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Project Committers detail:

Initial Committers for a project will be specified at project creation. Committers have the right to commit code to the source code management system for that project.

A Contributor may be promoted to a Committer by the project’s Committers after demonstrating a history of contributions to that project.

Candidates for the project’s Project Technical Leader will be derived from the Committers of the Project. Candidates must self nominate by marking "Y" in the Self Nominate column below by Jan. 16th. Voting will take place January 17th.

Only Committers for a project are eligible to vote for a project’s Project Technical Lead.


Please see Akraino Technical Community Document section 3.1.3 for more detailed information.


Committer

Committer

Company

Committer

Contact Info

 Committer BioCommitter Picture 

Self Nominate for PTL (Y/N)

Tapio Tallgren

Nokia

tapio.tallgren@nokia.com

  


Gerald WinsorNokiagerald.winsor@nokia.com


Juha KosonenNokiajuha.kosonen@nokia.com


Gabor Szabo

Nokiagabor.3.szabo@nokia.com


Levente Kale

Nokialevente.kale@nokia.com


Baha Mesleh

Nokiabaha.mesleh@nokia.com


Raghurama Mandru

Nokiaraghurama.mendru@nokia.com


Chandra Rangavajjula    Nokiachandra.s.rangavajjula@nokia.com


Paul Carver

AT&T

pcarver@att.com

Paul Carver has been involved in AT&T's cloud architecture since 2012, OpenStack since 2013, and OpenContrail since 2014. Prior to it being called "cloud" Paul designed, deployed and supported datacenter and WAN IP networks for a cloud-like interactive voice response system built out of rack after rack of x86 and Sparc servers as far back as 2002. And before that Paul worked on central office hardware and call center software. Most recently Paul has been a leading participant in the transition of OpenContrail into the Tungsten Fabric project under the Linux Foundation Networking umbrella. The Akraino project is perfectly suited to Paul's breadth of experience across telco infrastructure, software development and Open Source community dynamics.

 

Y
 Kandan KathrivelAT&T     

Mike Hunter

AT&T     
 John CriagAT&T    
 Deepak KatariaAT&T     

 

Intel


  

Presentation:


Use Case Details:

Attributes

Description

Informational

Type

New

 

Industry Sector

Telco networks

 

Business driver

Optimizing a radio network is a complex task considering that we want to 

  • Use the available radio spectrum, front haul and back haul network capacity, and signaling capacity optimally 

  • Provide optimal quality of experience considering the application type, user subscription, and user mobility 

  • Be able to collect diagnostic data for fault analysis and performance optimization 

To address these needs, the O-RAN Alliance is defining the Radio Intelligent Controller (RIC) and new interfaces towards the LTE/5G Radio Access Network (RAN). Especially, the RIC has the E2 interface towards the RAN Centralized Unit (CU), and the A1 interface towards an orchestration system such as ONAP. This allows for more intelligence in managing the radio resources. 

Especially, the RIC has a Radio Information Store database with generic information about radio resources, it supports third-party applications with access towards the RAN, and it has a high-speed, high-capacity message bus.

 

Business use cases

As an operator, I want to  

  • Deploy an LTE/5G network as the components RRH, DU, CU, and RIC to leverage the benefits of standard hardware and software infrastructures at the edge of the network 

  • Promote an ecosystem of interchangeable components in the RAN  

  • Enable new machine-learning based algorithms for optimizing radio access  

 

Some use cases that the RIC enables  

  • Sampling Channel Quality Indicators to get a better understanding of the radio network quality in different locations  

  • It supports collecting and storing detailed event logs for troubleshooting and performance optimization 

  • Especially, the 5G network new radios allow fast-speed beamforming. Therefore, it is possible to use intelligent algorithms to guide beamforming with different parameters 

  • There are also other tunable parameters in the radio network related to radio capacity allocation and power saving 

All of these allow for more optimal resource allocation which will benefit the end users with better quality of service. 

The O-RAN: Towards an Open and Smart RAN. O-RAN Alliance White Paper. Available from https://www.o-ran.org
 lists as use cases:

per-UE controlled 

  • Load balancing 

  • RB Management (radio band?) 

  • Interference detection  

  • Interference mitigation 

In addition, it enables 

  • QoS management 

  • Connectivity management 

  • Seamless handover control 

 

 

Business Cost - Initial Build Cost Target Objective

The RIC has different deployment models which have slightly different cost implications: 

  • It can be co-located with the RAN CU  

  • It can be co-located with the Orchestration&Automation system

  • It can be a standalone system

In the first case, as the RIC will run on the same infrastructure as the RAN CU itself, it will meet all the performance requirements. In the second case, the RIC is some distance from the RAN. It is running on cheaper hardware in a datacenter, but since its performance requirements are stricter than that of the Orchestration system, it may require a different infrastructure layer.

 

Business Cost – Target Operational Objective

For Example:

1.Edge Cloud deployable at Central offices with 7 servers in a single rack should incur low operational costs per year

2. In-place upgrade of the Edge cloud should be supported without impacting the availability of the edge applications

3. Edge Solution should have role based access controls, Single Pane of Glass control, administrative and User Based GUIs to manage all   deployments.

4. The automation should also support zero touch provisioning and   management tools to keep operational cost lower

 

Security need

The Radio Edge Cloud should be resistant to physical tampering, but it can be dedicated as a single user system

 

Regulations

The Edge cloud solution should   meet all the industry regulations of   data privacy, telco standards   (NEBS), etc.,

 

Other restrictions

Consider the power restrictions of   specific location in the design (example - Customer premise)

 

Additional details


 


Case Attributes

Description

Informational

Type

New

 

Blueprint Family - Proposed   Name

RT Cloud

 

Use Case

RIC

vRAN

 

Blueprint proposed Name

Radio Edge Cloud

 

Initial POD Cost (capex)


 

Scale & Type

x86 OCP Open Edge servers x 6

 

Applications

RIC

 

Power Restrictions


 

Infrastructure orchestration

Airship

Redfish

ONAP

 

SDN

OVS-DPDK

 

Workload Type

Containers

 

Additional Details

Submitter to provide additional   use case details

 

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