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Renewable and Nonrenewable Energy Vol: 1(1), 2022

REST Publisher; ISBN: 10978-81-948459-2-8

Website: http://restpublisher.com/book-series/renewable-and-nonrenewable-energy/

Application of Arduino Devices in various IOT Application *Chinnasami Sivaji, M. Ramachandran, Vidhya Prasanth, Soniya Sriram, Sowmiya Soundhraj

REST Labs, Kaveripattinam, Krishnagiri, Tamil Nadu, India.

*Corresponding author Email: [email protected]

Abstract. In this paper, v segribe the wireless sensor network system is the next open source hardware we've graded or

raspberry arduino refers to an open source electronic operating system or board and the software used to program it.

Arduino is designed to give electronic devices access to artists, designers, entertainment enthusiasts and those

interested in creating interactive objects or contexts. Arduino boards input sensor in light, a finger or twitter message

read on a button -and turn it into a release- running a motor, turning on the led, posting anything online. To the

microcontroller on board a set of instructions what to do by sending. Little education in this article run the mobile robot

complete of systems provides overview. The arduino is easy to use and a greater number named for the sensors. In fact,

in every application new skills are added, also this hardware, hardware services i / o bespoke with target, point-to-point

relationships for protocols are defined primarily. Voltage is measured using voltage. Separator, because generated by

the solar panel voltage for arduino larger than the receiver. Finally, created by the solar panel current sensor current is

measured using volume. These parameters are arduino and as the input value for the output the liquid crystal display

(LCD) is displayed on the screen. LCD screen temperature, light intensity, shows voltage and current value output.

Arduino analog of the parameter the purpose of the input is to quickly convert to digital output, LCD screen displays

via arduino, it is one of the most popular microcontrollers one will be used in robotics .different types of arduino there

are microcontrollers, they are about design and features not only that, but the size and processing skills also vary.

Completely different chips, however there are only two models in use: fixed and mega. Arduino board, this is yours

when creating products of the hardware you work with is a part of. Is the arduino IDE software running on your

computer? A sketch you upload on the arduino board (a small computer program) create IDE are using. More than a

decade with intensive research and development, wireless sensor network for many innovative applications technology

a emerges as a viable solution

Keywords: Arduino, Environmental Monitoring, Internet of Things, Data Acquisition, Data Logger

1. Introduction

The name arduino came from a bar in ivria, italy, where some of the founders of the project met. The menu is named after

ivria march and the italian king arduino , ivria from 1002 to 1014. The program provides the incentive and opportunity to use

these skills. Such as pic microchip and atmel avr direct use of microcontroller chips although very common, the latter is due

to the greater flexibility it provides we chose the arduino operating system. The arduino is a good educational tool for

students who are not pre-planned in the microcontroller because they are well-equipped with libraries, making it easy for

them to various components. Based robots and mixed real and virtual collaboration provided by a team of agents. Finally, the

article concludes and ends with future work. So do the following research the question arises: "in the dpl format based

module arduino microprocessor students basic design principles in order to help understand can it be used successfully? "the

purpose of this articleis to design two basic modules, project ii and design project iii arduino how technology is used and

undergraduate engineering students how from its application explain how it can benefit. Artists, diy entertainers, engineering

and belonging to non-engineering disciplines people from all walks of life as students. Specific variables in a given context

effectively monitor and control this large community uses the arduino site. Arduino exploits on its own contains context,

such as java and c / c ++eclipse ide development based on the context, this is flash and processing can be done with some

software such as. Can be done with some software such as. That, in turn, reduced the scope of research and application. The

project focuses on measuring solar power using arduino. The parameters measured in this design scheme are: light intensity,

voltage and current and temperature many uses sensors. The main part of the project is the solar panel, light sensor,

temperature sensor, voltage separator, current sensor and LCD screens fossil fuels and coal, global warming and extreme

weather are forced into such burning fuels alternative to reduce reliability many countries looking for ways use fossil fuels.

Growing all over the world to meet the electricity requirement the most promising currently in use solar energy is renewable

is one of the resources.

