PECSA: Practical Edge Computing Service Architecture Applicable to Adaptive IoT-Based Applications

The cloud-based Internet of Things (IoT-Cloud) combines the advantages of the IoT and cloud computing, which not only expands the scope of cloud computing but also enhances the data processing capability of the IoT. Users always seek affordable and efficient services, which can be completed by the cooperation of all available network resources, such as edge computing nodes. However, current solutions exhibit significant security and efficiency problems that must be solved. Insider attacks could degrade the performance of the IoT-Cloud due to its natural environment and inherent open construction. Unfortunately, traditional security approaches cannot defend against these attacks effectively. In this paper, a novel practical edge computing service architecture (PECSA), which integrates a trust management methodology with dynamic cost evaluation schemes, is proposed to address these problems. In the architecture, the edge network devices and edge platform cooperate to achieve a shorter response time and/or less economic costs, as well as to enhance the effectiveness of the trust management methodology, respectively. To achieve faster responses for IoT-based requirements, all the edge computing devices and cloud resources cooperate in a reasonable way by evaluating computational cost and runtime resource capacity in the edge networks. Moreover, when cooperated with the edge platform, the edge networks compute trust values of linked nodes and find the best collaborative approach for each user to meet various service requirements. Experimental results demonstrate the efficiency and the security of the proposed architecture.

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DM-MQTT: An Efficient MQTT Based on SDN Multicast for Massive IoT Communications

Sensors ◽

10.3390/s18093071 ◽

2018 ◽

Vol 18 (9) ◽

pp. 3071 ◽

Cited By ~ 12

Author(s):

Jun-Hong Park ◽

Hyeong-Su Kim ◽

Won-Tae Kim

Keyword(s):

Cloud Computing ◽

Traffic Congestion ◽

Data Exchange ◽

Data Transfer ◽

Edge Computing ◽

Computing Paradigm ◽

Transfer Delay ◽

Network Usage ◽

Iot Devices ◽

Edge Networks

Edge computing is proposed to solve the problem of centralized cloud computing caused by a large number of IoT (Internet of Things) devices. The IoT protocols need to be modified according to the edge computing paradigm, where the edge computing devices for analyzing IoT data are distributed to the edge networks. The MQTT (Message Queuing Telemetry Transport) protocol, as a data distribution protocol widely adopted in many international IoT standards, is suitable for cloud computing because it uses a centralized broker to effectively collect and transmit data. However, the standard MQTT may suffer from serious traffic congestion problem on the broker, causing long transfer delays if there are massive IoT devices connected to the broker. In addition, the big data exchange between the IoT devices and the broker decreases network capability of the edge networks. The authors in this paper propose a novel MQTT with a multicast mechanism to minimize data transfer delay and network usage for the massive IoT communications. The proposed MQTT reduces data transfer delays by establishing bidirectional SDN (Software Defined Networking) multicast trees between the publishers and the subscribers by means of bypassing the centralized broker. As a result, it can reduce transmission delay by 65% and network usage by 58% compared with the standard MQTT.

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Optimized Mobile Edge Computing Framework for IoT based Medical Sensor Network Nodes

Journal of Ubiquitous Computing and Communication Technologies - December 2019 ◽

10.36548/jucct.2021.1.004 ◽

2021 ◽

Vol 3 (1) ◽

pp. 33-42

Author(s):

Jennifer S. Raj

Keyword(s):

Cloud Computing ◽

Wearable Sensors ◽

Resource Limitation ◽

Transmission Efficiency ◽

Edge Computing ◽

Task Completion ◽

Network Nodes ◽

Computing Paradigm ◽

Edge Network ◽

Initial Stage

Edge computing is a new computing paradigm that is rapidly emerging in various fields. Task completion is performed by various edge devices with distributed cloud computing in several conventional applications. Resource limitation, transmission efficiency, functionality and other edge network based circumstantial factors make this system more complex when compared to cloud computing. During cooperation between the edge devices, an instability occurs that cannot be ignored. The edge cooperative network is optimized with a novel framework proposed in this paper. This helps in improving the efficiency of edge computing tasks. The cooperation evaluation metrics are defined in the initial stage. Further, the performance of specific tasks are improved by optimizing the edge network cooperation. Real datasets obtained from elderly people and their wearable sensors is used for demonstrating the performance of the proposed framework. The extensive experimentation also helps in validating the efficiency of the proposed optimization algorithm.

