How to Troubleshoot Apps for the Modern Connected Worker
Introduction to roof computing by Nishant Krishna
1. IEEE P1931.1
Introduction to ROOF Computing
Nishant Krishna
Software Architect and Consulting
Engineer, Avaya
Member, P1931.1 Working Group
(Slides reused from Syam Madanapalli,
Chair, P1931.1)
2. 2
About Nishant Krishna
Ø Software Architect, Innovator and Inventor with ~17 years of
experience working on Network Management Systems (NMS),
Cloud and Virtualization, Software-Defined Network (SDN), API
Development and Internet of Things (IoT) technologies.
Ø 2 patent granted and 5 patents filed/pending with US Patent
Office in the areas of Network Management Systems, Cloud,
Virtualization and SDN Technologies.
Ø I participate actively in User Experience (UX) and Wireframing
related activities.
Ø My areas of interest include Cloud and Virtualization, SDN, IoT,
UX, User Interfaces, Network Security, Cryptography, public
speaking and latest tech and gadgets.
Ø Nishant has a Master of Science (MS) in Software Engineering
degree from BITS, Pilani, along with many technical
certifications.
https://in.linkedin.com/in/nishantkrishna
https://twitter.com/nishantkrishna
3. 3
“There are two types of
organizations in today’s world,
those that have been breached and
those that just don’t know it yet.”
4. 6/18/174
Standards Title: Standard for an Architectural
Framework for Real-time Onsite Operations Facilitation
(ROOF) for the Internet of Things
• Technical and functional interoperability for IoT systems that
operate and co-operate in a secure and independent manner
within the context of a local environment such as home, factory,
office or airport, etc.
• Defines an architectural framework, protocols and Application
Programming Interfaces (APIs) for providing Real-time Onsite
Operations Facilitation (ROOF).
• ROOF computing and networking for the data and the devices
include next-hop connectivity for the devices, real-time context
building and decision triggers, efficient backhaul connectivity to
the cloud, and security & privacy.
• Defines how an end user is able to securely provision, commission
and decommission the devices.
Working Group Chair: Syam Madanapalli, Dell
IEEE P1931.1: ROOF Computing
5. 6/18/175
Standards Title: Standard for Harmonization of Internet
of Things (IoT) Devices and Systems
• Define a metadata bridge to facilitate IoT protocol transport for
sensors, actuators, and devices.
• The standard addresses issues of security, scalability, and
interoperability. This standard can provide significant cost savings
and reduce complexity, and offer a data sharing approach
leveraging current instrumentation and devices used in industry
• The backend of such a globally scalable, secure and interoperable
network would be based on the eXtensible Messaging and
Presence Protocol (XMPP),
• Key components and needs of a successful Smart City
infrastructure will be identified and addressed. This standard does
not develop Application Programming Interfaces (APIs) for
existing IoT or legacy protocols.
Working Group Chair: Dr. William Miller, MACT-USA, Dr.
Muzzammil Hussain, Samsung (India Focus Group for 1451)
IEEE P1451-99: IoT Harmonisation
7. History of Computing Paradigms
1960s
Server Computing
1990s
Distributed Computing
2000s
Cloud Computing
Server
VPN Cloud
Headquarters
Subsidiaries
Remote users Remote users
Headquarters
Subsidiaries
Terminals
8. Roof, Humans and the Internet of Things
8
Roof protects people and their
possessions.*
* "Roof". Wikipedia. N.p., 2016. Web.
The Internet of Things, the
constrained devices, require an
environment wherein they can
operate, build trust, collaborate
and be protected.
Need a Roof for the Internet
of Things.
9. IoT and the Autonomy
9
An IoT system should have various decision
and automation tools that operate and
cooperate autonomously within the context of
a local environment.
10. What is Roof?
10
The ROOF
• A new computing paradigm for the Internet of Things
• ROOF is both a metaphor and acronym
• Below the Cloud and Fog
The Primary goal
• To provide Autonomous and Realtime Response over a period
of time
• Context building using edge analytics
Others
• To support plug and play connectivity for the Things
• Efficient connectivity to the Cloud/Service providers
• Security by default with contextual analysis
• Local storage
11. The Roof – for the Better Internet of Things
11
Cloud
Hundreds
Up to 1000s of
kilometers away
Fog
Tens of thousands
Few kilometers
away
ROOF
Millions to billions
Few meters/one-hop
away
Things
Billions to
trillions
ROOF – Realtime Onsite Operations Facilitation for the
Internet of Things
12. Motivation for the Roof
12
Various
access & data
protocols
Realtime and
offline
support
Constrained
nodes, and
device & data
protection
Variety of
sensor & data
and evolving
infrastructure
Connectivity Context Security Data
Framework
for
interoperabilit
y
Realtime
computing
Computing for
security and
privacy
Flexible
backhaul and
services
13. Roof Computing
Data/Service
Context
Security
Connectivity
13
Roof is a computational
paradigm for the Internet of
Things to provide
• Next-hop connectivity for the
Things
• Realtime context building and
actions
• Efficient data & service
connectivity to the
Cloud/service provider
• Framework and computing for
security & privacy
14. The Roof and the Spatiotemporal Location
14
It is important to treat all events with respect to their
temporal location!