Chinnasami Sivaji.et.al / Renewable and Nonrenewable Energy, 1(1), 2022, 39-45

Copyright@ REST Publisher 40

FIGURE 1. Arduino

2. Arduino

It has an introductory button attached to the arduino input and required to support led all. Microcontroller arduino

attached in the publication: to get started, usb connect to computer via cable or run on ac-to-dc adapter or battery. Arduino

interface microcontroller centered. Arduino uno is a t mega the base is the microcontroller board. This is 14 digital input /

output contains needles (these can be used as 6 pwm outputs), analog inputs, 16 mhz ceramic resonator, a usb connector,, a

power jack, an icsp title and a reset button. Next up is uno (creative commons licensed under attribution-share a 2.5) is the

atmega328 series controlleratmega328 is a series controller. For writing and compiling and more microcontrollers for

uploading have an integrated growth environment. It has 14 digital inputs and output pins (among them six pulse band

modulation (pwm)) and sensors, switches and with electronic components such as motors six analog inputs are for

communication. It has 16 mhz ceramic resonators, a usb connection jack, an external power supply jack, and an icsp plug-in

circuit serial programmer)header a reset button, gnt pins(for grounding) and5v pin (5 volt supply)its operating voltage is 5 v

and input voltage7 to 12 v (up to 20v).if you use more energy at work its operating voltage is 5 v and the input voltage is 7

to 12 v (up to 20v).more energy in work and life of the office by using can reduce energy consumption. Work and by using

more energy in life can reduce office energy consumption. Its operating voltage is 5v and the input voltage is 7 to 12 v (up to

20v) by using more energy in work and life can reduce office energy consumption .the arduino uno is an atmega328

datasheet based microcontroller board. This control module uses the arduino operating system. The arduino uses atmel avr

and arm microcontrollers based on an open source software and the hardware base. It includes 14 digital inputs and output

pins:6 pins pwm output and 6 pins clock speed 16mhz,ceramic resonator usb connector, power jack, analog input such as icsp

header and reset button. Arduino is widely usedopen source single-panel microcontroller development platform, which is

flexible,the hardware is easy to useand software components.arduino uno r3 is atmelatmega328 is based on the

microcontroller. and clock speed 16 mhz.includes 6 analog inputsand there are 14 digital i / o pins,, which includes 6 analog

inputs andthere are 14 digital i / o pins,can be attached to the board. Custom sensor extension board, next-copyalso called a

shield. rear arduino uno boardcan be fitted directly on hats.

3. Environmental Monitoring

More than a decade intensive research and with improvements, many innovative wireless sensor for applications network

technology a emerges as a viable solution. In this paper, open source hardware sites such as arduino and created by us using

raspberry pi we describe the wireless sensor network setup .gateway application and web application command schedule

used to share data between. Such a design gateway application and internet use and disconnects from inter-process data, this

greatly simplifies the partitioning problem such a design use of the gateway and disconnected from internet use,, inter-

process data sharing greatly simplifies the problem. In general, environmental monitoring applications seconds or in order of

minutes tolerate delays, hence the magnitude of the delay introduced by such a system will be accepted in our target

application situations. Such design is multi-environmental monitoring and be useful in data collection applications. Users

local area network or internet access in the sensor data from any of the terminals or to configure the sensor nodes remotely

and connect to an internet application to manage large scale that we have created before compared with teo ecosystem 1,

computer design provided in this paper small-scale environmental monitoring and is very suitable for data collection

application wireless sensor network technologies /software, standardization and commercialization.. Wireless sensor network

Arduino

Environmental Monitoring

Internet of Things

data logger

Data Acquisition

Chinnasami Sivaji.et.al / Renewable and Nonrenewable Energy, 1(1), 2022, 39-45

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layout many hardware to build and development of software components and integration is required .the environmental

monitoring wireless sensor network the overall structure of the system. Environment of organic pollutants reliable analytical

tools are needed to assess the impact, so they are kind of low devices that are quickly screened with handling. The most

selective for hydrocarbons, search for sensitive, low-cost, stable and robust sensors this topic is part of the interest reflected

by many publications .to detect hydrocarbons in gaseous and liquid states this report examines some of the work that can be

done using sensors analytical capabilities of different sensors their choice, sensitivity and in terms of detection range are

compared and discussed.

