@inbook {1585, title = {Solution of a Real-Life Vehicle Routing Problem with Meal Breaks and Shifts}, booktitle = {Green Transportation and New Advances in Vehicle Routing Problems}, year = {2020}, pages = {131{\textendash}157}, publisher = {Springer International Publishing}, organization = {Springer International Publishing}, doi = {10.1007/978-3-030-45312-1_5}, url = {https://doi.org/10.1007/978-3-030-45312-1_5} } @article {1445, title = {SLA-aware optimal resource allocation for service-oriented networks}, journal = {Future Generation Computer Systems}, volume = {101}, year = {2019}, pages = {959-974}, abstract = {

The popularity of traditional network services and web content is succeeded by the recent trend in customized services proliferated by the smart devices and gadgets. Fall-risk assessment, augmented reality, ECG (electrocardiography) monitoring, virtual reality-based gaming and similar services are driven through data generated by multi-modal sensors embedded in the end-user equipment. These services may possess varying characteristics and requirements represented with performance metrics and Quality of Service (QoS) parameters. Even though the small form-factor end-user gadgets are getting powerful in terms of resource capacity, they are still incapable of executing complex routines, and thus these tasks should be offloaded to a remote machine. Service-Centric Networks (SCN) focus on delivering customized services to the users in a location-independent fashion. This is in parallel with previous vision put forward by the Information-Centric Networks (ICN) and Content Delivery Networks (CDN), which aim to enhance the end-user experience. The novel set of services for complementing the daily activities of the end-users mostly depicts a latency-intolerant attribute which ultimately calls for a full-fledged resource allocation scheme. Within this context, both computation and networking resources should be allocated optimally, and task assignments should be handled precisely for following the requirements specified by the Service Level Agreements (SLAs). This paper initially presents and discusses problem definitions that should be addressed by the service-centric multi-tier computing architecture that is composed of edge, metro, and cloud servers. In order to achieve this objective, an SLA-aware optimal resource allocation and task assignment model for service-oriented networks is proposed. This optimization model is based on a nonlinear delay formulation for accommodating service-centric network scenarios under various conditions. It is then reshaped as a mixed-integer linear model through piecewise linear approximation. Additionally, a heuristic implementation is presented to address the time and space complexities of the problem for which the aforementioned optimization models remain ineffective. Performance evaluation results show that the proposed solutions are able to find a good allocation of resources while taking the requirements of the services into account.

}, keywords = {Cloud computing, Edge computing, Network optimization, Service-centric networks, Task offloading}, issn = {0167-739X}, doi = {https://doi.org/10.1016/j.future.2019.07.050}, url = {https://www.sciencedirect.com/science/article/pii/S0167739X19306430}, author = {Ahmet Cihat Bakt{\i}r and Bet{\"u}l Ahat and Necati Aras and Atay {\"O}zg{\"o}vde and Cem Ersoy} } @inbook {aras2014simultaneous, title = {Simultaneous Optimization of Berth Allocation, Quay Crane Assignment and Quay Crane Scheduling Problems in Container Terminals}, booktitle = {Operations Research Proceedings 2012}, year = {2014}, pages = {101{\textendash}107}, publisher = {Springer International Publishing}, organization = {Springer International Publishing}, author = {Necati Aras and T{\"u}rko{\u g}ullar{\i}, Yavuz and Z C Ta{\c s}k{\i}n and I. Kuban Altinel} } @article {aras2011selective, title = {Selective multi-depot vehicle routing problem with pricing}, journal = {Transportation Research Part C: Emerging Technologies}, volume = {19}, number = {5}, year = {2011}, pages = {866{\textendash}884}, publisher = {Elsevier}, author = {Necati Aras and Aksen, Deniz and Tu{\u g}rul Tekin, Mehmet} } @article {ozkisacik2009solving, title = {Solving probabilistic multi-facility Weber problem by vector quantization}, journal = {OR spectrum}, volume = {31}, number = {3}, year = {2009}, pages = {533{\textendash}554}, publisher = {Springer-Verlag}, author = {{\"O}zk{\i}sac{\i}k, Kerem Can and I. Kuban Altinel and Necati Aras} } @inbook {aras2007solving, title = {Solving the capacitated multi-facility Weber problem by simulated annealing, threshold accepting and genetic algorithms}, booktitle = {Metaheuristics}, year = {2007}, pages = {91{\textendash}112}, publisher = {Springer US}, organization = {Springer US}, author = {Necati Aras and Yumusak, Sadettin and I. Kuban Altinel} } @article {aras2006solving, title = {Solving the uncapacitated multi-facility Weber problem by vector quantization and self-organizing maps}, journal = {Journal of the Operational Research Society}, volume = {57}, number = {1}, year = {2006}, pages = {82{\textendash}93}, publisher = {Nature Publishing Group}, author = {Necati Aras and {\"O}zk{\i}sac{\i}k, KC and I. Kuban Altinel} } @conference {altmel2003self, title = {A self-organizing method for map reconstruction}, booktitle = {Neural Networks for Signal Processing, 2003. NNSP{\textquoteright}03. 2003 IEEE 13th Workshop on}, year = {2003}, pages = {677{\textendash}687}, publisher = {IEEE}, organization = {IEEE}, author = {I. Kuban Altinel and Necati Aras and Oommen, BJ} } @inbook {oommen1999solving, title = {Solving the Travelling Salesman Problem using the Kohonen Network Incorporating Explicit Statistics}, booktitle = {Neural Nets WIRN VIETRI-98}, year = {1999}, pages = {273{\textendash}282}, publisher = {Springer London}, organization = {Springer London}, author = {Oommen, B John and Necati Aras and I. Kuban Altinel} }