Your search keyword '"Arularasi Sivasankaran"' showing total 22 results

1. Decoupling wavelength assignments in dedicated protection switching bidirectional lightpath.

Author

Arularasi Sivasankaran, Miguel Razo, Wanjun Huang, Limin Tang, Marco Tacca, and Andrea Fumagalli

Published

2012

2. Preemption based lightpath restoration.

Author

Arularasi Sivasankaran, Miguel Razo, Marco Tacca, and Andrea Fumagalli

Published

2012

3. Multicast tree computation in networks with multicast incapable nodes.

Author

Limin Tang, Wanjun Huang, Miguel Razo, Arularasi Sivasankaran, Marco Tacca, and Andrea Fumagalli

Published

2011

4. Computing alternate multicast trees with maximum latency guarantee.

Author

Limin Tang, Wanjun Huang, Miguel Razo, Arularasi Sivasankaran, Paolo Monti 0001, Marco Tacca, and Andrea Fumagalli

Published

2010

5. Coupling wavelength assignment in bidirectional lightpath: Is it worth the extra cost?

Author

Arularasi Sivasankaran, Miguel Razo, Shreejith Billenahalli, Wanjun Huang, Limin Tang, Marco Tacca, and Andrea Fumagalli

Published

2010

6. Limiting Wavelength Converter Usage in Resilient WDM Networks.

Author

Miguel Razo, Shreejith Billenahalli, Wanjun Huang, Arularasi Sivasankaran, Limin Tang, Hars Vardhan, Paolo Monti 0001, Marco Tacca, and Andrea Fumagalli

Published

2010

7. A wavelength sharing and assignment heuristic to minimize the number of wavelength converters in resilient WDM networks.

Author

Shreejith Billenahalli, Miguel Razo, Wanjun Huang, Arularasi Sivasankaran, Limin Tang, Hars Vardhan, Paolo Monti 0001, Marco Tacca, and Andrea Fumagalli

Published

2009

8. The PlaNet-PTN Module: a Single Layer Design Tool for Packet Transport Network.

Author

Miguel Razo, Arie Litovsky, Wanjun Huang, Arularasi Sivasankaran, Limin Tang, Hars Vardhan, Paolo Monti 0001, Marco Tacca, and Andrea Fumagalli

Published

2009

9. Finding a simple path with multiple must-include nodes.

Author

Hars Vardhan, Shreejith Billenahalli, Wanjun Huang, Miguel Razo, Arularasi Sivasankaran, Limin Tang, Paolo Monti 0001, Marco Tacca, and Andrea Fumagalli

Published

2009

10. Preemption based lightpath restoration

Author

Marco Tacca, Miguel Razo, Arularasi Sivasankaran, and Andrea Fumagalli

Subjects

Network architecture, Network element, Optical Transport Network, Path protection, Computer science, business.industry, Node (networking), Network performance, Fault tolerance, business, Passive optical network, Computer network

Abstract

Network element failure may occur due to natural disasters, malfunctioning components, or human errors. Ideally, network failure occurrence should not affect the network performance as it is experienced by the users. For this reason, robust protection mechanisms resort to standby network resources, which are readily available upon failure occurrence, e.g., dedicated path protection. In some network architectures and service models, a less ideal protection approach may still be applicable in exchange for a reduced network and service cost. Graceful degradation of performance upon failure occurrence may be acceptable in this case. The study in this paper explores preemption-based restoration mechanisms applied to optical connections (lightpaths) in Wavelength Division Multiplexing (WDM) networks. The rationale for preempting some of the still functioning lightpaths — while performing rerouting of the failing ones — is to avoid highly unfair scenarios in which some node pairs starve for lightpaths significantly more than other pairs do, as a consequence of a failing network element1.

