IJSCT

Development of IoT Devices Using Arduino

IoT or Internet of Things has become a burning sensation in today’s world. In the present times each device that we use has the capability to connect to multiple devices and this opens a host of opportunities for both the developers as well as the end consumers to develop and manufacture a variety of devices which can make our day-to-day operations much easier. In the present study, an overview of IoT is given in general, along with its literature review. This is followed by a discussion on Arduino which is employed to develop the devices using IoT. Also, a brief overview is given about various sensors which act as building blocks of any IoT system. Furthermore, an effort is made to demonstrate IoT implementation using Arduino, which may be used in a variety of useful devices. In the present case, IoT is used to develop a motion sensor alarm and a temperature-controlled selfregulating system. The general drawback of IoT is instead discussed. Overall, the study is meant to provide guidance to anyone who is looking to explore the possibilities of IoT using Arduino.

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Mechanized Physiotherapy Device for Accident Victims

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u00a0Vishal Kr. Giri, Shikhar Kant Sinha, Surashika Tomar, Surbhi, Aviral Malay,

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nJanuary 27, 2023 at 11:18 am

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Assistive robots are in high demand because they allow people to work freely. Physiotherapy is an outstanding recovery session given to mostly all accidental victims during recovery span. Although, due to the experimental nature of examination, assessment, and treatment, the lack of scientific measures, current methodologies, and modernization, as well as the empirical nature of examination, assessment, and treatment, this endeavour is hampered. This paper proposes an idea of using an exoskeleton-based system for the physical therapy of the hand (primarily). Our system endeavour to enhances the existing therapy methods by introducing accurate and repeatable linger motion, continuous measurement, interactivity, Great exercise assortment and statistical storage and evaluation. The robotic arm is controlled using robotic kinematics concepts. The graphical user interface (GUI) is used to operate the actuators that control the robotic arm’s joints. Because the robotic devices may assist in moving the patient’s limbs during exercises, this system helps therapists save time by increasing the number of therapy sessions per patient and the number of patients undergoing therapy.

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Volume :u00a0u00a07 | Issue :u00a0u00a02 | Received :u00a0u00a0December 15, 2021 | Accepted :u00a0u00a0December 25, 2021 | Published :u00a0u00a0December 31, 2021n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Software Computing and Testing(ijsct)] [/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue Mechanized Physiotherapy Device for Accident Victims under section in International Journal of Software Computing and Testing(ijsct)] [/if 424]
Keywords Therapy sessions, physiotherapy, occupational therapy, graphical user interface (GUI), electric motor