4. Internet of Things

FIGURE 2. Internet of Things (IOT)

Is the "internet of things" (IOT) communicate things, allow to connect to each other is technology. This is called the

internet of things (IOT) businesses connected via the internet in both industry and agriculture methods in and making

millions of devices highly efficient with processes. IOT smart home, smart city, smart transport and such as smart farming

integrates many new intellectual concepts(radio-frequency identification-rfid-tags, sensors, drivers, mobile phones,

etc.)Through personal address programs common in contact with each other collaborate to achieve the characters but in

many cases these solutions are simple, resource-limited micro-controllers requires more computational resources than.

Surprisingly ,despite the basics of complex hardware-software systems, interconnected micro-controllers on the internet to

expand the basic capabilities of micro-controllers, simple to integrate and there does not seem to be a flexible was complete

the projects in the book you can choose any arduino board, this book is available on the internet since it is about things,

internet connection is an important requirement, also any arduino board you have even if you decide to use, does it support

any internet make sure. For starters, the arduino uno is comparable to the arduino uno might be a bit. Complicated, but it is

built-in features ethernet and has wireless capabilities. Comes with so you have extra no shield want to it. Internet or other

communication other devices through networks and connected with systems and data transfer software and other

technologies.

5. Data Acquisition

To the physics laboratory, data from some companies for acquisition provides equipment, however, many sessions active

of students includes participation, because we are acquiring data from arduino and can be used as a control system. Students

are some of the arduino code i was able to replace and check the lock results. However, many sessions are for students

includes active participation, because we have data acquisition for arduino and can be used as a control system. Students set

some parameters in the arduino code the converter was able to verify the results used in this article very expensive for

arduino component data analysis software, excel interface, this is a free parallax data acquisition tool (plx-daq) using

software microsoft excel software lets access. Arduino microcontroller and some cheap sensors for expensive data

acquisition tools can be used as a cheap alternative. Used in this article very expensive component data analysis is software.

Acquisition of atta for physics the tool can be very expensive. Alternatively, the cheaper arduino data can be retrieved using

a microcontroller .used in a physics lab, arduino software for wireless communications there data is obtained using, this will

allow the sensors to acquire central data extra wires to connect to the system by avoiding use reduces setup time and labor

costs. Also, connecting wireless data transfer collect all the data at one end depending on the ability to store them on the

computer. After that, the precise national instrument using a data acquisition card arduino based data we discuss calibrating

the locker the main feature of the software layer is linux configured on top of the operating system volition is the operating

system and data recovery, data analysis and is written in python to enable monitoring analysis for small PV installations

monitoring is used gradually .for solar radiation monitoring for designing low cost hardware this is one of the first attempts,

it is then micro and developed for environmental monitoring. Microcontroller gaps in low-power mode between power

consumption are reduced by holding, rechargeable battery data powered by due to the acquisition system. Weather in remote

stations or environmental parameters this system for monitoring very relevant, more signal conditioning and data recovery

Chinnasami Sivaji.et.al / Renewable and Nonrenewable Energy, 1(1), 2022, 39-45

Copyright@ REST Publisher 42

sample speed and filtration determine the accuracy of the system the other important point when. Once set up, the operator or

data without computer intervention can be measured, recorded and displayed.

6. Data Logger

Integrated circuit microcontrollers (ICMS) a strong, create low cost data locker offer customizable site .most recently, the

arduino microcontroller user of the operating system ICM released as a friendly version, especially electronic or

programming arduino basic data is small in the registry or designed for those without a background .but the design is not

completely immersed. New low price the portable data locker is hardware in this section and both software covers, however,

data loggers are commonly known these are called data collection devices, requires special software (increased cost and

additional specific skills),and always mains or must be connected to a pc. First, regular data lockers, accuracy. These issues

and limitations low cost and technical capabilities, low cost and flexible monitor PV systems in design of the new data locker

with capabilities and led to improvement. A low cost data recorder, as mentioned earlier, serves for various basic purposes,

e.g., by free hardware and software supported by its design accessible to all.. This public access is quick and contributes to

continuous growth in addition, for each specific event (research in developed and emerging areas and industrial applications)

new data locker design for PV monitoring due to the flexibility to adapt. Tracked by arduino data locker the two reference

cells (nodes) are similar in calibration where the calibration of the cells is complete scheduled for trial period as well. In

addition, for each specific ever (in developed and growing areas research and industrial applications) new data locker design

for PV monitoring due to the flexibility to adapt. Tracked by arduino data locker data are two reference cells like (node)

calibration, calibration of cells there scheduled for the entire trial period? The data used is filtered, rejects radiation less than

