None Jaime Fúster de la Fuente, None Álvaro Pendás Recondo, None Paul Harvey, None Tarek Mohamed, None Chandan Singh, None Vipul Sanap, None Ayush Kumar, None Sathish Venkateswaran, None Sarvasuddi Balaganesh, None Rajat Duggal, None Sree Ganesh Lalitaditya Divakarla, None Vaibhava Krishna Devulapali, None Ebeledike Frank Chukwubuikem, None Emmanuel Othniel Eggah, None Abel Oche Moses, None Nuhu Kontagora Bello, None James Agajo, None Wael Alron, None Fathi Abdeldayem, None Melanie Espinoza Hernández, None Abigail Morales Retana, None Jackeline García Alvarado, None Nicolle Gamboa Mena, None Juliana Morales Alvarado, None Ericka Pérez Chinchilla, None Amanda Calderón Campos, None Derek Rodríguez Villalobos, None Oscar Castillo Brenes, None Kodandram Ranganath, None Ayushi Khandal, None Rakshesh P Bhatt, None Kunal Mahajan, None Prikshit CS, None Ashok Kamaraj, None Srinwaynti Samaddar, None Sivaramakrishnan Swaminathan, None M Sri Bhuvan, None Nagaswaroop S N, None Blessed Guda, None Ibrahim Aliyu, None Kim Jinsul, None Vishnu Ram
{"title":"构建自己的闭环:基于图的自主网络闭环概念证明","authors":"None Jaime Fúster de la Fuente, None Álvaro Pendás Recondo, None Paul Harvey, None Tarek Mohamed, None Chandan Singh, None Vipul Sanap, None Ayush Kumar, None Sathish Venkateswaran, None Sarvasuddi Balaganesh, None Rajat Duggal, None Sree Ganesh Lalitaditya Divakarla, None Vaibhava Krishna Devulapali, None Ebeledike Frank Chukwubuikem, None Emmanuel Othniel Eggah, None Abel Oche Moses, None Nuhu Kontagora Bello, None James Agajo, None Wael Alron, None Fathi Abdeldayem, None Melanie Espinoza Hernández, None Abigail Morales Retana, None Jackeline García Alvarado, None Nicolle Gamboa Mena, None Juliana Morales Alvarado, None Ericka Pérez Chinchilla, None Amanda Calderón Campos, None Derek Rodríguez Villalobos, None Oscar Castillo Brenes, None Kodandram Ranganath, None Ayushi Khandal, None Rakshesh P Bhatt, None Kunal Mahajan, None Prikshit CS, None Ashok Kamaraj, None Srinwaynti Samaddar, None Sivaramakrishnan Swaminathan, None M Sri Bhuvan, None Nagaswaroop S N, None Blessed Guda, None Ibrahim Aliyu, None Kim Jinsul, None Vishnu Ram","doi":"10.52953/opdk5666","DOIUrl":null,"url":null,"abstract":"Next Generation Networks (NGNs) are expected to handle heterogeneous technologies, services, verticals and devices of increasing complexity. It is essential to fathom an innovative approach to automatically and efficiently manage NGNs to deliver an adequate end-to-end Quality of Experience (QoE) while reducing operational expenses. An Autonomous Network (AN) using a closed loop can self-monitor, self-evaluate and self-heal, making it a potential solution for managing the NGN dynamically. This study describes the major results of building a closed-loop Proof of Concept (PoC) for various AN use cases organized by the International Telecommunication Union Focus Group on Autonomous Networks (ITU FG-AN). The scope of this PoC includes the representation of closed-loop use cases in a graph format, the development of evolution/exploration mechanisms to create new closed loops based on the graph representations, and the implementation of a reference orchestrator to demonstrate the parsing and validation of the closed loops. The main conclusions and future directions are summarized here, including observations and limitations of the PoC.","PeriodicalId":93013,"journal":{"name":"ITU journal : ICT discoveries","volume":"26 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-09-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Build your own closed loop: Graph-based proof of concept in closed loop for autonomous networks\",\"authors\":\"None Jaime Fúster de la Fuente, None Álvaro Pendás Recondo, None Paul Harvey, None Tarek Mohamed, None Chandan Singh, None Vipul Sanap, None Ayush Kumar, None Sathish Venkateswaran, None Sarvasuddi Balaganesh, None Rajat Duggal, None Sree Ganesh Lalitaditya Divakarla, None Vaibhava Krishna Devulapali, None Ebeledike Frank Chukwubuikem, None Emmanuel Othniel Eggah, None Abel Oche Moses, None Nuhu Kontagora Bello, None James Agajo, None Wael Alron, None Fathi Abdeldayem, None Melanie Espinoza Hernández, None Abigail Morales Retana, None Jackeline García Alvarado, None Nicolle Gamboa Mena, None Juliana Morales Alvarado, None Ericka Pérez Chinchilla, None Amanda Calderón Campos, None Derek Rodríguez Villalobos, None Oscar Castillo Brenes, None Kodandram Ranganath, None Ayushi Khandal, None Rakshesh P Bhatt, None Kunal Mahajan, None Prikshit CS, None Ashok Kamaraj, None Srinwaynti Samaddar, None Sivaramakrishnan Swaminathan, None M Sri Bhuvan, None Nagaswaroop S N, None Blessed Guda, None Ibrahim Aliyu, None Kim Jinsul, None Vishnu Ram\",\"doi\":\"10.52953/opdk5666\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Next Generation Networks (NGNs) are expected to handle heterogeneous technologies, services, verticals and devices of increasing complexity. 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Build your own closed loop: Graph-based proof of concept in closed loop for autonomous networks
Next Generation Networks (NGNs) are expected to handle heterogeneous technologies, services, verticals and devices of increasing complexity. It is essential to fathom an innovative approach to automatically and efficiently manage NGNs to deliver an adequate end-to-end Quality of Experience (QoE) while reducing operational expenses. An Autonomous Network (AN) using a closed loop can self-monitor, self-evaluate and self-heal, making it a potential solution for managing the NGN dynamically. This study describes the major results of building a closed-loop Proof of Concept (PoC) for various AN use cases organized by the International Telecommunication Union Focus Group on Autonomous Networks (ITU FG-AN). The scope of this PoC includes the representation of closed-loop use cases in a graph format, the development of evolution/exploration mechanisms to create new closed loops based on the graph representations, and the implementation of a reference orchestrator to demonstrate the parsing and validation of the closed loops. The main conclusions and future directions are summarized here, including observations and limitations of the PoC.
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