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1. A. Toth, D. Nyitrai, M. Jurak, I. Merksz, G. Fazekas, and Z. Denes, “Safe robot therapy: Adaptation and usability test of a three-position enabling device for use in robot mediated physical therapy of stroke,” 2009 IEEE Int. Conf. Rehabil. Robot. ICORR 2009, pp. 940–945, 2009, doi: 10.1109/ICORR.2009.5209481.
2. M. A. Soleimani, H. Zohoor, A.R.F. Yakhdani, M. Heravi, and E. Mohammadi, “Designing, Prototyping, and Controlling a Portable Rehabilitation Robot for the Shoulder Physiotherapy and Training,” ICRoM 2019-7th Int. Conf. Robot. Mechatronics, no. ICRoM. doi 10.1109/ICRoM48714.2019.9071844.
3. I. Sarakoglou, N. G. Tsagarakis, and D. G. Caldwell, “Occupational and physical therapy using a hand exoskeleton-based exerciser,” 2004 IEEE/RSJ Int. Conf. Intell. Robot. Syst., vol. 3, pp. 2973–2978, 2004, doi: 10.1109/iros.2004.1389861.
4. J. C. Perry, J. Rosen, and S. Burns, “Upper-limb powered exoskeleton design,” IEEE/ASME Trans. Mechatronics, vol. 12, no. 4, pp. 408–417, 2007, doi: 10.1109/TMECH.2007.901934.
5. Z. Bin Mohamed, “Mechatronic Design and Development of a Robotic Arm,” pp. 3–6, 2006.
6. D. Jayatilake, T. Isezaki, Y. Teramoto, K. Eguchi and K. Suzuki, “Robot Assisted Physiotherapy to Support Rehabilitation of Facial Paralysis,” in IEEE Transactions on Neural Systems and Rehabilitation Engineering, vol. 22, no. 3, pp. 644–653, May 2014, doi: 10.1109/TNSRE. 2013.2279169
7. I.H.D. Madhushan, E.B.K. Charnara, A.T.J. De Zoysa, G. Sandali Upeka, N. Abhayasinghe and P. Abeygunawardhana, “Hand Rehabilitation Using Robot-Assisted Physiotherapy,” 2020 2nd International Conference on Advancements in Computing (ICAC), 2020, pp. 156–161, doi: 10.1109/ICAC51239.2020.9357164
8. E. Saraee, A. Joshi and M. Betke, “A therapeutic robotic system for the upper body based on the Proficio robotic arm,” 2017 International Conference on Virtual Rehabilitation (ICVR), 2017, pp. 1-2, doi: 10.1109/ICVR.2017.8007498
9. Keene DJ, Soutakbar H, Hopewell S, Heine P, Jaggi A, Littlewood C, Hansen Z, Barker K, Hamilton W, Carr AJ, Lamb SE. Development, and implementation of the physiotherapy-led exercise interventions for the treatment of rotator cuff disorders for the ‘Getting it Right: Addressing Shoulder Pain’ (GRASP) trial. Physiotherapy. 2020 Jun; 107: 252–266. doi: 10.1016/j.physio.2019.07.002. Epub 2019 Jul 9. PMID: 32026827
10. Exoskeleton Arm for Therapeutic Applications and Argumented Strength. Dinumol Varghese, Rahim T.S., Leya Achu Bijoy, Bibin K Abraham, Dinto Mathew, Dept. of Electrical and Electronics Engineering, Mar Athanasius College of Engineering Kothamangalam, Kerala, India, International Research Journal of Engineering and Technology (IRJET), Vol.-06, Issue-06, June 2019, ISSN:2395-0056

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[if 424 not_equal=”Regular Issue”] Regular Issue[/if 424] Open Access Article

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International Journal of Software Computing and Testing

ISSN: 2456-2351

Editors Overview

ijsct maintains an Editorial Board of practicing researchers from around the world, to ensure manuscripts are handled by editors who are experts in the field of study.

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    By  [foreach 286]n

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    Vishal Kr. Giri, Shikhar Kant Sinha, Surashika Tomar, Surbhi, Aviral Malay

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Abstract

nAssistive robots are in high demand because they allow people to work freely. Physiotherapy is an outstanding recovery session given to mostly all accidental victims during recovery span. Although, due to the experimental nature of examination, assessment, and treatment, the lack of scientific measures, current methodologies, and modernization, as well as the empirical nature of examination, assessment, and treatment, this endeavour is hampered. This paper proposes an idea of using an exoskeleton-based system for the physical therapy of the hand (primarily). Our system endeavour to enhances the existing therapy methods by introducing accurate and repeatable linger motion, continuous measurement, interactivity, Great exercise assortment and statistical storage and evaluation. The robotic arm is controlled using robotic kinematics concepts. The graphical user interface (GUI) is used to operate the actuators that control the robotic arm’s joints. Because the robotic devices may assist in moving the patient’s limbs during exercises, this system helps therapists save time by increasing the number of therapy sessions per patient and the number of patients undergoing therapy.n

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Keywords: Therapy sessions, physiotherapy, occupational therapy, graphical user interface (GUI), electric motor

n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Software Computing and Testing(ijsct)]