800 w / m2and reduces uncertainty sources after the summer storm because there are some issues with the connectors cell 1

matching is bad .go to link 1 with data locker by carefully reviewing these issues were resolved. Of severe environmental

conditions low price data lockers under and the behavior of the sensors and after proving good accuracy,, key in many PV

systems the next purpose is to monitor the parameters.165 data locker is an internal microprocessor, data storage and one or

more sensors or a small, battery-powered device with sensor ports data lockers in many situations can be used and go

unnoticed is a data recorder a built-in device or electronic device ,is it a sensor or not external tools and data time by sensors

or registers at the location.. Growing but not fully, they are digital processor based on and they are called digital data loggers.

7. Conclusion

By creating a ros drive arduino -based robot operating systems solution for integrating robotic operating systems based

on ros this paper provides. Operating system ros integrated with middleware, code to reduce growth time through reuse,

using a wide range of tools it shows the best results. In all installed periods series of research on the arduino based on the

theme, however it is still is a field of study .is still unstable at the scientific level because of the themes of different eras the

research department was not established due to lack of contacts so, the scientific community strong in this field and does not

have consistent research, and currently in practice can determine what exists .in general, for this system designed system

energy saving, cost reduction ,for security improvement and future systems focuses on easy maintenance. This is the office

lighting system and initial verification of the overall functionality of the hardware and completes the possibility .the software

was also realized .future office intelligent control for field study and industrial processing of lamps this system is very

important the reference value will also be. Microcontroller open the original arduino integrated development environment

(IDE) was designed, this is the code in languages like c makes writing easier, program upload on arduino mega and test it.

Arduino mega for this project we used it as a microcontroller ,cheap and though you can use a small arduino uno.in this

paper, device and equipment automation ,heating facility control and energy management arduino microcontroller with

integration capability highly scalable, based on, low cost and versatile housing we provide automation system. Finally, of

these two modules dramatic increase in pass rates, arduino microprocessor design can be used successfully in the module

indicates, thus students basic design can understand the principles.. Students' programming and problem solving skills and

improved design skills audits are the work of students helped to develop thinking. Finally, of these two modules dramatic

increase in pass rates, arduino microprocessor design can be used successfully in the module indicates , through this the

students get the basic design can understand the principles . Arduino , raspberry pi, xbee and more designed with network

system open source software packages.

Reference

[1]. Banzi, Massimo, and Michael Shiloh. Getting started with Arduino. Maker Media, Inc., 2022.

[2]. Grover, Radhika, Shoba Krishnan, Terry Shoup, and Maryam Khanbaghi. "A competition-based approach for

undergraduate mechatronics education using the arduino platform." In Fourth Interdisciplinary Engineering Design

Education Conference, pp. 78-83. IEEE, 2014.

[3]. Roy, Rita, and Apparao Giduturi. "Survey on pre-processing web log files in web usage mining." Int. J. Adv. Sci.

Technol 29, no. 3 (2019): 682-691.

[4]. Fatma, Gulnaz. A Short History of the Short Story: Western and Asian Traditions. Loving Healing Press, 2012.

[5]. Alalmai, Ali A., Gulnaz Fatma, A. Arun, and Mohd Aarif. "Significance and Challenges of Online Education

during and After Covid-19." Turkish Journal of Physiotherapy and Rehabilitation 32, no. 2.

[6]. Ferdoush, Sheikh, and Xinrong Li. "Wireless sensor network system design using Raspberry Pi and Arduino for

environmental monitoring applications." Procedia Computer Science 34 (2014): 103-110.

