MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet

MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet

While software-defined networking (SDN) has been widely applied in various networking domains including datacenters, WANs (Wide Area Networks), QoS (Quality of Service) provisioning, service function chaining, etc., it also has foreseeable applications in energy internet (EI), which envisions an int...

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Main Authors: Xi Chen, Yue Chen, Arun Kumar Sangaiah, Shouxi Luo, Hongfang Yu
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Energies
Subjects:
software-defined networking (SDN)
energy internet (EI)
status monitoring
link layer discovery protocol (LLDP)
Online Access:https://www.mdpi.com/1996-1073/12/6/1147
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spelling doaj-58ae6cdb1d52420699529832af37f2a22020-11-24T20:48:02ZengMDPI AGEnergies1996-10732019-03-01126114710.3390/en12061147en12061147MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy InternetXi Chen0Yue Chen1Arun Kumar Sangaiah2Shouxi Luo3Hongfang Yu4School of Computer Science and Technology, Southwest Minzu University, Chengdu 610041, ChinaNational Computer Network Emergency Response Technical Team/Coordination Center of China, Beijing 100029, ChinaSchool of Computing Science and Engineering, Vellore Institute of Technology, Tamil Nadu 632014, IndiaSchool of Information Science and Technology, Southwest Jiaotong University, Chengdu 611756, ChinaSchool of Information and Communication Engineering, University of Electronic Science and Technology of China, Chengdu 611731, ChinaWhile software-defined networking (SDN) has been widely applied in various networking domains including datacenters, WANs (Wide Area Networks), QoS (Quality of Service) provisioning, service function chaining, etc., it also has foreseeable applications in energy internet (EI), which envisions an intelligent energy industry on the basis of (information) internet. Global awareness provided by SDN is especially useful in system monitoring in EI to achieve optimal energy transportation, sharing, etc. Link layer discovery protocol (LLDP) plays a key role in global topology discovery in software-defined energy internet when SDN is applied. Nevertheless, EI-related status information (power loads, etc.) is not collected during the LLDP-based topology discovery process initiated by the SDN controller, which makes the optimal decision making (e.g., efficient energy transportation and sharing) difficult. This paper proposes MonLink, a piggyback status-monitoring scheme over LLDP in software-defined energy internet with SDN-equipped control plane and data plane. MonLink extends the original LLDP by introducing metric type/length/value (TLV) fields so as to collect status information and conduct status monitoring in a piggyback fashion over LLDP during topology discovery simultaneously without the introduction of any newly designed dedicated status monitoring protocol. Several operation modes are derived for MonLink, namely, periodic MonLink, which operates based on periodic timeouts, proactive MonLink, which operates based on explicit API invocations, and adaptive MonLink, which operates sensitively and self-adaptively to status changes. Various northbound APIs are also designed so that upper layer network applications can make full use of the status monitoring facility provided by MonLink. Experiment results indicate that MonLink is a lightweight protocol capable of efficient monitoring of topological and status information with very low traffic overhead, compared with other network monitoring schemes such as sFlow.https://www.mdpi.com/1996-1073/12/6/1147software-defined networking (SDN)energy internet (EI)status monitoringlink layer discovery protocol (LLDP)
collection DOAJ
language English
format Article
sources DOAJ
author Xi Chen
Yue Chen
Arun Kumar Sangaiah
Shouxi Luo
Hongfang Yu
spellingShingle Xi Chen
Yue Chen
Arun Kumar Sangaiah
Shouxi Luo
Hongfang Yu
MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet
Energies
software-defined networking (SDN)
energy internet (EI)
status monitoring
link layer discovery protocol (LLDP)
author_facet Xi Chen
Yue Chen
Arun Kumar Sangaiah
Shouxi Luo
Hongfang Yu
author_sort Xi Chen
title MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet
title_short MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet
title_full MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet
title_fullStr MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet
title_full_unstemmed MonLink: Piggyback Status Monitoring over LLDP in Software-Defined Energy Internet
title_sort monlink: piggyback status monitoring over lldp in software-defined energy internet
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2019-03-01
description While software-defined networking (SDN) has been widely applied in various networking domains including datacenters, WANs (Wide Area Networks), QoS (Quality of Service) provisioning, service function chaining, etc., it also has foreseeable applications in energy internet (EI), which envisions an intelligent energy industry on the basis of (information) internet. Global awareness provided by SDN is especially useful in system monitoring in EI to achieve optimal energy transportation, sharing, etc. Link layer discovery protocol (LLDP) plays a key role in global topology discovery in software-defined energy internet when SDN is applied. Nevertheless, EI-related status information (power loads, etc.) is not collected during the LLDP-based topology discovery process initiated by the SDN controller, which makes the optimal decision making (e.g., efficient energy transportation and sharing) difficult. This paper proposes MonLink, a piggyback status-monitoring scheme over LLDP in software-defined energy internet with SDN-equipped control plane and data plane. MonLink extends the original LLDP by introducing metric type/length/value (TLV) fields so as to collect status information and conduct status monitoring in a piggyback fashion over LLDP during topology discovery simultaneously without the introduction of any newly designed dedicated status monitoring protocol. Several operation modes are derived for MonLink, namely, periodic MonLink, which operates based on periodic timeouts, proactive MonLink, which operates based on explicit API invocations, and adaptive MonLink, which operates sensitively and self-adaptively to status changes. Various northbound APIs are also designed so that upper layer network applications can make full use of the status monitoring facility provided by MonLink. Experiment results indicate that MonLink is a lightweight protocol capable of efficient monitoring of topological and status information with very low traffic overhead, compared with other network monitoring schemes such as sFlow.
topic software-defined networking (SDN)
energy internet (EI)
status monitoring
link layer discovery protocol (LLDP)
url https://www.mdpi.com/1996-1073/12/6/1147
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