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1. A. Toth, D. Nyitrai, M. Jurak, I. Merksz, G. Fazekas, and Z. Denes, “Safe robot therapy: Adaptation and usability test of a three-position enabling device for use in robot mediated physical therapy of stroke,” 2009 IEEE Int. Conf. Rehabil. Robot. ICORR 2009, pp. 940–945, 2009, doi: 10.1109/ICORR.2009.5209481.
2. M. A. Soleimani, H. Zohoor, A.R.F. Yakhdani, M. Heravi, and E. Mohammadi, “Designing, Prototyping, and Controlling a Portable Rehabilitation Robot for the Shoulder Physiotherapy and Training,” ICRoM 2019-7th Int. Conf. Robot. Mechatronics, no. ICRoM. doi 10.1109/ICRoM48714.2019.9071844.
3. I. Sarakoglou, N. G. Tsagarakis, and D. G. Caldwell, “Occupational and physical therapy using a hand exoskeleton-based exerciser,” 2004 IEEE/RSJ Int. Conf. Intell. Robot. Syst., vol. 3, pp. 2973–2978, 2004, doi: 10.1109/iros.2004.1389861.
4. J. C. Perry, J. Rosen, and S. Burns, “Upper-limb powered exoskeleton design,” IEEE/ASME Trans. Mechatronics, vol. 12, no. 4, pp. 408–417, 2007, doi: 10.1109/TMECH.2007.901934.
5. Z. Bin Mohamed, “Mechatronic Design and Development of a Robotic Arm,” pp. 3–6, 2006.
6. D. Jayatilake, T. Isezaki, Y. Teramoto, K. Eguchi and K. Suzuki, “Robot Assisted Physiotherapy to Support Rehabilitation of Facial Paralysis,” in IEEE Transactions on Neural Systems and Rehabilitation Engineering, vol. 22, no. 3, pp. 644–653, May 2014, doi: 10.1109/TNSRE. 2013.2279169
7. I.H.D. Madhushan, E.B.K. Charnara, A.T.J. De Zoysa, G. Sandali Upeka, N. Abhayasinghe and P. Abeygunawardhana, “Hand Rehabilitation Using Robot-Assisted Physiotherapy,” 2020 2nd International Conference on Advancements in Computing (ICAC), 2020, pp. 156–161, doi: 10.1109/ICAC51239.2020.9357164
8. E. Saraee, A. Joshi and M. Betke, “A therapeutic robotic system for the upper body based on the Proficio robotic arm,” 2017 International Conference on Virtual Rehabilitation (ICVR), 2017, pp. 1-2, doi: 10.1109/ICVR.2017.8007498
9. Keene DJ, Soutakbar H, Hopewell S, Heine P, Jaggi A, Littlewood C, Hansen Z, Barker K, Hamilton W, Carr AJ, Lamb SE. Development, and implementation of the physiotherapy-led exercise interventions for the treatment of rotator cuff disorders for the ‘Getting it Right: Addressing Shoulder Pain’ (GRASP) trial. Physiotherapy. 2020 Jun; 107: 252–266. doi: 10.1016/j.physio.2019.07.002. Epub 2019 Jul 9. PMID: 32026827
10. Exoskeleton Arm for Therapeutic Applications and Argumented Strength. Dinumol Varghese, Rahim T.S., Leya Achu Bijoy, Bibin K Abraham, Dinto Mathew, Dept. of Electrical and Electronics Engineering, Mar Athanasius College of Engineering Kothamangalam, Kerala, India, International Research Journal of Engineering and Technology (IRJET), Vol.-06, Issue-06, June 2019, ISSN:2395-0056

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International Journal of Software Computing and Testing

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[if 344 not_equal=””]ISSN: 2456-2351[/if 344]

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Volume 7
Issue 2
Received December 15, 2021
Accepted December 25, 2021
Published December 31, 2021

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IJSCT

Development of IoT Devices Using Arduino

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u00a0Namrata Dhanda, Arushi Yadav,

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nJanuary 27, 2023 at 11:29 am

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IoT or Internet of Things has become a burning sensation in today’s world. In the present times each device that we use has the capability to connect to multiple devices and this opens a host of opportunities for both the developers as well as the end consumers to develop and manufacture a variety of devices which can make our day-to-day operations much easier. In the present study, an overview of IoT is given in general, along with its literature review. This is followed by a discussion on Arduino which is employed to develop the devices using IoT. Also, a brief overview is given about various sensors which act as building blocks of any IoT system. Furthermore, an effort is made to demonstrate IoT implementation using Arduino, which may be used in a variety of useful devices. In the present case, IoT is used to develop a motion sensor alarm and a temperature-controlled selfregulating system. The general drawback of IoT is instead discussed. Overall, the study is meant to provide guidance to anyone who is looking to explore the possibilities of IoT using Arduino.