Chinnasami Sivaji.et.al / Renewable and Nonrenewable Energy, 1(1), 2022, 39-45

Copyright@ REST Publisher 43

[7]. Jamshed, Mohammad, Gulnaz Fatma, and Sujan Mondal. "Deconstructing the Weaponization of Faith and

Nationalism with A Special Reference to Bankim Chandra Chatterjee's Anandamath." Review of International

Geographical Education Online 11, no. 7 (2021).

[8]. Kumar, M. Senthil, and Ashish Chaturvedi. "A novel enhanced coverage optimization algorithm for effectively

solving energy optimization problem in WSN." Research Journal of Applied Sciences, Engineering and

Technology 7, no. 4 (2014): 696-701.

[9]. Sharma, Neha, and Usha Batra. "A review on spatial domain technique based on image steganography." In 2017

International Conference on Computing and Communication Technologies for Smart Nation (IC3TSN), pp. 24-27.

IEEE, 2017.

[10]. Fatma, Gulnaz. A Short History of the Short Story: Western and Asian Traditions. Loving Healing Press, 2012.

[11]. Alalmai, Ali A., Gulnaz Fatma, A. Arun, and Mohd Aarif. "Significance and Challenges of Online Education

during and After Covid-19." Turkish Journal of Physiotherapy and Rehabilitation 32, no. 2.

[12]. Alalmai, Ali, and Dr Gulnaz Fatma. "A., Arun & Aarif, Mohd.(2022). Significance and Challenges of Online

Education during and After Covid-19. Türk Fizyoterapi ve Rehabilitasyon Dergisi." Turkish Journal of

Physiotherapy and Rehabilitation 32: 6509-6520.

[13]. Fatma, Gulnaz. "Ruskin Bond's World: Thematic Influences of Nature, Children, and Love in his Major Works."

(2013).

[14]. Kumar, R. Dinesh, C. Sridhathan, and M. Senthil Kumar. "Performance Evaluation of Different Neural Network

Classifiers for Sanskrit Character Recognition." In Business Intelligence for Enterprise Internet of Things, pp. 185-

194. Springer, Cham, 2020.

[15]. Putjaika, Narayut, Sasimanee Phusae, Anupong Chen-Im, Phond Phunchongharn, and Khajonpong Akkarajitsakul.

"A control system in an intelligent farming by using arduino technology." In 2016 Fifth ICT International Student

Project Conference (ICT-ISPC), pp. 53-56. IEEE, 2016.

[16]. Fatma, Gulnaz, Nahla Pirzada, and Sameena Begum. "Problems, Illusions and Challenges Faced by a non-Arabic

Speaker in Understanding Quran: A Sub-Continental Study." Journal of Positive School Psychology 6, no. 2

(2022): 5422-5426.

[17]. Organtini, Giovanni. "Arduino as a tool for physics experiments." In Journal of Physics: Conference Series, vol.

1076, no. 1, p. 012026. IOP Publishing, 2018.

[18]. Petry, Clovis Antonio, Fernando S. Pacheco, Daniel Lohmann, Gabriela A. Correa, and Paulo Moura. "Project

teaching beyond Physics: Integrating Arduino to the laboratory." In 2016 Technologies Applied to Electronics

Teaching (TAEE), pp. 1-6. IEEE, 2016.

[19]. Roy, Rita, and Apparao Giduturi. "Survey on pre-processing web log files in web usage mining." Int. J. Adv. Sci.

Technol 29, no. 3 (2019): 682-691.

[20]. Simon, Michael J., and Mark A. Aitken. "Next generation terrestrial broadcasting platform aligned internet and

towards emerging 5G network architectures." U.S. Patent 10,652,624, issued May 12, 2020.

[21]. Herger, Lorraine M., and Mercy Bodarky. "Engaging students with open source technologies and Arduino."

In 2015 IEEE Integrated STEM Education Conference, pp. 27-32. IEEE, 2015.

[22]. Roy, Rita, and D. Rajendra Dev. "Metamorphosis Knowledge Probing of Guild Data through Chat Bot Using

NLP." Data Mining and Knowledge Engineering 11, no. 7 (2019): 109-113.

[23]. Dev, D. Rajendra, and Rita Roy. "Communication Technology for Users with Specific Learning Incapacities."

