSN. But very few of the studies have proved successful. This manuscript discusses about a structure for optimizing routing and load balancing that uses standard radio and energy model to perform energy optimization by introducing a novel routing agent. The routing agent is built within aggregator node and base station to perform self motivated reconfiguration in case of energy depletion. Compared with standard LEACH algorithm, the proposed technique has better energy efficiency within optimal data aggregation duration.
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.
Traffic management inside software-defined data centre networkingjournalBEEI
In recent years, data centre (DC) networks have improved their rapid exchanging abilities. Software-defined networking (SDN) is presented to alternate the impression of conventional networks by segregating the control plane from the SDN data plane. The SDN presented overcomes the limitations of traditional DC networks caused by the rapidly incrementing amounts of apps, websites, data storage needs, etc. Software-defined networking data centres (SDN-DC), based on the open-flow (OF) protocol, are used to achieve superior behaviour for executing traffic load-balancing (LB) jobs. The LB function divides the traffic-flow demands between the end devices to avoid links congestion. In short, SDN is proposed to manage more operative configurations, efficient enhancements and further elasticity to handle massive network schemes. In this paper the opendaylight controller (ODL-CO) with new version OF 1.4 protocol and the ant colony optimization algorithm is proposed to test the performance of the LB function using IPv6 in a SDN-DC network by studying the throughput, data transfer, bandwidth and average delay performance of the networking parameters before and after use of the LB algorithm. As a result, after applying the LB, the throughput, data transfer and bandwidth performance increased, while the average delay decreased.
Energy Behavior in Ad Hoc Network Minimizing the Number of Hops and Maintaini...CSCJournals
Wireless ad-hoc mesh network is a special kind of network, where all of the nodes move in time. The topology of the network changes as the nodes are in the proximity of each other. Ad-hoc networks are generally self-configuring no stable infrastructure takes a place. In this network, each node should help relaying packets of neighboring nodes using multi-hop routing mechanism. This mechanism is needed to reach far destination nodes to solve problem of dead communication. This multiple traffic "hops" within a wireless mesh network caused dilemma. Wireless mesh network that contain multiple hops become increasingly vulnerable to problems such as energy degradation and rapid increasing of overhead packets. This paper provides a generic routing framework that balances energy efficient broadcast schemes in Wireless (Ad-Hoc) Mesh Network and maintaining connectivity of nodes (mobile terminals). Typically, each node’s activities will consume energy, either for sending packets, receiving or preparing/processing packets. Number of hops, distance of nodes, and size of packet will determine the consumption of energy. The framework is based on the principle that additional relay nodes with appropriate energy and routing metric between source and final destination significantly reduces the energy consumption necessary to deliver packets in Wireless (Ad-Hoc) Mesh Network while keep the connectivity of dynamic nodes. Using the framework, the average network connectivity is kept 18% higher and the lifetime of network lasting more than 2.38% compared with network with Link State Routing mechanism. The simulation notes that the end-to-end delay may increase rapidly if relay nodes are more than five.
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1. See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/321952636
Lightpath Management in SDN-Based Elastic Optical Networks With Power
Consumption Considerations
Article in Journal of Lightwave Technology · May 2018
DOI: 10.1109/JLT.2017.2785410
CITATIONS
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Chongqing University of Posts and Telecommunications
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2. 0733-8724 (c) 2017 IEEE. Personal use is permitted, but republication/redistribution requires IEEE permission. See http://www.ieee.org/publications_standards/publications/rights/index.html for more information.
This article has been accepted for publication in a future issue of this journal, but has not been fully edited. Content may change prior to final publication. Citation information: DOI 10.1109/JLT.2017.2785410, Journal of
Lightwave Technology
1
Lightpath Management in SDN-Based Elastic
Optical Networks with Power Consumption
Considerations
Yu Xiong1,2, Jin Shi1, Yaya Yang1, Yi Lv1, George N. Rouskas2,3
1Key Laboratory of Optical Communication and Networks,
Chongqing University of Posts and Telecommunications, Chongqing, China
2Department of Computer Science, North Carolina State University, Raleigh, NC, USA
3Department of Computer Science, King Abdulaziz University, Jeddah, Saudi Arabia
Abstract—Elastic optical networks (EONs) are increasingly
used to interconnect data centers. As inter-datacenter traffic is
expected to continue to grow at high rates for the foreseeable
future, it becomes imperative to address the respective growth
in power consumption within EONs. In this paper, we take
the first steps towards enhancing the energy efficiency of inter-
datacenter EONs. Specifically, we use traffic prediction tech-
niques for centralized lightpath management that leverages the
capabilities of software defined networking (SDN) technology.
Our objective is to eliminate unnecessary lightpath termination
and re-establishment operations, and in turn decrease switching
power consumption within the network. Our evaluation study
confirms that the proposed algorithm is effective in achieving
substantial savings in power consumption while maintaining a
bandwidth blocking ratio at levels comparable to those of earlier
algorithms.
Index Terms—Elastic optical networks, lightpath management,
traffic prediction, energy efficiency, switching power, software
defined networking.
I. INTRODUCTION
WITH the proliferation of cloud computing, data center
(DC) technology and facilities that provide information
storage and processing, have emerged as the key infrastructure
for supporting essential Internet functionality and services.
The rapid growth in Internet users, the explosive increase
of traffic demands, and the continuous evolution of service
models necessitate an increase in the scale of DC facilities,
which in turn leads to higher requirements in terms of inter-DC
communication to support data backup, data synchronization,
and collaboration between different DCs. The demands placed
on inter-DC communication call for appropriate network tech-
nologies to interconnect DCs effectively and efficiently.
Elastic optical networks (EONs) [1], [2] are widely regarded
as the most promising technology for interconnecting DCs,
and have been studied extensively. EONs utilize bandwidth
variable optical transponders (BV-OT) and bandwidth variable
optical cross-connects (BV-OXC) that operate on a set of
spectrally-contiguous frequency slots to set up lightpaths.