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Volume :u00a0u00a08 | Issue :u00a0u00a01 | Received :u00a0u00a0May 27, 2022 | Accepted :u00a0u00a0June 10, 2022 | Published :u00a0u00a0June 27, 2022n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Software Computing and Testing(ijsct)] [/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue Development of IoT Devices Using Arduino under section in International Journal of Software Computing and Testing(ijsct)] [/if 424]
Keywords IoT, Arduino, motion sensor alarm, temperature-controlled self-regulating system

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1. Hussein ARH. Internet of things (IoT): Research challenges and future applications. Int J Adv Comput Sci Appl. 2019; 10(6): 77–82. https://doi.org/10.14569/ijacsa.2019.0100611
2. Ryan P, Watson R. Research challenges for the internet of things: What role can or play? Systems. 2017; 5(1): 24. https://doi.org/10.3390/systems5010024
3. Kumar S, Tiwari P, Zymbler M. Internet of things is a revolutionary approach for future technology enhancement: A Review. J Big Data. 2019; 6(1): 111. https://doi.org/ 10.1186/s40537-019-0268-2
4. Borgia E, Gomes DG, Lagesse B, Lea R, Puccinelli D. Special issue on internet of things: Research challenges and solutions. Comput Commun. 2016; 89–90: 1–4. https://doi.org/10.1016/j.comcom.2
5. Khajenasiri I, Estebsari A, Verhelst M, Gielen G. A review on internet of things solutions forintelligent energy control in buildings for Smart City Applications. Energy Procedia. 2017; 111: 770–779. https://doi.org/10.1016/j.egypro.2017.03.239
6. Liu T, Yuan R, Chang H. Research on the internet of things in the automotive industry. 2012 International Conference on Management of e-Commerce and e-Government. 2012; 230–233. https://doi.org/10.1109/icmecg.2012.80
7. Weber RH. Internet of things – new security and privacy challenges. Comput Law Secur Rev. 2010; 26(1): 23–30. https://doi.org/10.1016/j.clsr.2009.11.008
8. Li Y, Alqahtani A, Solaiman E, Perera C, Jayaraman PP, Buyya R, Morgan G, Ranjan R. Iot-Cane: A unified knowledge management system for data-centric internet of things application systems. J Parallel Distrib Comput. 2019; 131: 161–172. https://doi.org/10.1016/j.jpdc.2019.04.016
9. Louis L. Working principle of Arduino and using it as a tool for study and Research. International Journal of Control, Automation, Communication and Systems (IJCACS). 2016; 1(2): 21–29. https://doi.org/10.5121/ijcacs.2016.1203
10. Galadima AA. Arduino as a learning tool. 2014 11th International Conference on Electronics, Computer and Computation (ICECCO). 2014; 1–4. https://doi.org/10.1109/icecco.2014.6997577
11. Singh R, Gehlot A, Gupta LR, Singh B, Swain M. Internet of things with Raspberry Pi and Arduino. CRC Press, Taylor & Francis Group; 2021.

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[if 424 not_equal=”Regular Issue”] Regular Issue[/if 424] Open Access Article

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International Journal of Software Computing and Testing

ISSN: 2456-2351

Editors Overview

ijsct maintains an Editorial Board of practicing researchers from around the world, to ensure manuscripts are handled by editors who are experts in the field of study.

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    Namrata Dhanda, Arushi Yadav

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  1. Professor, Student,Department of Computer Science & Engineering, Amity University, Department of Computer Science & Engineering, Amity University,Uttar Pradesh, Uttar Pradesh,India, India

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Abstract

nIoT or Internet of Things has become a burning sensation in today’s world. In the present times each device that we use has the capability to connect to multiple devices and this opens a host of opportunities for both the developers as well as the end consumers to develop and manufacture a variety of devices which can make our day-to-day operations much easier. In the present study, an overview of IoT is given in general, along with its literature review. This is followed by a discussion on Arduino which is employed to develop the devices using IoT. Also, a brief overview is given about various sensors which act as building blocks of any IoT system. Furthermore, an effort is made to demonstrate IoT implementation using Arduino, which may be used in a variety of useful devices. In the present case, IoT is used to develop a motion sensor alarm and a temperature-controlled selfregulating system. The general drawback of IoT is instead discussed. Overall, the study is meant to provide guidance to anyone who is looking to explore the possibilities of IoT using Arduino.n

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Keywords: IoT, Arduino, motion sensor alarm, temperature-controlled self-regulating system

n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Software Computing and Testing(ijsct)]