Artificial Intelligent Systems and Machine Learning 11, no. 7 (2019): 126-131.

[24]. Banzi, Massimo, and Michael Shiloh. Getting started with Arduino. Maker Media, Inc., 2022.

[25]. Teikari, Petteri, Raymond P. Najjar, Hemi Malkki, Kenneth Knoblauch, Dominique Dumortier, Claude Gronfier,

and Howard M. Cooper. "An inexpensive Arduino-based LED stimulator system for vision research." Journal of

neuroscience methods 211, no. 2 (2012): 227-236.

[26]. Khan, Mudassir, and Aadarsh Malviya. "Big data approach for sentiment analysis of twitter data using Hadoop

framework and deep learning." In 2020 International Conference on Emerging Trends in Information Technology

and Engineering (ic-ETITE), pp. 1-5. IEEE, 2020.

[27]. Lutimath, Nagaraj M., H. V. Ramachandra, S. Raghav, and Neha Sharma. "Prediction of Heart Disease Using

Genetic Algorithm." In Proceedings of Second Doctoral Symposium on Computational Intelligence, pp. 49-58.

Springer, Singapore, 2022.

[28]. Khan, Mudassir. "Computer security in the human life." Int. J. Comput. Sci. Eng 6 (2017).

[29]. Candelas, F. A., Giggs J. García, Santiago Puente, Jorge Pomares, Carlos A. Jara, J. Pérez, D. Mira, and Fernando

Torres. "Experiences on using Arduino for laboratory experiments of Automatic Control and Robotics." IFAC-

PapersOnLine 48, no. 29 (2015): 105-110.

[30]. Khan, Mudassir, and Mohd Ayyoob. "The scope of E-learning in the computer science & technologies."

International Journal of Computer Science Engineering and Information Technology Research (IJCSEITR) 6, no. 6

(2016): 93-98.

[31]. Gill, Shubhnoor, Neha Sharma, Chetan Gupta, and Argha Samanta. "Attendance Management System Using

Facial Recognition and Image Augmentation Technique." In 2021 International Conference on Intelligent

Technology, System and Service for Internet of Everything (ITSS-IoE), pp. 1-6. IEEE, 2021.

[32]. Khan, Mudassir, and Mohd Dilshad Ansari. "Multi-criteria software quality model selection based on divergence

measure and score function." Journal of Intelligent & Fuzzy Systems 38, no. 3 (2020): 3179-3188.

Chinnasami Sivaji.et.al / Renewable and Nonrenewable Energy, 1(1), 2022, 39-45

Copyright@ REST Publisher 44

[33]. Khan, Mudassir, and Mohd Dilshad Ansari. "Security and privacy issue of big data over the cloud computing: a

comprehensive analysis." IJRTE-Scopus Indexed 7, no. 6s (2019): 413-417.

[34]. Shukla, Piyush Kumar, Lokesh Sharma, Kirti Raj Bhatele, Poonam Sharma, and Prashant Shukla. "Design,

Architecture, and Security Issues in Wireless Sensor Networks." In Next Generation Wireless Network Security

and Privacy, pp. 211-237. IGI Global, 2015.

[35]. Lutimath, Nagaraj M., Neha Sharma, and B. K. Byregowda. "Prediction of Heart Disease using Biomedical Data

through Machine Learning Techniques." (2021).

[36]. Martinez-Santos, Juan Carlos, Oscar Acevedo-Patino, and Sonia H. Contreras-Ortiz. "Influence of arduino on the

development of advanced microcontrollers courses." IEEE revista iberoamericana de tecnologias del

aprendizaje 12, no. 4 (2017): 208-217.

[37]. Gupta, Krishnakumar, Vishal Fegade, Jeevan Kittur, M. Ramachandran, S. Madhu, S. Chinnasami, and M.

Amudha. "A review on effect of cooling rate in fiber reinforced polymeric composites." In AIP Conference

Proceedings, vol. 2393, no. 1, p. 020106. AIP Publishing LLC, 2022.