Published

2012

11. Decoupling wavelength assignments in dedicated protection switching bidirectional lightpath

Author

Marco Tacca, Wanjun Huang, Miguel Razo, Limin Tang, Andrea Fumagalli, and Arularasi Sivasankaran

Subjects

Wavelength, business.industry, Path protection, Computer science, Wavelength-division multiplexing, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Electronic engineering, Data_CODINGANDINFORMATIONTHEORY, Telecommunications, business, Decoupling (electronics)

Abstract

In a recent study about Wavelength Division Multiplexing (WDM) networks, the authors showed that by decoupling the wavelength assigned to the outward circuit from the wavelength assigned to the inward circuit of the same bidirectional unprotected lightpath, it is possible to reduce the total required number of Wavelength Converters (WCs) when compared to the conventional Wavelength Assignment (WA) solution, in which both outward and inward circuits are assigned the same wavelength [1]. The goal of this paper is to generalize the study in [1] to account for dedicated path protection switching mechanisms applied to bidirectional lightpaths. In doing so, a second factor must be accounted for in the study, i.e., the wavelength assigned to the working circuit may be decoupled from the wavelength assigned to the protection circuit. As a result, four design options are possible by either enforcing or relaxing each of the following two constraints: 1) lightpaths are (are not) required to be assigned the same wavelength for the inward and outward circuit; 2) lightpaths are (are not) required to be assigned the same wavelength for the working and protection circuit. The four design options are compared in terms of their required average number of WCs in the network, revealing that the WC usage may differ significantly depending on the design used.

Published

2012

12. A recursive algorithm to reduce the number of wavelength converters in support of multiple light-trees

Author

Marco Tacca, Arularasi Sivasankaran, Miguel Razo, Limin Tang, Wanjun Huang, and Andrea Fumagalli

Subjects

Multicast, business.industry, Blocking (radio), Computer science, Distributed computing, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Tree (graph theory), Source-specific multicast, Optical Transport Network, Wavelength-division multiplexing, Xcast, business, Energy (signal processing), Computer network

Abstract

Summary form only given. Media content delivery and more in general Cloud related data traffic can highly benefit from the availability of multicast connections in the optical transport network. One specific case is represented by optical multicast trees (light-trees), which are established in the wavelength division multiplexing (WDM) layer. With a light-tree, the optical signal from the root of the multicast session is propagated and split optically till the multicast leaves are all reached. To avoid blocking due to already reserved (unavailable) wavelengths, the creation of a light-tree may require a change of the signal wavelength which is assigned to some of the tree links, in which case wavelength converters (WCs) are required for the light-tree to be created. WCs are pricy and consume energy, thus a wisely designed network must minimize the required number of WCs.

Published

2011

13. Routing and wavelength assignment computed jointly for a given set of multicast trees reduces the total wavelength conversion

Author

Marco Tacca, Miguel Razo, Arularasi Sivasankaran, Andrea Fumagalli, Limin Tang, and Wanjun Huang

Subjects

Set (abstract data type), Constraint (information theory), Routing and wavelength assignment, Multicast, business.industry, Computer science, Wavelength-division multiplexing, Algorithm design, Wavelength conversion, Routing (electronic design automation), business, Computer network

Abstract

A significant drawback when establishing multicast optical trees (light-tree) using lambda channels in wavelength division multiplexing (WDM) network is the potentially large amount of wavelength converters (WCs), which are required when the wavelength continuity constraint cannot be satisfied across each light-tree. Prior works address this challenge by solving the routing and wavelength assignment (RWA) problem for each individual light-tree sequentially, to locally minimize the number of WCs required by each light-tree. In this paper, the authors intend to solve the RWA problem for a group of light-trees with the objective of globally minimizing the number of WCs that are required to support the entire group of multicast requests. The rationale for using the proposed RWA solution is that a joint solution of the RWA problem across the whole set of requested multicast trees may significantly reduce the number of WCs overall.

