%0 Journal Article %1 nassar2018splitting %A Nassar, Badr Oulad %A Tachibana, Takuji %D 2018 %E Meghanathan, Natarajan %J International Journal of Computer Networks & Communications (IJCNC) %K Elastic Embedding, Network Network, Networks, Optical Path Splitting, Virtual %N 2 %P 1-13 %R 10.5121/ijcnc.2018.10201 %T Path Splitting for Virtual Network Embedding in Elastic Optical Networks %U http://airccse.org/journal/ijc2018.html %V 10 %X In elastic optical networks, a wavelength is divided into frequency slots (FS) and optical signals are switched at multiple FS intervals. On the other hand, network virtualization manages network resources by efficiently mapping virtual nodes and links to physical ones (virtual network embedding). In this paper, we propose a dynamic virtual network embedding algorithm to decrease the rejection rate of virtual optical network requests. We define four schemes for node mapping. For link mapping, the primary path, which is the shortest path between the mapped nodes, is computed. If there are no available FSs, path splitting is performed and FSs are assigned at links in primary and alternatives paths. By simulation, we evaluate the effectiveness of path splitting for NSFNET and ARPA2. Numerical results show that path splitting is effective in decreasing the rejection rate. Finally, LLNL scheme, which considers both node and link resources, has the smallest rejection rate.

@article{nassar2018splitting, abstract = {In elastic optical networks, a wavelength is divided into frequency slots (FS) and optical signals are switched at multiple FS intervals. On the other hand, network virtualization manages network resources by efficiently mapping virtual nodes and links to physical ones (virtual network embedding). In this paper, we propose a dynamic virtual network embedding algorithm to decrease the rejection rate of virtual optical network requests. We define four schemes for node mapping. For link mapping, the primary path, which is the shortest path between the mapped nodes, is computed. If there are no available FSs, path splitting is performed and FSs are assigned at links in primary and alternatives paths. By simulation, we evaluate the effectiveness of path splitting for NSFNET and ARPA2. Numerical results show that path splitting is effective in decreasing the rejection rate. Finally, LLNL scheme, which considers both node and link resources, has the smallest rejection rate.}, added-at = {2018-04-05T03:35:55.000+0200}, author = {Nassar, Badr Oulad and Tachibana, Takuji}, biburl = {https://www.bibsonomy.org/bibtex/2d54e08201428fc3e9a2afbce257747f8/laimbee}, doi = {10.5121/ijcnc.2018.10201}, editor = {Meghanathan, Natarajan}, interhash = {f654d1fcb2d0238fc454dd72b9b8951c}, intrahash = {d54e08201428fc3e9a2afbce257747f8}, issn = {09749322}, journal = {International Journal of Computer Networks & Communications (IJCNC) }, keywords = {Elastic Embedding, Network Network, Networks, Optical Path Splitting, Virtual}, language = {English}, month = {March}, number = 2, pages = {1-13}, timestamp = {2018-04-05T03:35:55.000+0200}, title = {Path Splitting for Virtual Network Embedding in Elastic Optical Networks}, url = {http://airccse.org/journal/ijc2018.html}, volume = 10, year = 2018 }