Abstract
This paper investigates a multi-service activation procedure for telecommunications carriers’ zero-touch provisioning workflows using access network virtualization technologies in an optical access network. We examine a procedure in which one network function or a set of functions is initiated depending on the services to be activated after a line is automatically opened in response to a customer’s action. The feasibility of this procedure is experimentally verified in a joint testbed environment between three Asia-Pacific telecommunications carriers. The results showed that even when 32 customers simultaneously request service activation, it takes less than 30 seconds for all of the customers’ requests to be completed. In addition, we discuss potential implementations for activating various multi-service provisioning in response to customer requirements and network isolation in terms of virtualized resources and infrastructure. We also propose an implementation that utilizes network resources shared by various services more efficiently than that presented in our previous conference report, and we experimentally verify its feasibility. In addition, the experimental configurations briefly described in the previous report are described in detail in this paper.
Highlights
Passive optical network (PON) systems are widely used to support fiber to the home (FTTH)
The results show that even if 32 customers request service activation simultaneously, it takes less than 30 seconds for the last customer’s service to be activated
We verified the feasibility of automatic line opening and a multi-service activation procedure based on zero-touch provisioning (ZTP) for access network virtualization technologies, using a pluggable module-type optical line terminal (OLT)
Summary
Passive optical network (PON) systems are widely used to support fiber to the home (FTTH). An optical splitter is arranged in the optical distribution network, which enables multiple users to share a single optical fiber. This configuration is used to efficiently deliver FTTH services. Future optical access networks will need to accommodate services such as 4K/8K high-definition video distribution, cloud edge computing, massive machine type communication (mMTC), and cyber physical integration, while conventional systems will only continue to provide broadband services to the homes of customers. Flexible and agile systems are needed to deliver new services such as cross-selling with video services or mobile access. To meet these requirements, optical access systems must be able to provide services flexibly and quickly
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