Published

2010

14. Computing alternate multicast trees with maximum latency guarantee

Author

Andrea Fumagalli, Arularasi Sivasankaran, Paolo Monti, Wanjun Huang, Marco Tacca, Miguel Razo, and Limin Tang

Subjects

Multicast, Protocol Independent Multicast, Computer science, business.industry, computer.internet_protocol, Distributed computing, Distance Vector Multicast Routing Protocol, Source-specific multicast, Multicast address, IP multicast, Xcast, business, computer, Pragmatic General Multicast, Computer network

Abstract

The growing demand for online media content delivery and multi-player gaming is expected to increase the amount of multicast service requests in both public and private networks. Careful traffic engineering of multicast service requests is becoming increasingly essential, as establishing the lowest cost tree, e.g., shortest path tree, in the network for every individual multicast request does not always ensure a global optimization.

Published

2010

15. Coupling wavelength assignment in bidirectional lightpath: Is it worth the extra cost?

Author

Marco Tacca, Miguel Razo, Shreejith Billenahalli, Limin Tang, Wanjun Huang, Andrea Fumagalli, and Arularasi Sivasankaran

Subjects

Wavelength, business.industry, Computer science, Wavelength-division multiplexing, Algorithm design, Transmission system, Network topology, business, Computer network, Hop (networking)

Abstract

The introduction of end-to-end (multi hop) optical circuits (lightpaths) is often seen as the natural extension of a point-to-point (single hop) wavelength division multiplexing (WDM) transmission system, spanning across optical cross-connect nodes. Conventionally, a bidirectional lightpath (whether single or multi hop) comprises two lambda channels in fibers with opposite directions of signal propagation, which are assigned the same wavelength. This constraint is referred to as identical wavelength in bidirectional lightpath (IWBL). While IWBL is a natural and historical choice in point-to-point system, the authors are going to demonstrate that IWBL may unnecessarily increase the number of wavelength converters (WCs), which are required to establish lightpaths in the WDM network when the wavelength continuity constraint cannot be met. In the study, the IWBL constraint is relaxed, thus allowing the assignment of two distinct wavelengths to the same lightpath, one for each direction. A wavelength assignment (WA) algorithm is designed to both take advantage of the IWBL constraint relaxation and minimize the required number of WCs to establish a given set of lightpaths. The algorithm is then applied to a number of network topologies. The outcome is quite surprising, in that the amount of WC reduction obtained by relaxation of the IWBL constraint may be significant under certain conditions.

Published

2010

16. Limiting Wavelength Converter Usage in Resilient WDM Networks

Author

Limin Tang, Hars Vardhan, Andrea Fumagalli, Shreejith Billenahalli, Arularasi Sivasankaran, Paolo Monti, Wanjun Huang, Marco Tacca, and Miguel Razo

Subjects

Computer science, business.industry, Wavelength-division multiplexing, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Path (graph theory), Data_CODINGANDINFORMATIONTHEORY, Transceiver, Optical performance monitoring, business, Optical add-drop multiplexer, Multiplexer, Computer network

Abstract

A careful wavelength assignment (WA) to lambda services must be performed to reduce the total number of wavelength converters (WCs) that are required when the wavelength continuity constraint cannot be met in wavelength division multiplexing (WDM) networks. With the successful introduction of reconfigurable optical add-drop multiplexers (ROADMs), WDM networks are now growing in size, both in the number of optical nodes and the number of wavelengths supported. Fast and memory efficient WA algorithms are required to design cost effective large WDM networks. This paper presents a scalable and efficient WA heuristic algorithm aimed at reducing the total number of WCs that are required in (large) WDM networks bearing static lambda services. The WA algorithm is applied to both unprotected and (dedicated) protected lambda services. In the latter case, the wavelength continuity constraint between the working and protection path of a lambda service is taken into consideration when non-tunable optical transceivers are employed.