[38]. Alnuaim, Abeer Ali, Mohammed Zakariah, Prashant Kumar Shukla, Aseel Alhadlaq, Wesam Atef Hatamleh,

Hussam Tarazi, R. Sureshbabu, and Rajnish Ratna. "Human-Computer Interaction for Recognizing Speech

Emotions Using Multilayer Perceptron Classifier." Journal of Healthcare Engineering 2022 (2022).

[39]. Rashid, Ekbal, Mohd Dilshad Ansari, Vinit Kumar Gunjan, and Mudassir Khan. "Enhancement in teaching quality

methodology by predicting attendance using machine learning technique." In Modern approaches in machine

learning and cognitive science: a walkthrough, pp. 227-235. Springer, Cham, 2020.

[40]. Khan, Mudassir. "Big data analytics emerging trends, technology and innovations for the future business in the

global market." International Journal of Scientific Research and Review 8, no. 2 (2019): 745-750.

[41]. Adriansyah, Andi, and Akhmad Wahyu Dani. "Design of small smart home system based on Arduino." In 2014

Electrical Power, Electronics, Communicatons, Control and Informatics Seminar (EECCIS), pp. 121-125. IEEE,

2014.

[42]. Alnuaim, Abeer Ali, Mohammed Zakariah, Aseel Alhadlaq, Chitra Shashidhar, Wesam Atef Hatamleh, Hussam

Tarazi, Prashant Kumar Shukla, and Rajnish Ratna. "Human-Computer Interaction with Detection of Speaker

Emotions Using Convolution Neural Networks." Computational Intelligence and Neuroscience 2022 (2022).

[43]. Nichols, Daniel. "Arduino-based data acquisition into Excel, LabVIEW, and MATLAB." The Physics Teacher 55,

no. 4 (2017): 226-227.

[44]. Deepa, N., Asmat Parveen, Anjum Khurshid, M. Ramachandran, C. Sathiyaraj, and C. Vimala. "A study on issues

and preventive measures taken to control Covid-19." In AIP Conference Proceedings, vol. 2393, no. 1, p. 020226.

AIP Publishing LLC, 2022.

[45]. Barrett, Steven F. "Arduino microcontroller: processing for everyone! part II." Synthesis Lectures on Digital

Circuits & Systems 5, no. 1 (2010): 1-244.

[46]. Bahrudin, Md Saifudaullah Bin, Rosni Abu Kassim, and Norlida Buniyamin. "Development of fire alarm system

using Raspberry Pi and Arduino Uno." In 2013 International Conference on Electrical, Electronics and System

Engineering (ICEESE), pp. 43-48. IEEE, 2013.

[47]. Manikandan, G., and S. Srinivasan. "A Novel Approach for Effectively Mining of Spatially Co-Located Moving

Objects from the Spatial Databases." Data Mining and Knowledge Engineering 3, no. 13 (2011): 816-821.

[48]. Matijevic, Milan, and Vladimir Cvjetkovic. "Overview of architectures with Arduino boards as building blocks for

data acquisition and control systems." In 2016 13th International Conference on Remote Engineering and Virtual

Instrumentation (REV), pp. 56-63. IEEE, 2016.

[49]. Alnuaim, Abeer Ali, Mohammed Zakariah, Chitra Shashidhar, Wesam Atef Hatamleh, Hussam Tarazi, Prashant

Kumar Shukla, and Rajnish Ratna. "Speaker Gender Recognition Based on Deep Neural Networks and

ResNet50." Wireless Communications and Mobile Computing 2022 (2022).

[50]. Geetha, D., V. Kavitha, G. Manikandan, and D. Karunkuzhali. "Enhancement and Development of Next

Generation Data Mining Photolithographic Mechanism." In Journal of Physics: Conference Series, vol. 1964, no. 4,

p. 042092. IOP Publishing, 2021.

[51]. Mumtaz, Zain, Saleem Ullah, Zeeshan Ilyas, Naila Aslam, Shahid Iqbal, Shuo Liu, Jehangir Arshad Meo, and

Hamza Ahmad Madni. "An automation system for controlling streetlights and monitoring objects using

Arduino." Sensors 18, no. 10 (2018): 3178.

