IoT System for Ultraviolet Ray Index Monitoring
DOI:
https://doi.org/10.31686/ijier.vol7.iss12.2087Keywords:
Ultraviolet rays, Skin câncer, Internet of Things, UV index, cloud monitoringAbstract
Este artigo apresenta um sistema de monitoramento de índice ultravioleta usando aplicativos de IoT. O objetivo é auxiliar na prevenção de doenças causadas pela radiação solar ultravioleta por meio de mensagens de aviso com medidas preventivas a cada alteração no nível do índice ultravioleta ao longo do tempo. O monitoramento do índice de UV é de fundamental importância para a prevenção de várias doenças, como câncer de pele, doenças cardiovasculares, falta de cálcio e outras. O sistema apresentou bons resultados no monitoramento do índice UV, apresentando valores medidos dos índices UV de acordo com a radiação solar observada durante os experimentos, classificados de acordo com a Organização Mundial de Saúde (OMS).
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References
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[14] Brouwer-Brolsma, E. M., Vaes Anouk M.M., Zwaluw, N. L., Wijngaarden, J. P. van, Swart, Karin M.A., Ham, Annelies C., Dijk , Suzanne C. van, Sohl, Anke W. Ennemanc, Evelien, Schoor, Natasja M. van, Velde, Nathalie van der, Uitterlinden, Andre G., Lips, Paul, Feskens, Edith J.M., Dhonukshe-Rutten, Rosalie A.M., Groot, Lisette C.P.G.M. (2015). Relative importance of summer sun exposure, vitamin D intake, and genes to vitamin D status in Dutch older adults: The B-PROOF study. Department of Internal Medicine, Erasmus University Medical Centre, Department of Internal Medicine, Academic Medical Center, University of Amsterdam.
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[16] Chakraborty, Shouvik, Mali, Kalyani, Chatterjee, Sankhadeep, Banerjee, Soumen, Roy, Kyamelia, Dutta, Nairik, Bhaumik, Navoniloy, Mazumdar Sourav (2017). Dermatological effect of UV rays owing to Ozone layer depletion. Department of Computer Science & Engineering University of Kalyani, Department of Computer Science & Engineering University of Engineering & Management, Department of Electronics & Communication Engineering University of Engineering & Management New Town, Kolkata.
[17] Osman, Ummi Shuhada, Omar, Ahmad Fairuz (2016). Solar Ultraviolet Measuremente: A Mini Review. Universiti Sains Malaysia - School of Physics, Penang, Malaysia.
[18] Tajuddin, Mohd Amirul, Omar, Ahmad Fairuz (2017). Measuring Solar Ultraviolet Exposure Dose on EBT3 Film Through the Application of Visible Absorbance Spectroscopy. Universiti Sains Malaysia - School of Physics, Penang, Malaysia.
[19] Lonnqvist, Elin, Cullié, Marion, Bermejo, Miquel, Tootsi, Mikk, Smits, Simone, Duarte, Abel, Malheiro, Benedita, Ribeiro, Cristina, Ferreira, Fernando, Silva Manuel F., Ferreira, Paulo, and Guedes, Pedro (2017). Wearable UV Meter – An EPS@ISEP 2017 Project. School of Engineering, Polytechnic of Porto, Porto, Portugal (ISEP/PPorto).
[20] Park, Dae-Hwan, Kim, Kyeong-Mi, Oh, Seung-Taek, Lim, Jae-Hyun (2018). Design of Band-type Device to Measure UV Index and UVB irradiance in Everyday. Dept. Computer Science & Engineering, Kongju National University Cheonan, Republic of Korea.
[21] Mazzillo, Massimo, Shukla, Priya, Mallik, Ranajay, Kumar, Manoj, Previti Rosa, Marco, Gianfranco Di, Sciuto, Antonella, Puglisi, Rosaria Anna, and Raineri, Vito (2011). 4H-SiC Schottky Photodiode Based Demonstrator Board for UV-Index Monitoring, IEEE Sensors Journal, vol. 11.
