LinkedIn emplea cookies para mejorar la funcionalidad y el rendimiento de nuestro sitio web, así como para ofrecer publicidad relevante. Si continúas navegando por ese sitio web, aceptas el uso de cookies. Consulta nuestras Condiciones de uso y nuestra Política de privacidad para más información.
LinkedIn emplea cookies para mejorar la funcionalidad y el rendimiento de nuestro sitio web, así como para ofrecer publicidad relevante. Si continúas navegando por ese sitio web, aceptas el uso de cookies. Consulta nuestra Política de privacidad y nuestras Condiciones de uso para más información.
1.What is fog computing?
2.What is need for fog computing?
3.Limitations overcome from cloud.
4.Cloud v/s fog
What is fog computing?
• Fog computing, also known as fogging/edge
computing, it is a model in which data,
processing and applications are concentrated in
devices at the network edge rather than existing
almost entirely in the cloud.
• The term "Fog Computing" was introduced by
the Cisco Systems as new model to ease wireless
data transfer to distributed devices int he
Internet of Things (IoT) network paradigm
• That concentration means that data can be
processed locally in smart devices rather than being
sent to the cloud for processing. Fog computing is
one approach to dealing with the demands of the
ever-increasing number of Internet-connected
devices sometimes referred to as the Internet of
Fog computing is a term for placing some of
transactions and resources at the edge of the
cloud, rather than establishing channels for cloud
storage and utilization. Fog computing reduces
the need for bandwidth by not sending every bit
of information over cloud channels, and instead
aggregating it at certain access points. By using
this kind of distributed strategy, we can lower
costs and improve efficiencies.
What is the need for fog computing?
• Fog Computing extends the cloud computing
paradigm to the edge of the network. While fog
and cloud use the same resources (networking,
compute, and storage) and share many of the
same mechanisms and attributes
(virtualization, multi-tenancy) the extension is a
non-trivial one in that there exist some
fundamental differences stemming from the
reason fog computing was developed: to address
applications and services that do not fit the
paradigm of the cloud
• Fog Computing Keeps Data Right Where the
Internet of Things Needs it
Limitations of cloud:
• cloud computing has so many advantages, it also
suffers from certain shortcomings too.
• High capacity(bandwidth)
• Client access link.
• High latency
Limitations overcomes in fog:
• reduction in data movement across the network
resulting in reduced congestion
• elimination of bottlenecks resulting from
centralized computing systems
• improved security of encrypted data as it stays
closer to the end user
CLOUD VS FOG:
Requirement Cloud computing Fog computing
Latency high low
Delay jitter High Very low
Location of server nodes With in internet At the edge of local n/w
Distance between the clie
nt and server
Multiple hops One hop
Security Undefined Can be defined
Attack on data enrouter High probability Very Less probability
Location awareness No Yes
Requirement Cloud computing Fog computing
Geographicaldistribution Centralized Distributed
No. of server nodes Few Very large
Support for Mobility Limited Supported
Real time interactions Supported Supported
Type of last mile connecti
Leased line Wireless
Applications of fog:
• Tech giants Cisco and IBM are the driving forces
behind fog computing, and link their concept to
the emerging Internet of Things (IoT).
• Most of the buzz around fog has a direct
correlation with the emergence of the Internet of
Connected cars: Fog computing is ideal for Connected
Vehicles (CV) because real-time interactions will make
communications between cars, access points and traffic lights
as safe and efficient as possible
Smart grids: Fog computing allows fast,
machine-to-machine (M2M) handshakes and
human to machine interactions (HMI), which
would work in cooperation with the cloud
• Smart cities: Fog computing would be able to
obtain sensor data on all levels, and integrate all
the mutually independent network entities
• Health care: The cloud computing market for
healthcare is expected to reach $5.4 billion by
2017, and fog computing would allow this on a
more localized level.
• fog computing will grow in helping the
emerging network paradigms that require
faster processing with less delay and delay ji
tter ,cloud computing would serve the
business community meeting their high end
computing demands lowering the cost based
on a utility pricing model
• K.Hashizume, D.G. Rosado, E.Fernández-Medina,and E.B.
Fernandez, "An analysis of security issues for cloud
• Journal of Internet Services and Applications
• , vol.4, no.5, pp. 1--13, 2013.
• M.M. Islam, S.Morshed, and P.Goswami, "Cloud computing:
A survey on its limitations and potential solutions,"
• International Journal of Computer Science Issues
• , vol.10, no.4, pp. 159--163, 2013.
• F.Bonomi, R.Milito, J.Zhu, and S.Addepalli, "Fog computing
and its role in the Internet of Things," in
• ACM SIGCOMM Workshop on Mobile cloud Computing
• , Helsinki, Finland, 2012, pp. 13--16