[52]. Sathya, M., M. Jeyaselvi, Lalitha Krishnasamy, Mohammad Mazyad Hazzazi, Prashant Kumar Shukla, Piyush

Kumar Shukla, and Stephen Jeswinde Nuagah. "A Novel, Efficient, and Secure Anomaly Detection Technique

Using DWU-ODBN for IoT-Enabled Multimedia Communication Systems." Wireless Communications and Mobile

Computing 2021 (2021).

[53]. [54]. Suhasini, S., J. M. SheelaLavanya, M. Parameswari, G. Manikandan, and S. Gracia Nissi. "Input Based Resource

Allocation in Motion Estimation using Re-configurable Architecture." In 2021 Fifth International Conference on I-

SMAC (IoT in Social, Mobile, Analytics and Cloud)(I-SMAC), pp. 1091-1095. IEEE, 2021.

[55]. Sathish, E., G. Manikandan, and G. Bhuvaneswari. "Design and development of multi controlled smart bike."

Materials Today: Proceedings (2021).

[56]. Li, Zhenfeng, Jingtao Li, Xiaofan Li, Yijian Yang, Jie Xiao, and Bowen Xu. "Design of office intelligent lighting

system based on Arduino." Procedia Computer Science 166 (2020): 134-138.

Chinnasami Sivaji.et.al / Renewable and Nonrenewable Energy, 1(1), 2022, 39-45

Copyright@ REST Publisher 45

[57]. Shukla, Niraj Kumar, and Dr SK Sinha. "Fuzzy and PI Controller Based Performance Evaluation of Separately

Excited DC Motor." International Journal of Emerging Trends in Electrical and Electronics (IJETEE–ISSN: 2320-

9569) 2, no. 1 (2013): 12-18.

[58]. Shukla, Niraj Kumar, and Rajeev Srivastava. "Performance Evaluation of Three Phase Induction Motor Using

MOSFET & IGBT Based Voltage Source Inverter." International Research Journal of Engineering and

Technology (IRJET) 4, no. 06 (2017): 2395-0056.

[59]. Hertzog, Pierre E., and Arthur J. Swart. "Arduino—Enabling engineering students to obtain academic success in a

design-based module." In 2016 IEEE Global Engineering Education Conference (EDUCON), pp. 66-73. IEEE,

2016.

[60]. Nath,Somjit ,Paramita Banerjee, Rathindra Nath Biswas ,Swarup Kumar Mitra, and Mrinal Kanti Naskar.

"Arduino based door unlocking system with real time control." In 2016 2nd International conference on

contemporary computing and informatics (IC3I), pp. 358-362. IEEE, 2016.

[61]. Javed , Adeel . "Building Arduino Projects for the Internet of Things." Experiments with Real-World Applications.

United States of America: Apress Media, LLC (2016): 15-34.

[62]. Fegade, Vishal, Krishnakumar Gupta, M. Ramachandran, S. Madhu, C. Sathiyaraj, R. Kurinji< alar, and M.

Amudha. "A study on various fire retardant additives used for fire reinforced polymeric composites." In AIP

Conference Proceedings, vol. 2393, no. 1, p. 020107. AIP Publishing LLC, 2022.

[63]. Shukla, Niraj Kumar, and Rajeev Srivastava. "Simulation and Comparative Analysis of SPWM & SVPWM Based

Voltage Source Inverter with Inductive Load." Simulation (2017).

[64]. Fuentes, M., Marta Vivar, J. M. Burgos, Javiera Aguilera, and J. A. Vacas . "Design of an accurate, low-cost

autonomous data logger for PV system monitoring using Arduino™ that complies with IEC standards." Solar

Energy materials and solar cells 130 (2014): 529-543.

[65]. Shukla, Niraj Kumar, Kumar Shantanu, Kuldeep Kr Singh, and Rajeev Srivastava. "Energy Saving of Induction

Motor Drive Using Artificial Intelligence Based Controllers." International Journal of Control and Automation 13,

no. 2 (2020): 652-664.

[66]. Shukla, Niraj Kumar, Rajeev Srivastava, and Seyedali Mirjalili. "A Hybrid Dragonfly Algorithm for Efficiency

Optimization of Induction Motors." Sensors 22, no. 7 (2022): 2594.

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