Since these frequency slots occupy a much narrower band-
width than the conventional wavelength channels, EONs can
provision bandwidth adaptively according to actual traffic
demands [3], and hence may meet the requirements of DC
traffic. At the same time, the technological heterogeneity and
resource diversity between DC and EONs presents a challenge.
In order to control the heterogeneous resources uniformly
and implement a common overall network management and
control strategy, software defined networking (SDN) enabled
by the OpenFlow protocol has been introduced into the optical
network [4]. The SDN is a virtualization technology that
abstracts heterogeneous resources via a unified interface and
applies centralized control. At the same time, SDN support-
s programmability of network functionalities and protocols,
which provide a high degree of flexibility for the functions
and services with a global view. Therefore, operators consider
the application of SDN techniques to control globally network
and application resources in DCs and EONs interconnecting
them [5].
The accelerating growth of DC traffic means that the power
consumption of the inter- and intra-DC networks becomes
more prominent and a significant fraction of the power con-
sumed by servers [6]. In fact, how to effectively reduce the
power consumption of EONs is a topic that has received signif-
icant attention within the research community recently [7]. For
instance, a set of power management primitives for network
elements were introduced in [8]; these primitives are used to
monitor traffic load conditions and turn off network elements
(e.g., transponders, etc.) during idle periods. In this manner,
power consumption due to elements that are active unneces-
sarily may be avoided. On the other hand, when a network
element in the off state receives new work, a long wake-up
time may be incurred before it returns to fully operational
status, introducing an undesirable delay in responding to new
traffic demands. Therefore, it may be unwise to keep the entire
element in sleep status. To address this issue, a fine-grained
energy-efficient consolidation strategy was presented in [9]
that applies a sleeping scheme at the level of an element’s
components. Specifically, with this strategy, some components
of an element (e.g., transponder) are kept in a working state
while others are kept in sleep mode, so that the transponder
with the active part can respond to newly arriving requests in
a timely manner without incurring a wake-up delay. However,
since the capacity of traditional transponders is higher than
the bandwidth requested by a typical connection, the result
is lower lightpath utilization. The work in [10] introduced a
sliceable-transponder that can divide a physical transponder
3. 0733-8724 (c) 2017 IEEE. Personal use is permitted, but republication/redistribution requires IEEE permission. See http://www.ieee.org/publications_standards/publications/rights/index.html for more information.
This article has been accepted for publication in a future issue of this journal, but has not been fully edited. Content may change prior to final publication. Citation information: DOI 10.1109/JLT.2017.2785410, Journal of
Lightwave Technology
2
into multiple sub-transponders, each of which can transmit
or receive an independent elastic lightpath. The flexibility of
transponder provisioning can be achieved in this way so that
it can save much power. However, it should be noted that the
transponders which can be sliced are generally more expensive
than those that do not have this functionality and using more
of them will increase the overall network cost.
At the traditional transponder level, the authors of [11] pro-
posed an algorithm named energy-efficient manycast (EEM)
to minimize the power consumption by jointly considering the
network elements, including BV-OT, BV-OXC, erbium doped
fiber amplifier (EDFA) and IP Router. In this study, it was
shown that the power savings can be significant when all the
network elements contributing to power consumption are taken
into consideration. The authors of [12] proposed an algorithm
named dynamic scheduling and distance adaptive transmission
(DS+DAT) to exploit the over-provisioning capacity in EONs
under SDN architecture. The DS+DAT scheme provisions just
enough transponders and grooms estimated future traffic to
these transponders; the future traffic is estimated by applying
an auto-regressive integrated moving average method. As a
result, both the amount of lightpaths and the number of
transponders are reduced, saving power.
It has been estimated [13] that the amount of power
consumed due to frequent establishment of lightpaths con-
tributes to up to 15% of the average power consumption in
realistic scenarios. Existing power management strategies for
EONs, including the ones discussed above, do not address
this aspect: lightpaths are torn down as soon as they become
idle, even if future traffic demands might make use of these
lightpaths. The premise of our work is that delaying the
tearing down of lightpaths in anticipation of future traffic
demands will lead to less frequent establishment of lightpaths
in the network, cutting down on power consumption. Thus,
our work makes three contributions. First, we develop a
power consumption model that takes into consideration power
consuming resources in both the EON and DCs, and also
accounts for the power consumed in setting up lightpaths.
Second, we develop a model for predicting future traffic
demands by combining concepts from back propagation (BP),
neural networks and improved particle swarm optimization
(IPSO). Finally, we propose a new, parameterized, power-
aware lightpath management (PALM) algorithm that extends
the lifetime of idle lightpaths with the goal of serving future
demands and avoiding the establishment of new lightpaths.
Numerical results to be presented indicate that our approach
is successful in achieving significant power savings compared
to existing approaches.
The rest of this paper is organized as follows. Section II
describes the network architecture and presents the corre-
sponding power consumption model. The traffic prediction
model and PALM algorithm are discussed in Section III. We
present numerical results in Section IV, and we conclude the
paper in Section V.
Fig. 1: Software defined EONs for DC application
II. NETWORK ARCHITECTURE AND POWER
CONSUMPTION MODEL
We consider the software-defined EON architecture for
interconnecting DCs as illustrated in Figure 1. The architecture
includes extended OpenFlow-enabled IP Routers and BV-
OXCs, which we refer to as OF-R and OF-OXC, respectively.
The extended OpenFlow protocol is detailed depicted in [14].
Other elements in the architecture, including EDFAs, BV-
OTs and the DCs with DC servers (DC-S) are also shown in
the figure. We assume that integration of the EON resources
(i.e., network elements) and DC resources (i.e., servers) is
realized via the SDN controller at the top of the figure. At the
same time, the proposed PALM algorithm is extended to the
SDN controller to manage the lightpaths in real time. Due to
SDN, the network state information can be converged quickly
and accurately, which is benefit to respond to the lightpath
provisioning requests in a timely manner.
