This page is intended as a holding/planning area for an upcoming ONAP Academic Summit in October 2018.
When
- October 22nd and 23rd, 2018
Where
33 Thomas Street, New York City
https://events.linuxfoundation.org/events/academic-summit/
ONAP Academic Summit Tentative Agenda (Oct 22-23, 2018)
Day 1: Tutorial “Introduction to ONAP”
8:30am – 9:00am Registration and Breakfast
9:00am - 9:30am Introduction (Phil Robb, Linux Foundation)
9:30am – 10:30am ONAP architecture overview - components, role, capabilities, contribute to ONAP (TBD)
10:30am – 11:00am Coffee break
11:00am – 12:00pm ONAP instantiation (Mandeep Khinda, Amdocs)
12:00pm – 1:00pm Lunch
1:00pm – 3:00pm Deep dive in specific areas
i. New service creation (Liron Shtraichman, Amdocs)
ii. DCAE/Microservices (Lusheng Ji, AT&T)
3:00pm – 3:30pm Coffee break
3:30pm – 5:30pm Deep dive in specific areas (Cont.)
iii. Control loops and policies (Pam Dragosh, AT&T)
iv. ONAP Optimization framework (Shankaranarayanan Puzhavakath Narayanan, AT&T)
6:00pm - Dinner
Day 2: Hands-on Experience “ONAP as an innovation platform”
8:30am – 9:00 am Check in and Breakfast
Student Track: Hands-on Experience
9:00am – 9:15am Introduction and Big Picture (Brian Freeman/Marco Platania, AT&T)
9:15am – 10:30am Hands-on: ONAP instantiation and VNF descriptor
10:30am – 10:50am Coffee break
10:50am – 12:30pm Hands-on: Service design instantiation and close loop
Faculty Track: ONAP use case experiences
9:00am – 9:30am ONAP use case overview
9:30am – 10:30am Use cases
10:30am – 11:00am Coffee break
11:00am – 12:30pm Use cases (cont.)
12:30pm – 1:30pm Lunch
1:30pm – 2:30pm Research challenges and opportunities (summary/overview)
2:30pm – 3:00pm Coffee break
3:00pm – 5:00pm Research challenges and opportunities (break out sessions)
5:00pm – 5:30pm Closing (Mazin Gilbert, AT&T)
Note:
Day 2 morning sessions will have two parallel tracks for students and for faculty.
Suggested topics
- Designing control loops to manage network resource allocation that help mitigate certain network conditions without loss service continuity (or minimize service disruption)
- Creating analytics for fault, performance and service quality management (decide what information to collect, and how to collect and pinpoint the performance issues)
- Enabling new services leveraging ONAP in which new service paths can be established and new resources can be allocated on demand.
- Build intelligent microservice on ONAP using machine learning to tackle network or service conditions etc.
- Optimization (need to ask sarat for optimization framework)
- 6. Policy verification
- Security applications built on top of ONAP
Questions? Please email AcademicSummitRegistration@onap.org