If (this)
then
(react)
If (this)
then
(act)
If (this)
then
(optimiz
e)
If (this)
then
(plan)
Time
Realtime
Near realtime
Future
Things
Fog
Cloud
Roof
Fog
Roof Roof Roof
15. Roof Functional Model
15
IoT Services
Device&Network
Management
Security&Privacy
Management
Thing Connectivity
Cloud Connectivity &
Service Management
Context
Building
Local
Storage
Physical world (Things)
Intruders
Users
Cyber world/Service Providers
16. Roof Applications
16
Roof is essential for any IoT
application, including:
• Connected homes
• Connected industries
• Connected vehicles
• Connected healthcare
services
• Connected public
authorities
• Clusters of IoT deployments
in the smart cities
• Other highly distributed IoT
application deployments
Clou
d
Gateway
Things
Mobile
App
Internet
17. Roof with Blockchain
17
Cloud
Blockchain
• Establish peer-to-peer trust &
reputation
• Information sharing and
collaboration
• Move away on security from
passive prevention to
cooperative distributed
assurance
18. Roof vs. Fog vs. Cloud
18
Consideration
Computing Model
Roof Fog Cloud
Distance to Things Few meters Upto few kilometers
Upto thousands of
kilometers
Deployment numbers Millions to billions Tens of thousands Few hundreds
Technology
complexity
Simple Complex Simple
Implementation
complexity
Easy Difficult Easy
Content Machine data The Internet fringe Big data
Drivers
The things -
constrained
devices
Support for mobility
and to reduce the
latency
Big Data storage
and analytics
Applications All IoT applications
Large distributed IoT
applications
Appcesory, storage
and analytics
Cost of
implementation
Low High Medium
19. Goals for the Roof
1. Enable the devices under the Roof to collaborate and act in
realtime
2. Bridge the physical and cyber world, and allow horizontal
integration
3. Confirming to Roof requires security & privacy by design
4. Lower operational and maintenance cost with ease of
configuration, commissioning, use and maintenance
5. Easy to build and repeatable – hence increased reliability,
resilience and scalability for IoT deployments
6. Allow innovation for new business models and lower the barrier
for entry for device manufacturers and service providers
19
20. Goal 1: Context Building
Context Action
Devices
Sensor Fusion
Cn=2^s – 1
Cn = Max. no. of contexts
S= No. of States/services
Compute Context
Aggregate the data
Route the data
Data condensing is critical
because of the sheer
volumes of Data being
generated.
22. Goal 3: Security by Design
Security fusion, combining
multiple security touchpoints,
helps curb security threats.
Device manufacturers and Service providers
require support Security by design to fit into the
Roof Model.
Context
Authorization
Authentication
Network Security
Role Based
23. Goal 4: Better User Experience
Configuration
Commissioning and decommissioning
Software updates
Coherent services and distributed user experience
User aware security & privacy
24. Goal 5: Reuse & Scalability
A model that can be replicated easily
Be able to build large scale IoT applications, e.g. a Smart City
A model that can be used across multiple applications and verticals
Act autonomously in
realtime
Connect to the Cloud for
more value creation
Cloud
25. Goal 6: Innovation
Roof allows evolution of common IoT
platforms for rapid application/service
delivery
Applications can evolve
independently & enables an
environment for rapid innovation
Devices can evolve independently
Open IoT Platform
Service BService A Service N
26. What’s happening right now?
¾ Working group is meeting once every month. On an average close to 50
members join the meeting. The group has representation from industry,
standards body, device manufacturers, academia and many more areas,
from around the world.
¾ Sub-groups are already formed for various smaller sections of the
standard and they are activity working.
¾ Discussions about creating reference and open-source implementation
are going on.
¾ Use cases and areas where ROOF can be applicable are actively
identified in many of the sectors and are being expanded.
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27. Few parting thoughts…
¾ Interoperability can be achieved through mandating a common set of
API, ontology and data semantics.
¾ We need to consider capability of establishing secure ownership of all
“things” including ROOF infrastructure. A “Software Roof of Trust” may
need to be established.
¾ We must allow ROOF and things to be private/business owned or rented
(owner maintains final control) and/or provided by an internet provider.
¾ May need to use blockchain to control both ownership and allowed
administrator/user along with a kill switch.
¾ We can’t leave out requirements for safety conformance of things,
communications, and processing of so many of the ROOFs and Things
that will be (already are) safety critical.
¾ Billions of ”things” out there use variety of protocols and standards. We
need to work towards developing protocols and strategies to integrate
such vast diversity of communication technologies.
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