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References

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1. Hussein ARH. Internet of things (IoT): Research challenges and future applications. Int J Adv Comput Sci Appl. 2019; 10(6): 77–82. https://doi.org/10.14569/ijacsa.2019.0100611
2. Ryan P, Watson R. Research challenges for the internet of things: What role can or play? Systems. 2017; 5(1): 24. https://doi.org/10.3390/systems5010024
3. Kumar S, Tiwari P, Zymbler M. Internet of things is a revolutionary approach for future technology enhancement: A Review. J Big Data. 2019; 6(1): 111. https://doi.org/ 10.1186/s40537-019-0268-2
4. Borgia E, Gomes DG, Lagesse B, Lea R, Puccinelli D. Special issue on internet of things: Research challenges and solutions. Comput Commun. 2016; 89–90: 1–4. https://doi.org/10.1016/j.comcom.2
5. Khajenasiri I, Estebsari A, Verhelst M, Gielen G. A review on internet of things solutions forintelligent energy control in buildings for Smart City Applications. Energy Procedia. 2017; 111: 770–779. https://doi.org/10.1016/j.egypro.2017.03.239
6. Liu T, Yuan R, Chang H. Research on the internet of things in the automotive industry. 2012 International Conference on Management of e-Commerce and e-Government. 2012; 230–233. https://doi.org/10.1109/icmecg.2012.80
7. Weber RH. Internet of things – new security and privacy challenges. Comput Law Secur Rev. 2010; 26(1): 23–30. https://doi.org/10.1016/j.clsr.2009.11.008
8. Li Y, Alqahtani A, Solaiman E, Perera C, Jayaraman PP, Buyya R, Morgan G, Ranjan R. Iot-Cane: A unified knowledge management system for data-centric internet of things application systems. J Parallel Distrib Comput. 2019; 131: 161–172. https://doi.org/10.1016/j.jpdc.2019.04.016
9. Louis L. Working principle of Arduino and using it as a tool for study and Research. International Journal of Control, Automation, Communication and Systems (IJCACS). 2016; 1(2): 21–29. https://doi.org/10.5121/ijcacs.2016.1203
10. Galadima AA. Arduino as a learning tool. 2014 11th International Conference on Electronics, Computer and Computation (ICECCO). 2014; 1–4. https://doi.org/10.1109/icecco.2014.6997577
11. Singh R, Gehlot A, Gupta LR, Singh B, Swain M. Internet of things with Raspberry Pi and Arduino. CRC Press, Taylor & Francis Group; 2021.

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Volume 8
Issue 1
Received May 27, 2022
Accepted June 10, 2022
Published June 27, 2022

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IJSCT

Home Appliances Control Using Voice

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u00a0Akash Chaudhary, Aditya Sahu1, Aman Verma, Ankit Sharma, Aryan Srivastava, Shekhar Srivastava,

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nJanuary 27, 2023 at 10:58 am

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This paper presents the advancement of home machines dependent on voice order utilizing Android. This framework has been intended to help and offer the help to old and incapacitated individuals at home. Google application has been utilized as voice acknowledgment and cycle the voice contribution from the PDA. In this paper, the voice input has been caught by the android and will be shipped off the Arduino Uno. Bluetooth module in Arduino Uno got the sign and handled the information sign to control the light and fan. The proposed framework expected to control electrical apparatuses with moderately easy to use interface and simplicity of establishment. We have exhibited up to 20 meter of reach to control the home machines through Bluetooth.

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Volume :u00a0u00a07 | Issue :u00a0u00a02 | Received :u00a0u00a0June 24, 2021 | Accepted :u00a0u00a0June 28, 2021 | Published :u00a0u00a0July 2, 2021n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Software Computing and Testing(ijsct)] [/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue Home Appliances Control Using Voice under section in International Journal of Software Computing and Testing(ijsct)] [/if 424]
Keywords voice, Android, Bluetooth, light and fan