[22] Vilela, F. M.P., Oliveira, F. M., Vicentini, F. T.M.C., Casagrande, R., Waldiceu A, Verri, C., T. M., Fonseca, M. J.V. (2016). Commercial sunscreen formulations: UVB irradiation stability and effect on UVB irradiation-induced skin oxidative stress and inflammation. Departamento de Ciências Farmacêuticas, Faculdade de Ciências Farmacêuticas de Ribeirão Preto, Universidade de São Paulo (USP), São Paulo, Brasil.
[23] Perform Systematic Literature Reviews (2019). Parsifal. Disponível em < https://parsif.al/>. Acesso em: 15/07/2019.
[24] ThingSpeak for IoT Projects (2019). ThingSpeak. Disponível em: <https://thingspeak.com/>. Acesso em: 30/10/2019.
[2] Saha, Himadri Nath, Mandal, Abhilasha, Sinha, Abhirup (2017). Recent Trends in the Internet of Things. Department of Computer Science and Engineering - Institute of Engineering and Management Kolkata, India.
[3] Petrut, Ionel and Otesteanu, Marius (2018). The IoT connectivity challenges. Faculty of Eletronics and Telecomunications, Communications Dept. Bd. V. Parvan 2, 300233 Timisoara, Romania.
[4] Dinh A., Luu L., Cao T. (2018). Blood Pressure Measurement Using Finger ECG and Photoplethysmogram for IoT. In: Vo Van T., Nguyen Le T., Nguyen Duc T. (eds) 6th International Conference on the Development of Biomedical Engineering in Vietnam (BME6). IFMBE Proceedings, vol 63. Springer, Singapore.
[5] Nurdin, M. Ryan Fajar., Hadiyoso, Sugondo,. Rizal, Achmad (2016). A low-cost Internet of Things (IoT) system for multi-patient ECG's monitoring. International Conference on Control, Electronics, Renewable Energy and Communications (ICCEREC), Bandung, Indonesia.
[6] Satija, Udit, Ramkumar, Barathram., Manikandan, M. Sabarimalai (2017). Real-Time Signal Quality-Aware ECG Telemetry System for IoT-Based Health Care Monitoring. IEEE Internet of Things Journal.
[7] Antolín, D., Medrano, N., Calvo, B., Pérez, F. (2017). A wearable wireless sensor network for indoor smart environment monitoring in safety applications. Sensors.
[8] Tsow, Francis, Forzani, Erica, Rai, Anant, Wang, Rui, Tsui, Ray, Mastroianni, Sal, Knobbe, Christopher, Gandolfi, A. Jay, Tao, N. J. A Wearable and Wireless Sensor System for Real-Time Monitoring of Toxic Environmental Volatile Organic Compounds. IEEE Sensors Journal.
[9] Blumthaler, M. (2018). UV Monitoring for Public Health. Int. J. Environ. Res. Public Health, 15, 1723.
[10] World health organization (OMS), 2019. Disponível em: <https://www.who.int/uv/en/>. Acesso em 30/10/2019.
[11] Religi, Arianna, Moccozet, Farahmand, Meghdad, Vuilleumier, Laurent (2016). SimUVEx v2: A Numeric Model to Predict Anatomical Solar Ultraviolet Exposure. University of Geneva, Institute of Services Science Geneva, Federal Office of Meteorology and Climatology, MeteoSwiss, Payerne, Switzerland.
[12] Osmancevic, A. ( 2012). UVB e Vitamina D em Psoríase. Dept of Dermatology, Sahlgrenska University Hospital, Gothenburg, Sweden.
[13] Leccese, F., Salvadori, G., Lista, D., Burattini, C (2018). Outdoor workers exposed to UV radiation: comparison of UV index forecasting methods. Dept. of Energy Engineering, Systems, Territory and Constructions (DESTeC) School of Engineering − University of Pisa, Italy, Dept. of Astronautical, Electrical and Energy Engineering (DIAEE) Sapienza University of Rome Rome, Italy.