In Figure 1, we can see that the underlying network includes
several network elements (i.e., OF-R, OF-OXC, BV-OT, and
EDFA) and application servers (i.e., DC-S). According to [7],
the network elements are considered the main sources of power
consumption. However, since our goal is to improve the energy
efficiency of the network architecture as a whole, the power
consumption of the DC-S cannot be ignored. Hence, we take
into consideration both the network elements and application
servers in our model.
As is common in studies of network element energy con-
sumption, we also assume that the power of all network
elements and application servers includes two parts: a fixed
part that is independent of traffic served, and a dynamic part
that is dependent on traffic. The fixed part contributes constant
power while the element or server is in operation, while the
dynamic part represents variable power consumption that is
proportional to the traffic that the element or server handles.
In addition, our model accounts for the energy consumed for
establishing lightpaths in the network. As explained in [15],
turning on network elements for setting up lightpath consumes
a considerable amount of energy which increases linearly with
the bandwidth of the served traffic. Importantly, as the study
in [13] has shown, energy consumption due to powering on
switching elements for setting up a lightpath, is about four
times that consumed by the same elements for switching a
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traffic serving lightpath. Accordingly, our study considers all
three components: fixed and dynamic power consumption of
network elements and application servers, and switching power
consumption for establishing lightpaths.
In deriving the power model, we will use the notation listed
in Table I. Let us denote the three components above as Pf ,
Pd, and Pe. Then, following our discussion, the overall power
consumption of the network architecture depicted in Figure 1
may be calculated as:
P = Pf + Pd + Pe (1)
TABLE I: NOTATIONS USED IN OUR MODEL
Notation Meaning
P Total power consumption in network
N Set of nodes
Z Set of BV-OTs of a physical node
S Set of DC-Ss
R Set of traffic node pairs
Pf Total fixed power consumption
Pd Total dynamic power consumption
Pe Total switching power consumption
Pf
E Total fixed power consumption of EDFAs
Pf
T Total fixed power consumption of BV-OTs
Pf
R Total fixed power consumption of OF-Rs
Pf
O Total fixed power consumption of OF-OXCs
Pf
S Total fixed power consumption of DC-Ss
Pd
E Total dynamic power consumption of EDFAs
Pd
T Total dynamic power consumption of BV-OTs
Pd
R Total dynamic power consumption of OF-Rs
Pd
O Total dynamic power consumption of OF-OXCs
Pd
S Total dynamic power consumption of DC-Ss
pf
e The fixed power of an EDFA
pf
t The fixed power of a BV-OT
pf
r The fixed power of an OF-R
pf
o The fixed power of an OF- OXC
pf
s The fixed power of a DC-S
pd
e The dynamic power of an EDFA
pd
t The dynamic power of a BV-OT
pd
r The dynamic power of an OF-R
pd
o The dynamic power of an OF- OXC
pd
s The dynamic power of a DC-S
Now note that the infrastructure network consists mainly
of EDFA, BV-OT, OF-R, OF-OXC and DC-S. Therefore, the
fixed component Pf may be obtained as follows:
Pf = Pf
E + Pf
T + Pf
R + Pf
O+Pf
S
=
∑
i∈N
∑
j∈N:j̸=i
pf
e × Wij+
∑
i∈N
∑
j∈N:j̸=i
pf
t × Oij
+
∑
i∈N
∑
j∈N:j̸=i
pf
r × Qij +
∑
i∈N
∑
j∈N:j̸=i
pf
o × Kij
+
∑
s∈S
pf
s × Fs
(2)
where Wij is the number of EDFAs on lightpath ij, Oij is
the number of BV-OT pairs on lightpath ij, Qij is the number
of OF-Rs on lightpath ij, Kij is the number of OF-OXCs on
lightpath ij, Fs is a binary which is 1 if the server s stays
working.
Similarly, the dynamic component Pd can be calculated as
follows:
Pd = Pd
E + Pd
T + Pd
R + Pd
O + Pd
S
=
∑
i∈N
∑
j∈N:j̸=i
(pd
e ×
∑
sd∈R
Rsd × Xsd
ij )
+
∑
i∈N
∑
j∈N:j̸=i
(pd
t ×
∑
sd∈R
Rsd × Xsd
ij )
+
∑
i∈N
∑
j∈N:j̸=i
∑
a∈Z
∑
b∈Z
(pd
r ×
∑
sd∈R
Rsd × Y ij
ab )
+
∑
n∈N
(pd
o ×
∑
sd∈R
Rsd×Kn) +
∑
s∈S
(pd
s ×
∑
sd∈R
Υsd×Ks)
(3)
where Rsd is traffic demand (Gb/s) of node-pair sd and Υsd
is the traffic demand (Gb/s) of DC-S s. The Xsd
ij is a binary
which is 1 if traffic between node-pair sd uses lightpath ij,
the Y ij
ab is a binary which is 1 if lightpath ij uses BV-OTs
ab and nodes ij, the Kn is a binary which is 1 if OF-OXC
n stays working and the Ks is a binary which is 1 if DC-S
stays active.