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1. Mahmoud shaker Nasr, Fahtha H. A. Salem Azwai. Friendly home automation system using cell phone and J2ME with feedback instant voice messages. aiccsa, 2009 IEEE/ACS International Conference on Computer Systems and Applications. 10-13 May 2009; Rabat, Morocco, New York: IEEE; 2009.
2. Tam Van Nguyen, Dong Gun Lee, et al. Ubiquitous Access to Home Appliance Control System using Infrared Ray and Power Line Communication. ICI 2007, 3rdIEEE/IFIP International Conference in Central Asia. Tashkent, Uzbekistan. 26-28 Sept.2007.
3. S. M. Anamul Haque, S. M. Kamruzzaman, et al. A System for Smart-Home Control of Appliances Based on Timer and Speech Interaction. Proceedings of the 4th International Conference on Electrical Engineering & 2nd Annual Paper Meet. 26-28 January, 2006.
4. Tam Van Nguyen, Dong Gun Lee, et al. Ubiquitous Access to Home Appliance Control System using Infrared Ray and Power Line Communication. 2007 3rd IEEE/IFIP International Conference in Central Asia on Internet. 26-28 Sept. 2007. Tashkent, Uzbekistan, New York: IEEE; 2007.
5. Malik Sikandar Hayat Khiyal, Aihab Khan, et al. SMS Based Wireless Home Appliance Control System (HACS) for Automating Appliances and Security. Issues in Informing Science and Information Technology. 2009;6:887-894.
6. Jia-Ren Chang Chien, Cheng-Chi Tai. The Information Home Appliance Control System—A Bluetooth Universal Type Remote Controller. IEEE International Conference on Networking, Sensing and Control, 2004. 21-23 March 2004; Taipei, Taiwan, New York: IEEE; 2004.
7. N.P. Jawarkar, Vasif Ahmed, et al. Remote Control using Mobile through Spoken Commands. International Conference on Signal Processing, Communications and Networking. 22-24 Feb. 2007; Chennai, India, New York: IEEE; 2007.
8. Mardiana B., Hazura H., et al. Homes Appliances Controlled Using Speech Recognition in Wireless Network Environment. International Conference on Computer Technology and Development. 2009;2:285- 288.
9. S. M. Anamul Haque, S. M. Kamruzzaman, et al. A System for Smart-Home Control of Appliances Based on Timer and Speech Interaction. Proceedings of the 4th International Conference on Electrical Engineering & 2nd Annual Paper Meet. 26-28, pp. 128-131, January, 2006.
10. Malik Sikandar Hayat Khiyal, Aihab Khan, et al. SMS Based Wireless Home Appliance Control System (HACS) for Automating Appliances and Security. Issue in Information Science and Information Technology. 2009;6:887-894.
11. Jia-Ren Chang Chien, Cheng-Chi Tai. The Information Home Appliance Control System—A Bluetooth Universal Type Remote Controller. Proceedings of the 2004 IEEE. International Conference on Networking, Sensing & Control. March 21-23. 2004; Taipei, Taiwan, New York: IEEE; 2004.
12. N.P. Jawarkar, Vasif Ahmed, et al. Remote Control using Mobile through Spoken Commands. International Conference on Signal Processing, Communications and Networking. 22-24 Feb. 2007; Chennai, India, New York: IEEE; 2007.
13. Ravi Kishore Kodali, Vishal Jain, et al. IoT Based Smart Security and Home Automation System. International Conference on Computing, Communication and Automation. 29-30 April 2016; Greater Noida, India. 2017.
14. Lalit Mohan Satapathy, Samir Kumar Bastia, et al. Arduino based home automation using Internet of things (IoT). International Journal of Pure and Applied Mathematics. 2018;118(17):769-778.

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[if 424 not_equal=”Regular Issue”] Regular Issue[/if 424] Open Access Article

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International Journal of Software Computing and Testing

ISSN: 2456-2351

Editors Overview

ijsct maintains an Editorial Board of practicing researchers from around the world, to ensure manuscripts are handled by editors who are experts in the field of study.

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    By  [foreach 286]n

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    Akash Chaudhary, Aditya Sahu1, Aman Verma, Ankit Sharma, Aryan Srivastava, Shekhar Srivastava

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  1. Assistant Professor, Student,Department of Computer Science and Engineering, Babu Banarasi Das Institute of Technology and Management, Department of Computer Science and Engineering, Babu Banarasi Das Institute of Technology and Management,Uttar Pradesh, Uttar Pradesh,,India, India

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Abstract

nThis paper presents the advancement of home machines dependent on voice order utilizing Android. This framework has been intended to help and offer the help to old and incapacitated individuals at home. Google application has been utilized as voice acknowledgment and cycle the voice contribution from the PDA. In this paper, the voice input has been caught by the android and will be shipped off the Arduino Uno. Bluetooth module in Arduino Uno got the sign and handled the information sign to control the light and fan. The proposed framework expected to control electrical apparatuses with moderately easy to use interface and simplicity of establishment. We have exhibited up to 20 meter of reach to control the home machines through Bluetooth.n

