1. A SEMINAR PRESENTATION
On
(Title Of Presentation)
Prepared By
Unde Vishal .R
(2131)
Guided By
Prof. M.B. Gawande
DEPARTMENT OF ELECTRICAL ENGINEERING
BHIVRABAI SAWANT INSTITUTE OF TECHNOLOGY & RESEARCH, WAGHOLI,
PUNE-
ACADEMIC YEAR-2022-23
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3. 3
Department of Electrical Engineering
Metals like copper, iron, gold,
aluminum, and silver are the best
materials for conducting electricity. A
material's electrical conductivity is
measured through the electrodes in a
standardized aqueous solution at a
certain temperature.
4. 4
Literature Survey
Department of Electrical Engineering
Fig 2.1.1: Importance of IOT
IoT has a multidisciplinary vision to provide its benefit to several domains such as
environmental, industrial, public/private, medical, transportation etc. Different
researchers have explained the IoT differently with respect to specific interests and
aspects. The potential and power of IoT can be seen in several application domains.
Figure 2 illustrates few of the application domains of IoTs potentials.
7. I. Many applications of IoT’s are available in market in different areas-
II. Smart Grids and energy saving
III. Smart cities
IV. Smart homes/Home automation
V. Healthcare
VI. Earthquake detection
VII. Radiation detection/hazardous gas detection
VIII. Smartphone detection
IX. Heart monitoring implants (Example Pacemaker, ECG real time tracking)
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Department of Electrical Engineering
8. Advantages & Disadvantages
I. Monitor Data.
II. Ease Of Access.
III. Speedy Operation.
IV. Adapting New Standards.
V. Better Time Management.
VI. Automation And Control.
VII. Saving Money.
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Department of Electrical Engineering
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Department of Electrical Engineering
Disadvantages
1. Data Breach.
2. Dependance Of Technology.
3. Complexity Of Operation.
4. Our Safety.
5. Lesser Employment.
6. Control Of Life
10. Recent advancements in IoT have drawn attention of researchers and
developers worldwide. IoT developers and researchers are working together to
extend the technology on large scale and to benefit the society to the highest
possible level. However, improvements are possible only if we consider the various
issues and shortcomings in the present technical approaches. In this survey article,
we presented several issues and challenges that IoT developer must take into
account to develop an improved model. Also, important application areas of IoT is
also discussed where IoT developers and researchers are engaged. As IoT is not
only providing services but also generates a huge amount of data. Hence, the
importance of big data analytics is also discussed which can provide accurate
decisions that could be utilized to develop an improved IoT system.
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Conclusion
Department of Electrical Engineering
11. [1] Heuser, L., Nochta, Z., & Trunk, N.-C. ICT shaping the world: A scientific
view. London: ETSI, Wiley Publication, 2008.
[2] INFSO D.4 Networked enterprise and RFID INFSO G.2 Micro and Nano
systems. In: Co-operation with the working group RFID of the ETP EPOSS,
Internet of Things in 2020, roadmap for the future, Version 1.1, May 27 2008
[3] Auto-Id Labs.http://www.autoidlabs.org
[4] The EPC global Architecture Framework. EPC global Final Version 1.3,
Approved 19 March,2009. http://www.epcglobalinc.org
[5] Sakamura, K. Challenges in the age of ubiquitous computing: A case study of
T-Engine—an open development platform for embedded systems. In: Proceedings
of ICSE’06 Shanghai, China 2006.
[6] Dunkels, A., & Vasseur, J. P. IP for smart objects, internet protocol for smart
objects (ISO) alliance, White Paper #1. http://www.ispo-alliance.org 2009.
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References
Department of Electrical Engineering