Finally, the total switching power for setting up lightpaths
in the network may be derived as:
Pe =
∑
i∈N
∑
j∈N:j̸=i
∑
a∈Z
∑
b∈Z
pij
e,ab (4)
Let pij
denote the power consumption of an active lightpath
ij. pij
is composed of holding power (necessary to keep
the lightpath on) and transmission power (necessary to serve
traffic). Hence, the power consumption pij
for an active
lightpath ij may be written as:
pij
= pij
f + pij
d (5)
In the above expression, pij
f denotes the holding power (a
fixed component) and pij
d denotes the transmission power (a
dynamic component). The EDFA, BV-OT, OF-R and OF-OXC
contribute to the fixed component pij
f to keep the lightpath
on, while the dynamic component pij
d is proportional to the
amount of traffic carried by the lightpath. Therefore, we may
express the two components of power consumption for active
lightpaths as:
pij
f = pf
e × Wij + pf
t × Oij + pf
r × Qij+pf
o × Kij (6)
pij
d = pd
e ×
∑
sd∈R
Rsd × Xsd
ij +pd
t ×
∑
sd∈R
Rsd × Xsd
ij
+pd
r ×
∑
sd∈R
Rsd × Y ij
ab +pd
o ×
∑
sd∈R
Rsd×Kn
(7)
Finally, according to [13], the switching power of setting
up a lightpath is about four times that of the same lightpath
in active mode. Therefore, following the above analysis, the
switching power involved in setting up a lightpath is as
follows:
pij
e,ab = 4pij
= 4(pij
f + pij
d )
= 4(pf
e × Wij + pf
t × Oij + pf
r × Qij+pf
o × Kij
+pd
e ×
∑
sd∈R
Rsd × Xsd
ij +pd
t ×
∑
sd∈R
Rsd × Xsd
ij
+pd
r ×
∑
sd∈R
Rsd × Y ij
ab +pd
o ×
∑
sd∈R
Rsd×Kn)
(8)
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Due to the high-bandwidth characteristics of inter-DC traf-
fic, the transmission power of lightpaths to serve this traffic,
as shown in expression (7), is substantial. Consequently, the
switching power of setting up a lightpath, as expressed in (8))
is also considerable and represents a significant fraction of
the overall power in the network. While there is not much
one can do with respect to transmission power (after all, a
sufficient number of lightpaths must be on to carry the traffic),
avoiding unnecessary lightpath teardown and setup operations
may have a significant impact in power consumption across
the network. Our premise is that power-aware management
of lightpaths in such a network environment may provide
significant power savings, and in the following we present
our approach to reducing the frequency of power-inefficient
lightpath setup operations.
III. ALGORITHM DESIGN
A. Traffic Prediction
Consider a lightpath that is about to be terminated. If
we knew, or could predict, that the same lightpath will be
needed again a short time later, we could extend its lifetime
until new traffic is available to use it, hence avoiding power-
consuming operations to tear down and re-establish the same
lightpath. Let C(le, t) denote the traffic load of lightpath le
at time t. Our goal is to use appropriate prediction methods
to obtain an estimate of the lightpath’s traffic load in the
near future. Note that DC traffic characteristics are closely
related to user behavior, which in turn is affected by both
subjective and objective factors. Therefore, network traffic in a
DC scenario is nonlinear and exhibits self-similarity and long-
term correlation, making traditional linear prediction models
unsuitable for estimating accurately future traffic loads. BP
neural networks [16], on the other hand, have excellent non-
linear and strong self-learning characteristics, and represent
promising prediction models for complex DC traffic.
Fig. 2: Configuration of a 3-layer BP network model
The learning process of the BP neural network is composed
of forward propagation of information and back propagation of
error messages, as shown in Figure 2. In forward propagation,
the input signal is transferred from the input layer to the output
layer through one or more hidden layers. If the output layer
does not obtain the desired result, then the error message is
returned via back propagation, and the thresholds and weights
are adjusted by constant training until the error is reduced
below a specified threshold [16]. In this paper, we use the
three-layer BP network model depicted in Figure 2.
The BP neural network of Figure 2 has n input layer nodes,
m hidden layer nodes, and one output layer node. Let wij, i =
1, . . . , n, j = 1, . . . , m, denote the weight of the link between
input node i and hidden node j, and wjo be the weight of
the link between hidden node j and output node o. Then the
output of the hidden layer is expressed as:
hj = f
( n
∑
i=1
wijxi − θj
)
, j = 1, 2, . . . , m (9)
where θj is the threshold of the hidden layer nodes, and f(·) is
a nonlinear transfer function. In this paper, we use the sigmoid
function:
f(x) =
1
1 + e−x
as the transfer function. Thus, the output of network may be
obtained as:
C(le, t) =
m
∑
j=1
hjwjo − ∂ (10)
where ∂ is the threshold of the output layer node.
Given the desired actual output Ĉ(le, t) and neural network
output C(le, t), the network error e is calculated as:
e =
1
2
(
C(le, t) − Ĉ(le, t)
)2
(11)
In the training process, the weights and thresholds are
adjusted to minimize the error e. Specifically, the weights are
updated as follows:
wij = wij + ηhj(1 − hj)xi
m
∑
j=1
wjo e , i = 1, 2, . . . , n
wjo = wjo + ηhje , j = 1, 2, . . . , m (12)
where η is the learning rate, a positive constant less than 1.
The threshold is also updated as:
θj = θj + ηhj(1 − hj)
m
∑
j=1
wjoe , j = 1, 2, . . . , m
∂ = ∂ + e (13)
The BP neural network model is the most widely used
prediction model, as it has the advantages of simple struc-
ture, strong plasticity, and excellent ability of approximating
nonlinear mapping. But there are two obvious disadvantages
in this model: first, the model may often get trapped in a
local minimum value, and second, it converges slowly. To
overcome these drawbacks of BP network, in this work we
apply a particle swarm optimization (PSO) algorithm in [16]
to improve the BP neural network model. The excellent global
optimization ability of the PSO algorithm makes it a natural
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candidate for training the BP neural network model so as to
optimize its weights for short-term network traffic forecasting.
Similar to the Genetic algorithm, PSO is a population-
based algorithm with each individual or candidate solution
being called a “particle”. The basic PSO model consists
of a swarm of particles moving in a d-dimensional search
space where a certain quality measure, the fitness, can be
calculated. Each particle has a position, represented by a vector
xi = (xi1, xi2, . . . , xid), and a velocity, represented by vector
vi = (vi1, vi2, . . . , vid), where i is the index of the particle.