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Keywords: voice, Android, Bluetooth, light and fan

n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Software Computing and Testing(ijsct)]

n[/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue under section in International Journal of Software Computing and Testing(ijsct)] [/if 424]

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Browse Figures

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References

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1. Mahmoud shaker Nasr, Fahtha H. A. Salem Azwai. Friendly home automation system using cell phone and J2ME with feedback instant voice messages. aiccsa, 2009 IEEE/ACS International Conference on Computer Systems and Applications. 10-13 May 2009; Rabat, Morocco, New York: IEEE; 2009.
2. Tam Van Nguyen, Dong Gun Lee, et al. Ubiquitous Access to Home Appliance Control System using Infrared Ray and Power Line Communication. ICI 2007, 3rdIEEE/IFIP International Conference in Central Asia. Tashkent, Uzbekistan. 26-28 Sept.2007.
3. S. M. Anamul Haque, S. M. Kamruzzaman, et al. A System for Smart-Home Control of Appliances Based on Timer and Speech Interaction. Proceedings of the 4th International Conference on Electrical Engineering & 2nd Annual Paper Meet. 26-28 January, 2006.
4. Tam Van Nguyen, Dong Gun Lee, et al. Ubiquitous Access to Home Appliance Control System using Infrared Ray and Power Line Communication. 2007 3rd IEEE/IFIP International Conference in Central Asia on Internet. 26-28 Sept. 2007. Tashkent, Uzbekistan, New York: IEEE; 2007.
5. Malik Sikandar Hayat Khiyal, Aihab Khan, et al. SMS Based Wireless Home Appliance Control System (HACS) for Automating Appliances and Security. Issues in Informing Science and Information Technology. 2009;6:887-894.
6. Jia-Ren Chang Chien, Cheng-Chi Tai. The Information Home Appliance Control System—A Bluetooth Universal Type Remote Controller. IEEE International Conference on Networking, Sensing and Control, 2004. 21-23 March 2004; Taipei, Taiwan, New York: IEEE; 2004.
7. N.P. Jawarkar, Vasif Ahmed, et al. Remote Control using Mobile through Spoken Commands. International Conference on Signal Processing, Communications and Networking. 22-24 Feb. 2007; Chennai, India, New York: IEEE; 2007.
8. Mardiana B., Hazura H., et al. Homes Appliances Controlled Using Speech Recognition in Wireless Network Environment. International Conference on Computer Technology and Development. 2009;2:285- 288.
9. S. M. Anamul Haque, S. M. Kamruzzaman, et al. A System for Smart-Home Control of Appliances Based on Timer and Speech Interaction. Proceedings of the 4th International Conference on Electrical Engineering & 2nd Annual Paper Meet. 26-28, pp. 128-131, January, 2006.
10. Malik Sikandar Hayat Khiyal, Aihab Khan, et al. SMS Based Wireless Home Appliance Control System (HACS) for Automating Appliances and Security. Issue in Information Science and Information Technology. 2009;6:887-894.
11. Jia-Ren Chang Chien, Cheng-Chi Tai. The Information Home Appliance Control System—A Bluetooth Universal Type Remote Controller. Proceedings of the 2004 IEEE. International Conference on Networking, Sensing & Control. March 21-23. 2004; Taipei, Taiwan, New York: IEEE; 2004.
12. N.P. Jawarkar, Vasif Ahmed, et al. Remote Control using Mobile through Spoken Commands. International Conference on Signal Processing, Communications and Networking. 22-24 Feb. 2007; Chennai, India, New York: IEEE; 2007.
13. Ravi Kishore Kodali, Vishal Jain, et al. IoT Based Smart Security and Home Automation System. International Conference on Computing, Communication and Automation. 29-30 April 2016; Greater Noida, India. 2017.
14. Lalit Mohan Satapathy, Samir Kumar Bastia, et al. Arduino based home automation using Internet of things (IoT). International Journal of Pure and Applied Mathematics. 2018;118(17):769-778.

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Regular Issue Open Access Article

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International Journal of Software Computing and Testing

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[if 344 not_equal=””]ISSN: 2456-2351[/if 344]

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Volume 7
Issue 2
Received June 24, 2021
Accepted June 28, 2021
Published July 2, 2021

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