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Edge-Oriented Computing: A Survey on Research and Use Cases

Energies ◽

10.3390/en15020452 ◽

2022 ◽

Vol 15 (2) ◽

pp. 452

Author(s):

Nour Alhuda Sulieman ◽

Lorenzo Ricciardi Celsi ◽

Wei Li ◽

Albert Zomaya ◽

Massimo Villari

Keyword(s):

Cloud Computing ◽

Internet Of Things ◽

Autonomous Vehicles ◽

Research Field ◽

Edge Computing ◽

Use Cases ◽

Comprehensive Overview ◽

System Architectures ◽

Computing Paradigm ◽

Edge Networks

Edge computing is a distributed computing paradigm such that client data are processed at the periphery of the network, as close as possible to the originating source. Since the 21st century has come to be known as the century of data due to the rapid increase in the quantity of exchanged data worldwide (especially in smart city applications such as autonomous vehicles), collecting and processing such data from sensors and Internet of Things devices operating in real time from remote locations and inhospitable operating environments almost anywhere in the world is a relevant emerging need. Indeed, edge computing is reshaping information technology and business computing. In this respect, the paper is aimed at providing a comprehensive overview of what edge computing is as well as the most relevant edge use cases, tradeoffs, and implementation considerations. In particular, this review article is focused on highlighting (i) the most recent trends relative to edge computing emerging in the research field and (ii) the main businesses that are taking operations at the edge as well as the most used edge computing platforms (both proprietary and open source). First, the paper summarizes the concept of edge computing and compares it with cloud computing. After that, we discuss the challenges of optimal server placement, data security in edge networks, hybrid edge-cloud computing, simulation platforms for edge computing, and state-of-the-art improved edge networks. Finally, we explain the edge computing applications to 5G/6G networks and industrial internet of things. Several studies review a set of attractive edge features, system architectures, and edge application platforms that impact different industry sectors. The experimental results achieved in the cited works are reported in order to prove how edge computing improves the efficiency of Internet of Things networks. On the other hand, the work highlights possible vulnerabilities and open issues emerging in the context of edge computing architectures, thus proposing future directions to be investigated.

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IEEE Access Special Section Editorial: Mobile Edge Computing and Mobile Cloud Computing: Addressing Heterogeneity and Energy Issues of Compute and Network Resources

IEEE Access ◽

10.1109/access.2020.3019975 ◽

2020 ◽

Vol 8 ◽

pp. 163769-163774

Author(s):

Muhammad Khurram Khan ◽

Junaid Shuja ◽

Yaser Jararweh ◽

Guanding Yu ◽

Mohsen Guizani ◽

...

Keyword(s):

Cloud Computing ◽

Mobile Cloud Computing ◽

Special Section ◽

Edge Computing ◽

Mobile Cloud ◽

Mobile Edge Computing ◽

Network Resources ◽

Energy Issues

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Information technology � Cloud computing � Edge computing landscape

10.3403/30390676 ◽

2020 ◽

Keyword(s):

Information Technology ◽

Cloud Computing ◽

Edge Computing ◽

Computing Landscape

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A Survey on Mobile Edge Computing: Focusing on Service Adoption and Provision

Wireless Communications and Mobile Computing ◽

10.1155/2018/8267838 ◽

2018 ◽

Vol 2018 ◽

pp. 1-16 ◽

Cited By ~ 23

Author(s):

Kai Peng ◽

Victor C. M. Leung ◽

Xiaolong Xu ◽

Lixin Zheng ◽

Jiabin Wang ◽

...

Keyword(s):

Cloud Computing ◽

Mobile Networks ◽

Edge Computing ◽

Computation Offloading ◽

Battery Life ◽

Mobile Edge Computing ◽

Service Adoption ◽

Comprehensive Survey ◽

And Storage ◽

Execution Delay

Mobile cloud computing (MCC) integrates cloud computing (CC) into mobile networks, prolonging the battery life of the mobile users (MUs). However, this mode may cause significant execution delay. To address the delay issue, a new mode known as mobile edge computing (MEC) has been proposed. MEC provides computing and storage service for the edge of network, which enables MUs to execute applications efficiently and meet the delay requirements. In this paper, we present a comprehensive survey of the MEC research from the perspective of service adoption and provision. We first describe the overview of MEC, including the definition, architecture, and service of MEC. After that we review the existing MUs-oriented service adoption of MEC, i.e., offloading. More specifically, the study on offloading is divided into two key taxonomies: computation offloading and data offloading. In addition, each of them is further divided into single MU offloading scheme and multi-MU offloading scheme. Then we survey edge server- (ES-) oriented service provision, including technical indicators, ES placement, and resource allocation. In addition, other issues like applications on MEC and open issues are investigated. Finally, we conclude the paper.

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