While exploring the search space for an optimal solution, each
particle remembers two variables: the best position this particle
has found so far, denoted by pi, and the best position found by
any particle in the swarm, denoted by pg [17]. As time passes,
each particle updates its position and velocity to a new value
according to expressions (14) and (15).
vi(t + 1) = ω vi(t) + c1 rand(0, 1)(pi − xi(t))
+ c2 rand(0, 1)(pg − xi(t)) (14)
xi(t + 1) = xi(t) + vi(t + 1) , i = 1, 2, . . . , n (15)
In the above expressions, ω is called the inertial factor and
is described by the following equation:
ω = ωmax −
ωmax − ωmin
Tmax
k (16)
where Tmax is the number of iterative generations, k is the
present iterative generation, c1 and c2 are positive constants
referred to as acceleration constants, and rand(0, 1) is a
random number uniformly distributed in the range [0, 1]. In
general, the value of each component in vi may be clamped
to the range [−vmax, +vmax] to control excessive roaming of
particles outside the search space. The particle moves towards
a new position according to expressions (14) and (15). This
process is repeated until a user-defined stopping criterion is
reached.
But, the species scale G of traditional PSO algorithm is
fixed which is based on user experience. Actually, a fixed
species scale usually deteriorates algorithm’s performance,
such as the quality of the optimal solution and the running
time. For this reason, we design a dynamic species strategy
that the species scale G changes adaptively as the algorithm
performs. Specifically, the average distance from each particle
to all the other particles is calculated in each generation of
evolution. Then, the algorithm compares the average distance
calculated by the global optimum particle with the average
distance calculated by other particles in the current generation.
If the former is smaller, it shows that the species is likely to
fall into the local optimum. At this point, to maintain species
diversity and to make the algorithm jump out of the local
optimum, a particle is added to the original species scale.
Otherwise, a particle will be reduced to the species scale.
We use the improved PSO (later expressed as IPSO) al-
gorithm described above to train the initial weights (wij and
wjo) and thresholds (θj and ∂) of the BP neural network. The
optimized weights and thresholds are then used to carry out
the BP algorithm only if the error trends to a certain stable
value. The improved algorithm has the advantage of faster
convergence and more accurate prediction. A pseudocode
description of the IPSO for BP neural network is provided
as Algorithm 1.
Algorithm 1 Improved Particle Swarm Optimization for BP
Neural Network (IPSO-BPNN)
Input: BP neural network structure, particle dimension d,
inertia factor ω, species scale G, the maximum number of
iterations Tmax, the particle position xi and velocity vi,
the neural network weights (wij and wjo) and thresholds
(θj and ∂);
Output: The prediction result of traffic demand for lightpaths.
1: for ∀k ∈ Tmax do
2: Calculate the mean square error of each particle;
3: if the optimal position of the particle is better than the
target value then
4: The optimal position of the particle is selected as the
optimal position of the individual;
5: end if
6: if pi is superior to pg then
7: pg = pi;
8: end if
9: if the average distance calculated by the global optimum
particle is less than the average distance calculated by
the other particles then
10: G = G + 1;
11: else
12: G = G − 1;
13: end if
14: Update xi and vi by formula (14) (15);
15: end for
16: The optimal output values (wij, wjo, wjo and ∂) are
substituted into the BP neural network for learning and
training;
17: Run BP neural network algorithm;
18: Return the prediction result of traffic demand for light-
paths;
The data used to serve the IPSO-BPNN is from the inter-
DC links at X company, one of largest Internet companies in
China. The links serve as X’s inter-DC backbone, connecting
multiple data centers with tens of thousands of servers. These
data centers host hundreds of large scale applications, both
interactive and batch. Figure 3 depicts the variation of traffic
load in the inter-DC links at X for a period of one week.
And the actual traffic in the first six days is used as the
historical data for the learning of BP neural network. Then the
prediction result of the last day is obtained by IPSO-BPNN
which is shown in the picture. Due to confidentiality concerns,
we normalize the Y-axis of all figures so we do not reveal the
actual amount of data transfers. The normalization does not
affect the results of this paper. It is the evident that the IPSO-
BPNN captures the behavior of the past traffic profile and the
mean square error can be kept below 3%.
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0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
Normalized
Network
Traffic
Time
Actual Traffic
Prediction
Fig. 3: The actually traffic and prediction using IPSO-BPNN
B. Proposed Algorithm
The objective of the proposed power-aware lightpath man-
agement (PALM) algorithm is to avoid unnecessarily tearing
down a lightpath between a source-destination pair if there
is a reasonable expectation that there will be a request for
setting up a lightpath between the same pair of nodes in the
near future. By keeping the lightpath about to be teared down
active, the switching power involved in the establishment of
a future lightpath can be avoided; as a result, the term Pe in
expression (1) will be reduced. Although, in principle, PALM
may be deployed in non-SDN architectures, e.g., a GMPLS-
based control plane, in this work we only study its benefits
in the context of SDN. More specifically, once the SDN con-
troller detects an idle lightpath (the lightpath to be removed)
from the database module, it uses the algorithm 1 that we
discussed in the previous subsection, to determine a holding
time t for the lightpath. The maximum holding time, tmax, of
the idle lightpath may be obtained from expression (17):
pij
e,ab × T = pij
f × tmax (17)
where T is the time it takes to set up a lightpath within the
SDN architecture. In [18], the authors have estimated that the
control plane latency for setting up a lightpath is around 23ms,
i.e., T = 23ms, and this is the figure we use in this work.
Combining the above with expressions (5) and (17), we obtain
tmax as:
tmax =
pij
e,ab × T
pij
f
=
4(pij
f + pij
d ) × T
pij
f
(18)
We now focus on estimating accurately the holding time t
of an idle lightpath. To this end, we use the algorithm 1, that
we described above. Specifically, we decide to keep an idle
lightpath on (i.e., hold it in active status) for a value of time
equal to t, t ≤ tmax, if the prediction results indicate one of
two possibilities:
• Case 1: A traffic demand that will request the idle
lightpath (we call the traffic Initiative Traffic (IT)) is
expected to arrive at time t in the future.
• Case 2: A traffic request for a lightpath between the same
source-destination pair as that of the idle lightpath, but
on a different physical path, is expected to arrive at time
t. In this case, we reroute the new traffic request to the
idle lightpath (the rerouting traffic is called Passive Traffic
(PT)) only if (1) the new traffic would lead the utilization
of its original lightpath above a certain threshold M%,
and (2) transmission on the idle lightpath results in power
consumption no greater than transmission on its original
lightpath. Finally, we note that the lightpath spectrum
must satisfy the spectrum continuity and spectrum conti-
guity constraints when the routing is carried out [1], [19].