Published

2010

17. Design of hierarchical WDM networks

Author

Limin Tang, Zhicheng Sui, Arularasi Sivasankaran, Wanjun Huang, Paolo Monti, Marco Tacca, Young Lee, Miguel Razo, Hars Vardhan, Andrea Fumagalli, Xinchao Liu, and Shreejith Billenahalli

Subjects

Metropolitan area network, Network planning and design, Engineering, business.industry, Wavelength-division multiplexing, Bandwidth (signal processing), business, Network topology, Telecommunications network, Multiplexer, Electronic mail, Computer network

Abstract

Hierarchical (multi-core) Wavelength Division Multiplexing (WDM) networks present a challenging design problem to the network designer who wishes to establish all-optical circuits end-to-end and across multiple network cores. Due to the nature of the hierarchical structure and its traffi distribution, it is likely that the inner core requires more capacity when compared to the capacity required by the metro cores, which are individually connected to the inner core. This capacity mismatch cannot be addressed by assigning distinct transmission rates to each core, as this solution would result in using electronic time division add-drop multiplexer to interconnect the traffi across cores with distinct rates. An alternative solution to addressing the capacity mismatch between WDM metro and inner core is explored in this paper, which is based on a limited number of wavelengths (a subset of the full set) being used in the metro core, when compared to the full set of wavelengths being used in the inner core. Two available architectures are presented in the paper, discussing their respective advantages and disadvantages.

Published

2009

18. A wavelength sharing and assignment heuristic to minimize the number of wavelength converters in resilient WDM networks

Author

Hars Vardhan, Paolo Monti, Arularasi Sivasankaran, Marco Tacca, Miguel Razo, Wanjun Huang, Shreejith Billenahalli, Andrea Fumagalli, and Limin Tang

Subjects

Channel allocation schemes, business.industry, Path protection, Heuristic (computer science), Computer science, Wavelength-division multiplexing, Scalability, Physics::Optics, Reconfigurable optical add-drop multiplexer, business, Integer programming, Multiplexer, Computer network

Abstract

With the successful introduction of reconfigurable optical add-drop multiplexers (ROADMs) and related technologies, WDM networks are now growing in the number of optical nodes, wavelengths, and lambda services supported. In addition, shared path protection mechanisms — whereby lambda services are allowed to share protection wavelength channels — are possible at the optical (WDM) layer. Efficient strategies must be devised to both determine the set of services that must share a common protection wavelength channel and assign wavelengths to every service. One objective of these strategies is to minimize the total number of wavelength converters (WCs), which are required every time the wavelength continuity constraint cannot be met. This paper presents a scalable and efficient heuristic, whose goal is to minimize the number of WCs in resilient WDM networks supporting static sets of shared path protection lambda services. The heuristic comprises a set of polynomial algorithms that are executed sequentially to obtain a sub-optimal solution. In small size instances of the problem, the heuristic is compared against the optimal solution obtained from ILP formulation. For large size instances — tens of thousands of lambda services and hundreds of nodes — the heuristic yields an average number of WCs that is close to be linear in the number of services, despite the fact that the wavelength sharing factor increases.

Published

2009

19. Finding a simple path with multiple must-include nodes

Author

Marco Tacca, Miguel Razo, Paolo Monti, Arularasi Sivasankaran, Limin Tang, Andrea Fumagalli, Wanjun Huang, Shreejith Billenahalli, and Hars Vardhan

Subjects

Divide and conquer algorithms, Computational complexity theory, Computer science, business.industry, Node (computer science), Shortest path problem, Path (graph theory), Fast path, Topology, business, Average path length, Longest path problem, Computer network

Abstract

This paper presents an algorithm to find a simple path in the given network with multiple must-include nodes in the path. The problem of finding a path with must-include node(s) can be easily found in some special cases. However, in general, including multiple nodes in the simple path has been shown to be NP-Complete. This problem may arise in network areas such as forcing the route to go through particular nodes, which have wavelength converter (optical), have monitoring provision (telecom), have gateway functions (in OSPF) or are base stations (in MANET). In this paper, a heuristic algorithm is described that follows divide and conquer approach, by dividing the problem in two subproblems. It is shown that the algorithm does not grow exponentially in this application and initial re-ordering of the given sequence of must-include nodes can improve the result. The experimental results demonstrate that the algorithm successfully computes near optimal path in reasonable time.

