IoE Network Technology 13 th November 2016 ICNRG Taewan You - - PowerPoint PPT Presentation

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IoE Network Technology 13 th November 2016 ICNRG Taewan You - - PowerPoint PPT Presentation

Jan 12, 2024 126 likes •235 views

A rchitecture for Int e rnet of Every th ing Ev er ywhere Hyper-connected IoE Network Technology 13 th November 2016 ICNRG Taewan You (twyou@etri.re.kr) AETHER@ICNRG-Interim 1 Contents Challenges for IoE Research experiences

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SLIDE 1

Hyper-connected IoE Network Technology

13th November 2016 ICNRG Taewan You (twyou@etri.re.kr)

Architecture for Internet of Everything Everywhere AETHER@ICNRG-Interim 1

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SLIDE 2

Contents

  • Challenges for IoE
  • Research experiences
  • Overview of Architecture
  • Requirements
  • Principles
  • Overall architecture
  • Summary

AETHER@ICNRG-Interim 2

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SLIDE 3

Challenges

Time

Computer system Desktop Laptop Smart Devices Things

1970 TCP/IP

designed

Connected devices # (>1012) Mobile oriented Size (constrained device) Real-time & Reliable communication

New requirements Challenges! 2020

Traffic volume

AETHER@ICNRG-Interim 3

Size

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SLIDE 4

Emerging Technologies

  • SDN
  • Control Plane (CPl) and Data Plane (DPl) separation
  • A centralized logical control and view of the network
  • underlying network infrastructure is abstracted from the applications
  • NFV
  • Decoupling SW from HW
  • Using COTS computing HW to provide Virtualized Network Functions (VNFs) through SW virtualization techniques
  • Flexible network function deployment
  • Fog Computing
  • Moving cloud computing infrastructures

closer to end users to address these challenges.

  • The edge computing complements the

cloud computing not replace it.

AETHER@ICNRG-Interim 4

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SLIDE 5

Research Experiences

AETHER@ICNRG-Interim 5

2013 2010 2016

Future Internet

2000s~

Funded by NST

AETHER

Architecture for Internet of Everything Everywhere

  • Mobile Intrinsic

Arch.

  • ID/Loc

separation

  • SDN based

Mobile domain

  • ID space

compatible with IPv6

  • ID-based

Networking

  • ID/Loc

separation

  • Hierarchical

and Domain structure

  • Clean-slate

architecture

  • Global connectivity
  • Scalable networking

for massive Things

  • Real-timeness
  • Mobility
  • Reliability
  • Deployability
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SLIDE 6

Approaches

  • Pure ID communication
  • Develops everything for ID based

communications

  • ID, routing/forwarding, service API,

etc.

  • Intrinsic security support
  • Intrinsic mobility, multi-homing

support

  • Extensible to ICN concept
  • (Where is ID assigned ?)
  • IP evolution
  • IP address space reuse as Locator
  • Mobility, Multi-homing support
  • Deployment in real world
  • Deployment in global testbed
  • Global collaboration works
  • Hybrid approach

brings the best

  • Define new ID

space

  • Deployment in real

world

  • Intrinsic security

support

  • Intrinsic mobility

support

  • Real-timeness by

adopting Fog computing

  • Intelligent network

by adopting ML

  • High-quality and

Hyper connected IoE Network

  • ID/ICN – network

utilization

  • Fog computing –

real-timeness,

  • ML – Intelligent IoE

network

AETHER@ICNRG-Interim 6

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SLIDE 7

Requirements and Principles

Global & Scalable Real-time Reliability Deployment Mobility

Thing to Thing (E2E) communication style as the norm Applied Fog-Computing as Edge network The unified Identifier for all of things (physical and virtual) Self-configuration of Non-structured / flat typed TID Information-Centric communication for Interworking Scalable and Flexible Mapping system IP compatible Service support Global Testbed

architecture@160427 7

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SLIDE 8

AETHER

  • Name and ID
  • Application uses Name as URI
  • Self-certifying ID assigned to Things, Information
  • Edge (Fog computing) and Interworking
  • Exploiting ICN
  • Pub/Sub networking, Cache
  • IP core (as Internet)
  • Exploit ID/Locator separation scheme
  • Mapping System development (Name or ID to IP address)
  • Advantages
  • Intrinsic security, mobility -> ICN, ID/LOC separation
  • Real-timeness -> Fog computing (In network cache)
  • Scalable and Global Interworking -> ICN (Pull model in network)
  • Intelligent Autonomic network -> ML

AETHER@ICNRG-Interim 8 Architecture for Internet of Everything Everywhere

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SLIDE 9

IP Network

Basic scenario

Send HTTP GET to Temperature by URI Register Tem. by URI Subscribe (HTTP GET) to “/etri/7th/temp” as ID

Conventional host

IP Network

Conventional host Fog Fog

Information synchronization

AETHER@ICNRG-Interim 9 Architecture for Internet of Everything Everywhere

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SLIDE 10

Summary

  • AETHER for future IoE networking
  • Start from December, 2015 ~
  • Design of AETHER
  • Both Self-certifying ID and Name
  • Enabling technologies
  • ICN
  • Fog-computing
  • ID/Locator separation
  • ICN related works in ICNRG
  • Discuss about NRS design, such BF-based
  • Discuss about NRS requirements.
  • Future, we’ll participated in ICN-IoT work

AETHER@ICNRG-Interim 10