Note that, in Case 2, to improve the resource utilization of
lightpath and reduce the bandwidth blocking ratio, we set
the threshold M% dynamically. More concretely, when
an idle lightpath appears in the network, a threshold is
set for the adjacent lightpath of the idle lightpath, and
the threshold is cancelled immediately when the idle
lightpath is reused to serve traffic.
Algorithm 2 Power-Aware Lightpath Management (PALM)
Input: An idle lightpath li to be torn down, initial network
topology Gp;
Output: The holding time t for idle lightpath, total power
consumption P;
1: for ∀le do
2: C(le, t) ← IPSO − BPNN(le, t ≤ tmax);
3: end for
4: for ∀li do
5: Search all lightpaths Ln that have the same source
destination pair as li;
6: Set the threshold (M%) for Ln;
7: if (C(li, t) ∈ IT) > 0 then
8: Cancel the thresholds (M%) of Ln;
9: HT(li) ← t;
10: break;
11: end if
12: if (C(li, t) ∈ PT) > 0 then
13: HT(li) ← t;
14: break;
15: end if
16: if (C(li, t) ∈ IT) ≤ 0&&(C(li, t) ∈ PT) ≤ 0 then
17: Tear down the idle lightpath li;
18: Cancel the thresholds (M%) of Ln;
19: end if
20: end for
21: Calculate the total power consumption based on expres-
sion (1);
A pseudocode description of the PALM algorithm is pro-
vided as Algorithm 2. The traffic prediction module firstly
runs the algorithm 1 (IPSO-BPNN) to predict the traffic load
for every lightpath le within the next tmax time units, and the
value C(le, t) of traffic for every lightpath at time t (t ≤ tmax)
is estimated and stored in the module (Lines 1-3).
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For each idle lightpath li between a source destination pair
(s, d) to be torn down, All other lightpaths Ln between (s, d)
are searched by the traffic management module firstly. And
then the thresholds are set for all the lightpath Ln (Lines 4-
6). Then the PALM module checks every lightpath’s traffic
load at time t (C(le, t)) stored in the traffic prediction module.
If it finds a IT request will arrive to the idle lightpath li, the
thresholds of Ln will be cancelled and the t will be set for this
idle lightpath’s holding time (Lines 7-9). Then it will break
the loop to return the power consumption of whole network
based on expression (1) (Line 19). Otherwise, if the PALM
module finds a PT request will arrive to the idle lightpath
li, the t will be also set for this idle lightpath’s holding time
(Lines 12-13), and then break the loop (Line 14). The idle
lightpath li will be torn down if there is no traffic (include IT
and PT) request within tmax and the thresholds of Ln will be
cancelled (Lines 16-18). Then the algorithm returns the power
consumption of whole network based on expression (1) (Line
19).
The PALM algorithms assumes that there is no information
about future lightpath arrivals, and invokes the IPSO-BPNN
module to make decisions based on predictions on future traffic
demands. Under an alternative model of advance reservations
[20][21], information about future demands (e.g., the start
time, deadline, and/or holding time of lightpaths) may be
known to the network operator. In this case, it would be
possible to modify and refine the PALM algorithm to take this
information into account in making decisions on whether and
how long to maintain an idle lightpath. However, we note that
extending PALM for advance reservations is outside the scope
of this work, but is a possible direction of future research.
IV. NUMERICAL RESULTS
We now present a set of simulation results to evaluate the
performance of the proposed PALM algorithm.
A. Simulation Setup
To assess the benefits of the proposed algorithm, we
leverage the Mininet+Floodlight and Python simulation tool
building test platform. For the experiments, we use the 14-
node, 21-link NSFNET network topology with DCs at nodes
2, 5, 6, 10 and 12, and the 24-node, 43-link USNET network
topology with DCs at nodes 1, 2, 6, 9, 12, 19, and 22 [22]
shown in Figure 4. We assume that there is one pair of bi-
directional fiber on each link, and the available spectrum width
of each fiber is set to 4000GHz. To guarantee the quality of
transmission (QoT), in our simulation, we adopt the adaptive
modulation-level selection in [23]. Specifically, with Bi as the
lightpath’s bandwidth requirement in Gb/s, the number of FS’
we need to assign is:
n =
Bi
m · BBP SK
grid
Where BBP SK
grid represents the transmission capacity that an
FS with a bandwidth of fgrid can provide with BPSK, and
m is the modulation-level, which is 1,2,3, and 4, standing
for BPSK, QPSK, 8-QAM and 16-QAM, respectively. In the
(a)
(b)
Fig. 4: Network topologies. (a)NSFNET (b)USNET
experiments, we set fgrid = 12.5 GHZ and BBP SK
grid = 12.5
Gb/s. The maximum transmission reaches of BPSK, QPSK, 8-
QAM and 16-QAM signals are 5000, 2500, 1250, and 625km,
respectively. The power consumption values for each element
and application server in the network are those listed in Table
II [24, 25]. The dynamic requests’ arrivals follow the Poisson
process with the average arrival rate as λ, and the holding time
of each request follows the negative exponential distribution
with the mean value 1/µ. Hence, we can quantify the traffic
load as λ/µ in Erlangs [26], which varies within [50-500]
Erlang by setting λ = 10 and changing 1/µ from 5 up to 50.
In the experiments, we compare three algorithms:
1) The energy-efficient manycast (EEM) algorithm of [11].
The EEM algorithm considers all the network elements
contributing significantly to power consumption and
turns them off during idle periods.
2) The dynamic scheduling and distance-adaptive trans-
mission (DS+DAT) algorithm proposed in [12]. The
DS+DAT algorithm employs a power saving strategy
that dynamically adjusts the transponder capacity and
the distance adaptive transmission.