[14] Brouwer-Brolsma, E. M., Vaes Anouk M.M., Zwaluw, N. L., Wijngaarden, J. P. van, Swart, Karin M.A., Ham, Annelies C., Dijk , Suzanne C. van, Sohl, Anke W. Ennemanc, Evelien, Schoor, Natasja M. van, Velde, Nathalie van der, Uitterlinden, Andre G., Lips, Paul, Feskens, Edith J.M., Dhonukshe-Rutten, Rosalie A.M., Groot, Lisette C.P.G.M. (2015). Relative importance of summer sun exposure, vitamin D intake, and genes to vitamin D status in Dutch older adults: The B-PROOF study. Department of Internal Medicine, Erasmus University Medical Centre, Department of Internal Medicine, Academic Medical Center, University of Amsterdam.
[15] Heckmana, Carolyn J., Liangb, Katherine, Rileya, Mary (2019). Awareness understanding, use, and impact of the UV index: Asystematic review of over two decades of international research.
[16] Chakraborty, Shouvik, Mali, Kalyani, Chatterjee, Sankhadeep, Banerjee, Soumen, Roy, Kyamelia, Dutta, Nairik, Bhaumik, Navoniloy, Mazumdar Sourav (2017). Dermatological effect of UV rays owing to Ozone layer depletion. Department of Computer Science & Engineering University of Kalyani, Department of Computer Science & Engineering University of Engineering & Management, Department of Electronics & Communication Engineering University of Engineering & Management New Town, Kolkata.
[17] Osman, Ummi Shuhada, Omar, Ahmad Fairuz (2016). Solar Ultraviolet Measuremente: A Mini Review. Universiti Sains Malaysia - School of Physics, Penang, Malaysia.
[18] Tajuddin, Mohd Amirul, Omar, Ahmad Fairuz (2017). Measuring Solar Ultraviolet Exposure Dose on EBT3 Film Through the Application of Visible Absorbance Spectroscopy. Universiti Sains Malaysia - School of Physics, Penang, Malaysia.
[19] Lonnqvist, Elin, Cullié, Marion, Bermejo, Miquel, Tootsi, Mikk, Smits, Simone, Duarte, Abel, Malheiro, Benedita, Ribeiro, Cristina, Ferreira, Fernando, Silva Manuel F., Ferreira, Paulo, and Guedes, Pedro (2017). Wearable UV Meter – An EPS@ISEP 2017 Project. School of Engineering, Polytechnic of Porto, Porto, Portugal (ISEP/PPorto).
[20] Park, Dae-Hwan, Kim, Kyeong-Mi, Oh, Seung-Taek, Lim, Jae-Hyun (2018). Design of Band-type Device to Measure UV Index and UVB irradiance in Everyday. Dept. Computer Science & Engineering, Kongju National University Cheonan, Republic of Korea.
[21] Mazzillo, Massimo, Shukla, Priya, Mallik, Ranajay, Kumar, Manoj, Previti Rosa, Marco, Gianfranco Di, Sciuto, Antonella, Puglisi, Rosaria Anna, and Raineri, Vito (2011). 4H-SiC Schottky Photodiode Based Demonstrator Board for UV-Index Monitoring, IEEE Sensors Journal, vol. 11.
[22] Vilela, F. M.P., Oliveira, F. M., Vicentini, F. T.M.C., Casagrande, R., Waldiceu A, Verri, C., T. M., Fonseca, M. J.V. (2016). Commercial sunscreen formulations: UVB irradiation stability and effect on UVB irradiation-induced skin oxidative stress and inflammation. Departamento de Ciências Farmacêuticas, Faculdade de Ciências Farmacêuticas de Ribeirão Preto, Universidade de São Paulo (USP), São Paulo, Brasil.
[23] Perform Systematic Literature Reviews (2019). Parsifal. Disponível em < https://parsif.al/>. Acesso em: 15/07/2019.
[24] ThingSpeak for IoT Projects (2019). ThingSpeak. Disponível em: <https://thingspeak.com/>. Acesso em: 30/10/2019.
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2019-12-01
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Copyright (c) 2019 Rivanildo Duarte Almeida, Raimundo Barreto, Eduardo Souto, Jandecy Cabral Leite
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How to Cite
Duarte Almeida, R., Barreto, R. ., Souto, E. ., & Cabral Leite, J. . (2019). IoT System for Ultraviolet Ray Index Monitoring. International Journal for Innovation Education and Research, 7(12), 409-420. https://doi.org/10.31686/ijier.vol7.iss12.2087
