Feng Zeng scite author profile

Remote clouds are gradually unable to achieve ultra-low latency to meet the requirements of mobile users because of the intolerable long distance between remote clouds and mobile users and the network congestion caused by the tremendous number of users. Mobile edge computing, a new paradigm, has been proposed to mitigate aforementioned effects. Existing studies mostly assume the edge servers have been deployed properly and they just pay attention to how to minimize the delay between edge servers and mobile users. In this paper, considering the practical environment, we investigate how to deploy edge servers effectively and economically in wireless metropolitan area networks. Thus, we address the problem of minimizing the number of edge servers while ensuring some QoS requirements. Aiming at more consistence with a generalized condition, we extend the definition of the dominating set, and transform the addressed problem into the minimum dominating set problem in graph theory. In addition, two conditions are considered for the capacities of edge servers: one is that the capacities of edge servers can be configured on demand, and the other is that all the edge servers have the same capacities. For the on-demand condition, a greedy based algorithm is proposed to find the solution, and the key idea is to iteratively choose nodes that can connect as many other nodes as possible under the delay, degree and cluster size constraints. Furthermore, a simulated annealing based approach is given for global optimization. For the second condition, a greedy based algorithm is also proposed to satisfy the capacity constraint of edge servers and minimize the number of edge servers simultaneously. The simulation results show that the proposed algorithms are feasible.

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Mobility-Aware and Migration-Enabled Online Edge User Allocation in Mobile Edge Computing

Peng

Xia

Zeng

et al. 2019

103

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Volunteer Assisted Collaborative Offloading and Resource Allocation in Vehicular Edge Computing

Zeng

Qiao

Meng

et al. 2021

IEEE Trans. Intell. Transport. Syst.

106

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Dedicated Protection for Survivable Virtual Network Embedding

Chowdhury

Ahmed

Khan

et al. 2016

IEEE Trans. Netw. Serv. Manage.

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Network virtualization is enabling infrastructure providers (InPs) to offer new services to service providers (SPs). InPs are usually bound by Service Level Agreements (SLAs) to ensure various levels of resource availability for different SPs' virtual networks (VNs). They provision redundant backup resources while embedding an SP's VN request to conform to the SLAs during physical failures in the infrastructure. An extreme backup resource provisioning is to reserve a mutually exclusive backup of each element in an SP's VN request. Such dedicated protection scheme can enable an InP to ensure fast VN recovery, thus, providing high uptime guarantee to the SPs. In this paper, we study the 1 + 1-Protected Virtual Network Embedding (1 + 1-ProViNE) problem. We propose Dedicated Protection for Virtual Network Embedding (DRONE), a suite of solutions to the 1 + 1-ProViNE problem. DRONE includes an Integer Linear Programming (ILP) formulation for optimal solution (OPT-DRONE) and a heuristic (FAST-DRONE) to tackle the computational complexity of the optimal solution. Trace driven simulations show that FAST-DRONE allocates only 14.3% extra backup resources on average compared to the optimal solution, while executing 200 -1200 times faster. Simulation results also show that FAST-DRONE can accept 4 times more VN requests on average compared to the state-of-the-art solution for providing dedicated protection to VNs.

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Collaborative mobile charging policy for perpetual operation in large-scale wireless rechargeable sensor networks

Chen

Zhang

et al. 2017

Neurocomputing

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Feng Zeng

Cost-Effective Edge Server Placement in Wireless Metropolitan Area Networks

Mobility-Aware and Migration-Enabled Online Edge User Allocation in Mobile Edge Computing

Volunteer Assisted Collaborative Offloading and Resource Allocation in Vehicular Edge Computing

Dedicated Protection for Survivable Virtual Network Embedding

Collaborative mobile charging policy for perpetual operation in large-scale wireless rechargeable sensor networks

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