service provisioning
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2022 ◽  
Vol 18 (2) ◽  
pp. 1-25
Author(s):  
Jing Li ◽  
Weifa Liang ◽  
Zichuan Xu ◽  
Xiaohua Jia ◽  
Wanlei Zhou

We are embracing an era of Internet of Things (IoT). The latency brought by unstable wireless networks caused by limited resources of IoT devices seriously impacts the quality of services of users, particularly the service delay they experienced. Mobile Edge Computing (MEC) technology provides promising solutions to delay-sensitive IoT applications, where cloudlets (edge servers) are co-located with wireless access points in the proximity of IoT devices. The service response latency for IoT applications can be significantly shortened due to that their data processing can be performed in a local MEC network. Meanwhile, most IoT applications usually impose Service Function Chain (SFC) enforcement on their data transmission, where each data packet from its source gateway of an IoT device to the destination (a cloudlet) of the IoT application must pass through each Virtual Network Function (VNF) in the SFC in an MEC network. However, little attention has been paid on such a service provisioning of multi-source IoT applications in an MEC network with SFC enforcement. In this article, we study service provisioning in an MEC network for multi-source IoT applications with SFC requirements and aiming at minimizing the cost of such service provisioning, where each IoT application has multiple data streams from different sources to be uploaded to a location (cloudlet) in the MEC network for aggregation, processing, and storage purposes. To this end, we first formulate two novel optimization problems: the cost minimization problem of service provisioning for a single multi-source IoT application, and the service provisioning problem for a set of multi-source IoT applications, respectively, and show that both problems are NP-hard. Second, we propose a service provisioning framework in the MEC network for multi-source IoT applications that consists of uploading stream data from multiple sources of the IoT application to the MEC network, data stream aggregation and routing through the VNF instance placement and sharing, and workload balancing among cloudlets. Third, we devise an efficient algorithm for the cost minimization problem built upon the proposed service provisioning framework, and further extend the solution for the service provisioning problem of a set of multi-source IoT applications. We finally evaluate the performance of the proposed algorithms through experimental simulations. Simulation results demonstrate that the proposed algorithms are promising.


2022 ◽  
Vol 54 (9) ◽  
pp. 1-35
Author(s):  
Ismaeel Al Ridhawi ◽  
Ouns Bouachir ◽  
Moayad Aloqaily ◽  
Azzedine Boukerche

Internet of Things (IoT) systems have advanced greatly in the past few years, especially with the support of Machine Learning (ML) and Artificial Intelligence (AI) solutions. Numerous AI-supported IoT devices are playing a significant role in providing complex and user-specific smart city services. Given the multitude of heterogeneous wireless networks, the plethora of computer and storage architectures and paradigms, and the abundance of mobile and vehicular IoT devices, true smart city experiences are only attainable through a cooperative intelligent and secure IoT framework. This article provides an extensive study on different cooperative systems and envisions a cooperative solution that supports the integration and collaboration among both centralized and distributed systems, in which intelligent AI-supported IoT devices such as smart UAVs provide support in the data collection, processing and service provisioning process. Moreover, secure and collaborative decentralized solutions such as Blockchain are considered in the service provisioning process to enable enhanced privacy and authentication features for IoT applications. As such, user-specific complex services and applications within smart city environments will be delivered and made available in a timely, secure, and efficient manner.


2022 ◽  
Vol 136 ◽  
pp. 102689
Author(s):  
Clemens Blattert ◽  
Kyle Eyvindson ◽  
Markus Hartikainen ◽  
Daniel Burgas ◽  
Maria Potterf ◽  
...  

2022 ◽  
Vol 12 (1) ◽  
pp. 438
Author(s):  
Xiaosong Yu ◽  
Jiye Wang ◽  
Kaixin Zhang ◽  
Jiaqi Lv ◽  
Yongli Zhao ◽  
...  

With the development of optical networks technology, broad attention has been paid to flexible grid technology in optical networks due to its ability to carry large-capacity information as well as provide flexible and fine-grained services through on-demand spectrum resource allocation. However, a one-time green-field deployment of a flexible grid network may not be practical. The transition technology called the fixed/flex-grid optical networks is more applicable and highly pragmatic. In such network, many nodes would likely be upgraded from a fixed-grid to flex-grid. In fact, dynamic service provisioning during the process of a node upgrade in fixed/flex-grid optical networks have become a challenge because the service connection can be easily interrupted, which leads to considerable data loss because of node upgrade. To overcome this challenge, we propose a brown-field migration aware routing and spectrum assignment (BMA-RSA) algorithm in fixed/flex-grid optical networks. The aim is to construct a probabilistic migration label (PML) model. The well-designed label setting of PML can balance the relationship between distance and node-upgrade probability. Dynamic service provisioning operations are undertaken based on the PML model to achieve a migration-aware dynamic connection before network migration occurs. We also evaluate the performance of different service provisioning strategies under different traffic models. The simulation results show that the BMA-RSA algorithm can achieve: (1) the tradeoff between distance and node upgrade probability during the process of service provisioning; (2) lower service interruption compared with the traditional non-migration aware K-shortest-path routing and spectrum assignment algorithm.


Author(s):  
Indranil Sarkar ◽  
Mainak Adhikari ◽  
Sanjay Kumar ◽  
Varun G Menon

2022 ◽  
pp. 108691
Author(s):  
Zain Abubaker ◽  
Nadeem Javaid ◽  
Ahmad Almogren ◽  
Mariam Akbar ◽  
Mansour Zuair ◽  
...  

Today, virtual teams composed by dispersed team members relying on computer-supported collaborative work are common in the information technology (IT) service provisioning industry. Despite the increasing interest in virtual team research, there is a limited understanding of a multidimensional view of team dispersion and its effect on the performance of virtual teams via the team´s socioemotional states. The purpose of this paper is to investigate the influence of team distribution and variety of work practices on the performance of virtual IT service provisioning teams via the emergent states of trust and cohesiveness. To this aim, an input-process-output framework was adopted to develop a conceptual model and a survey with IT service provisioning professionals was conducted. The results suggest that a variety of work practices constitutes a barrier to the performance of virtual IT service provisioning teams; and that trust and cohesiveness are important mediators in this cause-effect relationship.


2021 ◽  
Author(s):  
Taras Maksymyuk ◽  
Marcel Volosin ◽  
Juraj Gazda ◽  
Madhusanka Liyanage

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