Semantic Technologies for the Internet of Things: Challenges and Opportunities Payam Barnaghi Institute for Communication Systems (ICS) University of Surrey Guildford, United Kingdom MyIoT Week Malaysia 2015, MIMOS Berhad, Kuala Lumpur, Malaysia, August 2015
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Semantic Technologies for the Internet of
Things: Challenges and Opportunities
1
Payam Barnaghi
Institute for Communication Systems (ICS)
University of Surrey
Guildford, United Kingdom
MyIoT Week Malaysia 2015, MIMOS Berhad, Kuala
Lumpur, Malaysia, August 2015
The Internet of Things (IoT)
2 P. Barnaghi et al., "Digital Technology Adoption in the Smart Built Environment", IET Sector Technical Briefing, The Institution of Engineering and
Technology (IET), I. Borthwick (editor), March 2015.
Real world data
3
Data in the IoT
− Data is collected by sensory devices and also crowd sensing
sources.
− It is time and location dependent.
− It can be noisy and the quality can vary.
− It is often continuous - streaming data.
− There are several important issues such as:
− Device/network management
− Actuation and feedback (command and control)
− Service and entity descriptions.
IoT data- challenges
− Multi-modal, distributed and heterogeneous
− Noisy and incomplete
− Time and location dependent
− Dynamic and varies in quality
− Crowdsourced data can be unreliable
− Requires (near-) real-time analysis
− Privacy and security are important issues
− Data can be biased- we need to know our data!
5 P. Barnaghi, A. Sheth, C. Henson, "From data to actionable knowledge: Big Data Challenges in the Web of Things," IEEE Intelligent
Systems, vol.28 , issue.6, Dec 2013.
Internet of Things: The story so far
RFID based
solutions Wireless Sensor and
Actuator networks
, solutions for
communication
technologies, energy
efficiency, routing, …
Smart Devices/
Web-enabled
Apps/Services, initial
products,
vertical applications, early
concepts and demos, …
Motion sensor
Motion sensor
ECG sensor
Physical-Cyber-Social
Systems, Linked-data,
semantics, M2M,
More products, more
heterogeneity,
solutions for control and
monitoring, …
Future: Cloud, Big (IoT) Data
Analytics, Interoperability,
Enhanced Cellular/Wireless Com.
for IoT, Real-world operational
use-cases and Industry and B2B
services/applications,
more Standards…
Scale of the problem
7
Things Data
Devices
2.5 quintillion
bytes per day
Billions and
Billions of
them…
Estimated 50
Billion by 2020
Device/Data interoperability
8
The slide adapted from the IoT talk given by Jan Holler of Ericsson at IoT Week 2015 in Lisbon.
Heterogeneity, multi-modality and volume are
among the key issues.
We need interoperable and machine-interpretable
solutions…
9
10
11
But why do we still not have fully
integrated semantic solutions in the IoT?
A bit of history
− “The Semantic Web is an extension of the current web in
which information is given well-defined meaning, better
enabling computers and people to work in co-operation.“ (Tim Berners-Lee et al, 2001)
12
Image source: Miller 2004
Semantics & the IoT
− The Semantic Sensor (&Actuator) Web is an extension
of the current Web/Internet in which information is given
well-defined meaning, better enabling objects, devices and
people to work in co-operation and to also enable
autonomous interactions between devices and/or objects.
13
Semantic Descriptions in Semantic (Web) World
14
Semantic Web these days…
15
16
The world of IoT and Semantics
17
Some good existing models: SSN Ontology
Ontology Link: http://www.w3.org/2005/Incubator/ssn/ssnx/ssn M. Compton, P. Barnaghi, L. Bermudez, et al, "The SSN Ontology of the W3C Semantic Sensor Network Incubator Group", Journal of Web
Semantics, 2012.
Semantic Sensor Web
18
“The semantic sensor Web enables
interoperability and advanced analytics for
situation awareness and other advanced
applications from heterogeneous sensors.”
(Amit Sheth et al., 2008)
Several ontologies and description models
19
20
We have good models and description
frameworks;
The problem is that having good models and
developing ontologies is not enough.
21
Semantic descriptions are intermediary solutions,
not the end product.
They should be transparent to the end-user and
probably to the data producer as well.
A WoT/IoT Framework
WSN
WSN
WSN
WSN
WSN
Network-enabled
Devices
Semantically
annotate data
22
Gateway
CoAP
HTTP
CoAP
CoAP
HTTP
6LowPAN
Semantically
annotate data
http://mynet1/snodeA23/readTemp?
WSN
MQTT
MQTT
Gateway
And several other
protocols and solutions…
Publishing Semantic annotations
− We need a model (ontology) – this is often the easy part for a
single application.
− Interoperability between the models is a big issue.
− Express-ability vs Complexity is a challenge
− How and where to add the semantics
− Where to publish and store them
− Semantic descriptions for data, streams, devices (resources)
and entities that are represented by the devices, and
− How to make the publication suitable for constrained
environments and/or allow them to scale
− How to query them (considering the fact that here we are
dealing with live data and often reducing the processing time
and latency is crucial)
− Linking to other sources
28
The IoT is a dynamic, online and rapidly
changing world
29
isPartOf
Annotation for the (Semantic) Web
Annotation for the IoT
Image sources: ABC Australia and 2dolphins.com
Make your model fairly simple and modular
30
SSNO model
Tools and APIs
31 P. Barnaghi, M. Presser, K. Moessner, "Publishing Linked Sensor Data", in Proc. of the 3rd Int. Workshop on
Semantic Sensor Networks (SSN), ISWC2010, 2010.
32
Creating common vocabularies and
taxonomies are also equally important
e.g. Event and unit taxonomies.
33
We should accept the fact that sometimes
we do not need (full) semantic
descriptions.
Think of the applications and use-cases
before starting to annotate the data.
An example: a discovery
method in the IoT
time
location
type
Query formulating
[#location | #type | time]
Discovery ID
Discovery/
DHT Server
Data repository
(archived data)
#location
#type
#location
#type
#location
#type
Data hypercube
Gateway
Core network
Network Connection
Logical Connection
Data
An example: a discovery method in the IoT
35 S. A. Hoseinitabatabaei, P. Barnaghi, C. Wang, R. Tafazolli, L. Dong, "A Distributed Data Discovery Mechanism for the Internet of Things", US Patents,
2015.
An example: a discovery method in the IoT
36 S. A. Hoseinitabatabaei, P. Barnaghi, C. Wang, R. Tafazolli, L. Dong, "A Distributed Data Discovery Mechanism for the Internet of Things", US Patents,