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Research Article
Development of Android-based Real-time Observing and Control system for Renewable Energy Sources
Samiksha Gedam1
Rohini Pochhi2
Pallavi Rokde3
1PG Scholar,Electronics and communication Engineering, Tulsiramji Gaikwad-Patil College of Engineering & Technology, Nagpur, Maharashtra, India. 23Professor, Electronics and communication Engineering, Tulsiramji Gaikwad-Patil College of Engineering & Technology, Nagpur, Maharashtra, India.
Published Online: March-April 2024
Pages: 94-98
Cite this article
No DOIReferences
1. C. P. Kandasamy, P. Prabu, and K. Niruba, “Solar Potential Assessment Using PVSYST Software”, in International Conference on
Green Computing, Communication and Conservation of Energy’ (ICGCE-2013)
2. Blynk, “How blynk works,” About Blynk, pp. 1–81 (2013).
3. Sangwongwanich, “A New Power Control Strategy for Grid- Friendly Single-Phase Photovoltaic Systems”, (2014).
4. C. Rus-Casas, L. Hontoria, J. I. Fern, G. Jim, and F. Muñoz-rodr, “Development of a Utility Model for the Measurement of Global
Radiation in Photovoltaic Applications in the Internet of Things (IoT” Electronics J., vol. 8, no. 304, pp. 1–17, 2018
5. S. Priyadarshi, S. Bhaduri, and N. Shiradkar, “IoT Based, Inexpensive System for Large Scale, Wireless, Remote Temperature
Monitoring of Photovoltaic Modules,” in IEEE 7th World Conference on Photovoltaic Energy Conversion (WCPEC) (A Joint
Conference of 45th IEEE PVSC, 28th PVSEC & 34th EU PVSEC), 2018, pp. 749– 752.
6. M. Anthony, V. Prasad, K. Raju, M. H. Alsharif, Z.W. Geem, and J. Hong, “Design of rotor blades for vertical axis wind turbine with
wind _ow moodier for low wind pro_le areas,'' Sustainability, vol. 12, no. 19, p. 8050, Sep. 2020, Doi: 10.3390/su12198050.
7. Development of a data acquisition system for remote monitoring of renewable energy systems Kostas Kalaitzakis, Eftichios Koutroulis,
Vassilios Vlachos Department of Electronics and Computer Engineering, Technical University of Crete, GR- 73100, Chania, Greece.
8. Controllogger: A remote monitoring system for decentralized renewable energy sources: Fábio T. Brito, Sandro C.S. Jucá and Paulo
C.M. Carvalho.
Green Computing, Communication and Conservation of Energy’ (ICGCE-2013)
2. Blynk, “How blynk works,” About Blynk, pp. 1–81 (2013).
3. Sangwongwanich, “A New Power Control Strategy for Grid- Friendly Single-Phase Photovoltaic Systems”, (2014).
4. C. Rus-Casas, L. Hontoria, J. I. Fern, G. Jim, and F. Muñoz-rodr, “Development of a Utility Model for the Measurement of Global
Radiation in Photovoltaic Applications in the Internet of Things (IoT” Electronics J., vol. 8, no. 304, pp. 1–17, 2018
5. S. Priyadarshi, S. Bhaduri, and N. Shiradkar, “IoT Based, Inexpensive System for Large Scale, Wireless, Remote Temperature
Monitoring of Photovoltaic Modules,” in IEEE 7th World Conference on Photovoltaic Energy Conversion (WCPEC) (A Joint
Conference of 45th IEEE PVSC, 28th PVSEC & 34th EU PVSEC), 2018, pp. 749– 752.
6. M. Anthony, V. Prasad, K. Raju, M. H. Alsharif, Z.W. Geem, and J. Hong, “Design of rotor blades for vertical axis wind turbine with
wind _ow moodier for low wind pro_le areas,'' Sustainability, vol. 12, no. 19, p. 8050, Sep. 2020, Doi: 10.3390/su12198050.
7. Development of a data acquisition system for remote monitoring of renewable energy systems Kostas Kalaitzakis, Eftichios Koutroulis,
Vassilios Vlachos Department of Electronics and Computer Engineering, Technical University of Crete, GR- 73100, Chania, Greece.
8. Controllogger: A remote monitoring system for decentralized renewable energy sources: Fábio T. Brito, Sandro C.S. Jucá and Paulo
C.M. Carvalho.
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