3) Our proposed PALM algorithm described in the previous
section. We use four different values for the threshold
M that denotes the utilization of the lightpath, M =
60, 70, 80, 90%, hence we refer to the various variants of
PALM as PALM-60, PALM-70, PALM-80, and PALM-
90, respectively. Note that the smaller the value of M,
the greater the number of attempts of rerouting the
lightpath.
All the data for the IPSO-BPNN prediction algorithm
are taken from the inter-DC network traffic data of X
company in China. Also, the parameters of the IPSO-
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Lightwave Technology
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TABLE II: TYPICAL POWER CONSUMPTION OF NETWORK ELEMENTS AND APPLICATION SERVERS
Network element Fixed power consumption (W) Traffic-dependent power consumption (W/Gb)
EDFA 110 0
BV-OT 120 0.18
OF-R 1329 0.47
OF-OXC 150 + 85d + 50g (d: node degree, g: number of add/drop capable ports) 0
DC-S 180 0
BPNN are set as follows. The BP neural network is
a three-layer structure of n = 6 input layer nodes,
m = 13 hidden layer nodes, and one output node; the
training time is 100; the training target is 0.00001; and
the learning rate is 0.01. The IPSO algorithm parameters
are set to [27]: the initialized species scale is 30; the
evolution algebra is 100 times; the accelerating constants
are c1 = c2 = 1.49445; and the particle position
and velocity value intervals are [-5, 5] and [-1, 1],
respectively.
We compare the various algorithms with respect to four
metrics:
• Total power consumption (TPC) across the EON and
DCs.
• The number of new lightpaths established (NNLE).
• The percentage of power saving (PPS) of the PALM
variants relative to EEM and DS+DAT.
• The bandwidth blocking ratio (BBR), i.e., the percentage
of the amount of blocked traffic in relation to the total
bandwidth requested.
• The Resource Utilization Rate (RUR), i.e., the resources
being used in relation to the total allocated resource in
network.
B. Simulation Results
Let us first consider the total power consumption (TPC)
metric. Figure 5 plots the average TPC achieved by the various
algorithms listed above, as a function of the traffic load. As
expected, power consumption increases with the amount of
traffic carried by the network. Importantly, we observe that
the PALM algorithm achieves lower consumption compared
to the DS+DAT and EEM algorithms for the same traffic
volume in both NSFNET and USNET. Although PALM keeps
idle lightpaths on (i.e., even when they do not carry traffic),
the power savings from not having to tear lightpaths down
only to activate them again a short time later when a new
traffic request arrives, more than compensates for the power
needed to maintain the idle lightpaths. The result indicates that
a reduction in the frequency of setting up lightpaths indeed
leads to lower TPC for the whole network. We also note
that the network expends more power under PALM variants
with higher threshold M which denotes the utilization of
the lightpath. Recall that smaller values of M imply higher
probability of rerouting, and hence a higher probability of
keeping an idle lightpath on, which in turn decreases the
switching power of the network.
Figure 6 provides a different perspective of the power
savings possible by deploying our PALM algorithm. Specif-
ically, the figure plots the average percent power savings
50 100 150 200 250 300 350 400 450 500
0
2
4
6
8
10
12
Total
Power
Consumption
(TPC,W)
Traffic Load (Erlang)
EEM
DS+DAT
PALM-90
PALM-80
PALM-70
PALM-60
x10
5
(a)
50 100 150 200 250 300 350 400 450 500
0
4
8
12
16
20
24
EEM
DS+DAT
PALM-90
PALM-80
PALM-70
PALM-60
Total
Power
Consumption
(TPC,W)
Traffic Load (Erlang)
x10
5
(b)
Fig. 5: Results on Total Power Consumption (TPC, normal-
ized). (a)NSFNET (b)USNET
(PPS) achieved by the PALM-80 algorithm (i.e., PALM with
threshold M = 80%), relative to the EEM and DS+DAT
algorithms. As we can see, in NSFNET, PALM reduces power
consumption between 40-47% compared to EEM, and between
16-24% compared to DS+DAT. This benefit can be 30-37%
and 13-19% in USNET. We conclude that the combination of
PALM and SDN contributes significantly to power savings.
We discussed the benefits of PALM above. We also note that,
as pointed out in [28], the average lightpath setup time in SDN
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Lightwave Technology
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50 100 150 200 250 300 350 400 450 500
16
24
32
40
48
56
64
EEM-PALM-80
DS+DAT-PALM-80
Percentage
of
Power
Saving
(PPS)
(%)
Traffic Load (Erlang)
(a)
50 100 150 200 250 300 350 400 450 500
5
10
15
20
25
30
35
40
45
50
EEM-PALM-80
DS+DAT-PALM-80
Percentage
of
Power
Saving
(PPS)
(%)
Traffic Load (Erlang)
(b)
Fig. 6: Results on Percentage of Power Saving (PPS).
(a)NSFNET (b)USNET
(with OpenFlow control) is lower than in traditional distributed
control (e.g., GMPLS). The main reason is that in SDN, the
controllers are able to carry out path computation, resource
assignment, and reservation in parallel [28]. Since DS+DAT
uses an SDN control plane, the reduction shown in Figure
6 is solely due to PALM. But since EEM uses GMPLS, the
corresponding reduction is due to both PALM and SDN. In
other words, PALM leads to a considerable power savings,
and SDN makes this benefit more prominent. Moreover, PPS
increases with traffic load: as expected, the higher the traffic
load, the more opportunities to hold an idle lightpath on, as it is
likely that a new traffic request may arrive soon. Nevertheless,
the PALM algorithm is successful in providing meaningful
power savings across the traffic loads that were considered in
our experiments. The PPS values for other PALM variants are
similar, as can be deduced from Figure 5.