Published

2009

20. The PlaNet-OTN module: A double layer design tool for optical transport networks

Author

Wanjun Huang, Arularasi Sivasankaran, Andrea Fumagalli, Limin Tang, Shreejith Billenahalli, Hars Vardhan, Marco Tacca, Miguel Razo, and Paolo Monti

Subjects

Network planning and design, Engineering, Optical Transport Network, business.industry, Wavelength-division multiplexing, Synchronous optical networking, Design tool, Provisioning, Load balancing (computing), business, GeneralLiterature_MISCELLANEOUS, Networking hardware, Computer network

Abstract

PlaNet is a multilayer network planning tool designed and developed at the University of Texas at Dallas. This paper illustrates some of the features of PlaNet-OTN, one of the modules available in the PlaNet tool. PlaNet-OTN can be used to design and plan an optical transport network (OTN), which is comprised of two layers: wavelength division multiplexing (WDM) layer, which deals with wavelength allocation and routing of WDM services, and optical transport network (OTN) layer, which deals with optical data unit (ODU) equipment provisioning and routing of ODU services. Features of the PlaNet-OTN module include: multiple protection schemes and routing constraints for both WDM and ODU services, network equipment cost minimization, load balancing of traffic, and user-controlled run time of the optimization process. As shown in this paper, the PlaNet-WDM and OTN layers and optimizing equipment usage, hence reducing the cost of the whole network.

Published

2009

21. The PlaNet-PTN Module: a Single Layer Design Tool for Packet Transport Network

Author

Arie Litovsky, Arularasi Sivasankaran, Wanjun Huang, Marco Tacca, Hars Vardhan, Paolo Monti, Limin Tang, Miguel Razo, and Andrea Fumagalli

Subjects

Network planning and design, Backplane, Computer science, business.industry, Node (networking), Design tool, Routing (electronic design automation), Network topology, business, GeneralLiterature_MISCELLANEOUS, Networking hardware, Computer network, Graphical user interface

Abstract

PlaNet is a multilayer network planning tool developed at the University of Texas at Dallas. This paper illustrates some of the features of PlaNet-PTN, one of the modules available in the PlaNet tool. PlaNet-PTN can be used to design and plan a single layer packet transport network (PTN). Quality of protection, routing constraints, minimization of the network equipment cost, and user’s desired run time of the tool are just some examples of the features available in PlaNet. As shown in the paper, the PlaNet-PTN planning module is able to provide, among others, optimization of Label Switched Path (LSP) routes, link capacity placement, node and link equipment configuration.

Published

2009

22. Design of hierarchical WDM networks

Author

Young Lee, Paolo Monti, Hars Vardhan, Limin Tang, Shreejith Billenahalli, Arularasi Sivasankaran, Andrea Fumagalli, Zhicheng Sui, Xinchao Liu, Marco Tacca, Miguel Razo, and Wanjun Huang

Subjects

Metropolitan area network, Interconnection, Transmission (telecommunications), Computer science, Wavelength-division multiplexing, Distributed computing, Inner core, Division (mathematics), Multiplexer, Telecommunications network

Abstract

Hierarchical (multi-core) Wavelength Division Multiplexing (WDM) networks present a challenging design problem to the network designer who wishes to establish all-optical circuits end-to-end and across multiple network cores. Due to the nature of the hierarchical structure and its traffi distribution, it is likely that the inner core requires more capacity when compared to the capacity required by the metro cores, which are individually connected to the inner core. This capacity mismatch cannot be addressed by assigning distinct transmission rates to each core, as this solution would result in using electronic time division add-drop multiplexer to interconnect the traffi across cores with distinct rates. An alternative solution to addressing the capacity mismatch between WDM metro and inner core is explored in this paper, which is based on a limited number of wavelengths (a subset of the full set) being used in the metro core, when compared to the full set of wavelengths being used in the inner core. Two available architectures are presented in the paper, discussing their respective advantages and disadvantages.