A. Ahmed, H. Arkian, D. Battulga, A. J. Fahs, M. Farhadi et al., Fog computing applications: Taxonomy and requirements, 2019.

A. Aral and T. Ovatman, A decentralized replica placement algorithm for edge computing, ), vol.15, 2018.

P. Bellavista and A. Zanni, Feasibility of fog computing deployment based on Docker containerization over RaspberryPi, Proc. ACM ICDCN, 2017.

G. Fatma-ben-jemaa, M. Pujolle, and . Pariente, QoS-aware VNF placement optimization in edge-central carrier cloud architecture, Proc. IEEE GLOBE-COM, 2016.

R. N. Calheiros, R. Ranjan, A. Beloglazov, C. Augusto-fonticielha-de-rose, and R. Buyya, CloudSim: a toolkit for modeling and simulation of cloud computing environments and evaluation of resource provisioning algorithms. Software: Practice and Experience, vol.41, 2011.

F. Dabek, R. Cox, F. Kaashoek, and R. Morris, Vivaldi: A decentralized network coordinate system, Proc. ACM SIGCOMM, 2004.

M. S. Elbamby, C. Perfecto, M. Bennis, and K. Doppler, Toward low-latency and ultra-reliable virtual reality, IEEE Network, vol.32, issue.2, 2018.

A. Fahs and G. Pierre, Proximity-aware traffic routing in distributed fog computing platforms, Proc. ACM/IEEE CCGrid, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02048965

H. Gupta, A. Vahid-dastjerdi, S. K. Ghosh, and R. Buyya, iFogSim: A toolkit for modeling and simulation of resource management techniques in the Internet of Things, edge and fog computing environments. Software: Practice and Experience, vol.47, 2017.

. Hashicorp and . Serf, , 2019.

H. Hong, P. Tsai, and C. Hsu, Dynamic module deployment in a fog computing platform, Proc. IEEE APNOMS, 2016.

, IEEE standard for adoption of OpenFog reference architecture for fog computing, IEEE, 2018.

M. Karlsson, C. Karamanolis, and M. Mahalingam, A framework for evaluating replica placement algorithms, 2002.

I. Lera, C. Guerrero, and C. Juiz, Comparing centrality indices for network usage optimization of data placement policies in fog devices, Proc. IEEE FMEC, 2018.

C. Li, Y. Wang, H. Tang, Y. Zhang, Y. Xin et al., Flexible replica placement for enhancing the availability in edge computing environment, Computer Communications, p.146, 2019.

K. Li and J. Nabrzyski, Traffic-aware virtual machine placement in cloudlet mesh with adaptive bandwidth, Proc. IEEE CloudCom, 2017.

J. Liu, B. Bai, J. Zhang, and K. B. Letaief, Cache placement in Fog-RANs: From centralized to distributed algorithms, IEEE Transactions on Wireless Communications, vol.16, issue.11, 2017.

M. Islam-naas, P. R. Parvedy, J. Boukhobza, and L. Lemarchand, iFogStor: an IoT data placement strategy for fog infrastructure, Proc. IEEE ICFEC, 2017.

. Optimizely, The most misleading measure of response time. White paper, 2013.

Y. Shao, C. Li, and H. Tang, A data replica placement strategy for IoT workflows in collaborative edge and cloud environments, Computer Networks, vol.148, 2019.

A. Silvestro, N. Mohan, J. Kangasharju, F. Schneider, and X. Fu, Mute: Multi-tier edge networks, Proc. CrossCloud, 2018.

O. Skarlat, M. Nardelli, S. Schulte, and S. Dustdar, Towards QoS-aware fog service placement, Proc. ICFEC, 2017.

H. Tang, C. Li, J. Bai, J. Tang, and Y. Lu-otang, Dynamic resource allocation strategy for latency-critical and computationintensive applications in cloud-edge environment, Computer Communications, vol.134, 2019.

, The Kubernetes Authors. Kubernetes

G. Urdaneta, G. Pierre, and M. Van-steen, Wikipedia workload analysis for decentralized hosting, vol.53, 2009.

J. Xu, B. Palanisamy, H. Ludwig, and Q. Wang, Zenith: Utilityaware resource allocation for edge computing, Proc. IEEE EDGE, 2017.

Y. Yu, T. Chiu, A. Pang, M. Chen, and J. Liu, Virtual machine placement for backhaul traffic minimization in fog radio access networks, Proc. IEEE ICC, 2017.

L. Zhao, J. Liu, Y. Shi, W. Sun, and H. Guo, Optimal placement of virtual machines in mobile edge computing, Proc. IEEE GLOBECOM, 2017.