Figure 7 plots the average number of new lightpaths estab-
lished (NNLE metric) for the various algorithms considered
in our study. Since the PALM algorithm is explicitly designed
to avoid the tearing down (and, hence, later activation) of
lightpaths, it is no surprise that the PALM variants lead to
a reduction in the NNLE at the same traffic load in both
NSFNET and USNET, compared to the EEM and DS+DAT al-
gorithms. Establishing a lightpath contributes directly to power
consumption in the network, mainly through the activation of
BV-OTs. Therefore, this decrease in NNLE is a major factor
that the PALM variants achieve the power savings illustrated
in the previous figures. The relative performance among the
PALM variants is similar to the one observed in Figure 5, and
may explained using similar arguments.
50 100 150 200 250 300 350 400 450 500
0
1
2
3
4
5
6
7
EEM
DS+DAT
PALM-90
PALM-80
PALM-70
PALM-60
Number
of
New
Lightpaths
Establishment(NNLE)
Traffic Load (Erlang)
x10
5
(a)
50 100 150 200 250 300 350 400 450 500
0
3
6
9
12
15
Number
of
New
Lightpaths
Establishment(NNLE)
Traffic Load (Erlang)
EEM
DS+DAT
PALM-90
PALM-80
PALM-70
PALM-60
x10
5
(b)
Fig. 7: Results on Number of New Lightpaths Establishment
(NNLE). (a)NSFNET (b)USNET
Figure 8 plots the bandwidth blocking ratio (BBR) for the
algorithms we considered in this study. It can be seen that
the BBR of the proposed PALM algorithm is slightly larger
than that of the EEM and DS+DAT algorithms under the
same traffic load. For the EEM and DS+DAT, the rerouting or
blocking are performed in case the bandwidth of a lightpath
is fully used, while PALM takes these actions when the
bandwidth of a lightpath exceeds the predefined threshold
M. Therefore, PALM may slightly increase the probability
of bandwidth blocking, and consequently, the BBR decreases
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Lightwave Technology
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with the value of M, as shown in the figure. For instance,
when M = 80, the increase in BBR compared to EEM and
DS+DAT is about 5% in NSFNET, and this value is about
3% in USNET. Considering the significant power savings, we
believe that this is a cost-effective tradeoff.
50 100 150 200 250 300 350 400 450 500
0.00
0.02
0.04
0.06
0.08
0.10
0.12
26 28 30 32 34
0.040
0.045
0.050
0.055
0.060
PALM-60
PALM-70
PALM-80
PALM-90
DS+DAT
EEM
Bandwidth
Blocking
Ratio(BBR)
Traffic Load (Erlang)
zoom
(a)
50 100 150 200 250 300 350 400 450 500
0.00
0.02
0.04
0.06
0.08
0.10
0.12
Traffic Load (Erlang)
Bandwidth
Blocking
Ratio(BBR)
26 28 30 32 34
0.040
0.045
0.050
0.055
0.060
PALM-60
PALM-70
PALM-80
PALM-90
DS+DAT
EEM
zoom
(b)
Fig. 8: Results on Bandwidth Blocking Ratio (BBR).
(a)NSFNET (b)USNET
Finally, Figure 9 plots the resource utilization rate (RUR)
for the various algorithms considered in our study. From the
definition of RUR, we can see that if all the resources in the
network are allocated on demand and immediately (a symbol
of high flexibility), the RUR must be high, that is, it will
lead to a high network flexibility. The RUR of DS+DAT is
highest among all algorithms which we can see from Figure
9. This is because it intelligently applied SDN technology that
the resources are allocated on demand and immediately. The
RUR of the proposed algorithm (PALM) is lower, because
the purpose of PALM is to hold the lightpaths that will
be reused in the near future, therefore, there are some idle
lightpaths in network, that is, there are some allocated but
unused resources in the network. On the other hand, recall
that DS+DAT employs 4QAM, a fixed and lower order modu-
lation format, whereas PALM employs an adaptive modulation
strategy. Since 4QAM uses more spectrum resources than
the adaptive strategy, the higher RUR values of DS+DAT
do not necessarily reflect more effective use of resources but
also account for the higher resources that DS+DAT allocates
to lightpaths. Moreover, the RUR of PALM which applied
the SDN technology is comparable to the EEM that does
not employ SDN. From the two topologies, we can see that
the RUR of proposed PALM is 5%-7% lower than that of
DS+DAT. Considering the substantial power savings and the
impact of 4QAM in the higher RUR values of DS+DAT, we
believe that PALM represents a worthy tradeoff.
50 100 150 200 250 300 350 400 450 500
30
40
50
60
70
80
90
100
Resource
Utilization
Rate
(RUR)(%)
Traffic Load (Erlang)
DS+DAT
EEM
PALM-80
(a)
50 100 150 200 250 300 350 400 450 500
30
40
50
60
70
80
90
100
Resource
Utilization
Rate
(RUR)(%)
Traffic Load (Erlang)
DS+DAT
EEM
PALM-80
(b)
Fig. 9: Results on Resource Utilization Rate (RUR).
(a)NSFNET (b)USNET
V. CONCLUDING REMARKS
With this study, we demonstrate the benefits of managing
the lifetime of lightpaths in an EON interconnecting DCs, so
as to improve the energy efficiency of the network. Specifi-
cally, we introduced a parameterized algorithm, referred to as
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Lightwave Technology
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PALM, which uses traffic prediction to avoid tearing down a
lightpath that becomes idle with the goal of decreasing the
switching power involved in setting up the lightpath again a
short time later. We also introduced an IPSO-BPNN model to
aid the PALM algorithm in accurately predicting future traffic
demands. The PALM algorithm leads to lower frequency of
new lightpath establishment in the network, which in turn
reduces power consumption significantly compared to algo-
rithms that do not manage the lightpath lifetimes.
ACKNOWLEDGMENT
This work was made possible with funding from: the
National Natural Science Foundation of China (61401052);
the Project of China Scholarship Council (201608500030);
the Science and Technology Project of Chongqing Municipal
Education Commission (KJ1400418, KJ1500445); the Starting
Foundation for Doctors of Chongqing University of Posts
and Telecommunications (A2015-09); and the Program for
Innovation Team Building at Institutions of Higher Education
in Chongqing (CXTDX201601020).
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