Marcio M. Mello scite author profile

Marcio M. Mello

17Publications

18Citation Statements Received

12Citation Statements Given

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174

Affiliations

Universidade de São Paulo, University of Salento, Federal University of São Carlos

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Self-service kiosk for testing sunglasses

2014

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BackgroundSunglasses users may only be assured on their ultraviolet protection by purchasing certified products, however they are not able to check if sunglasses are still ultraviolet (UV) protected as they age, unless they resort themselves to a professional who is qualified for using a spectrophotometer and is acknowledged on the standards for providing a report for the user. Current literature establishes safe limits on the exposure of the eyes relatively to the ultraviolet radiation exposure for the UVA and UVB ranges (280 nm – 400 nm). The UV protection is category dependent. Sunglasses are categorized from 0 to 4 and the categories are determined by the lenses transmission’s percentage on the visible range (380 nm – 780 nm).MethodsIn order to overcome inaccessibility of such measurements on sunglasses, a prototype for testing ultraviolet protection on sunglasses, according to Brazilian Standards, has been developed for amateur use. The system consists of assembling UVA and UVB light sources and two UV responsive photodiode sensors, with Erythema action response for measuring UV protection; for categories measurements, combination of white light and LEDs were used for the visible range, as well as a light sensor having spectral response similar to the human eye. Electronics has been developed for controlling the measurements and software has been implemented for providing the report as well as for the user’s interface.ResultsAll the system was embedded as a self-service touch screen kiosk and provides transmittance measurements that are within the deviation limit required by NBR15111, i.e., 0.25%. Measurements were performed in over 45 sunglasses and compared to CARY 5000 – VARIAN spectrophotometer and present a good correlation for the measurements of transmittance in the visible spectral range (r2 = 0.9999) and in the ultraviolet range (r2 = 0.9997).ConclusionsThe prototype identifies the UV protection, for non-corrective sunglasses, according to category of the lens and is available for the public. In addition to educating the population about the importance of wearing protected sunglasses, the prototype has also allowed the public to have access to information about the quality of protection of their own sunglasses in an easy and free testing method.

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Carbon-monoxide (CO) Real Time Monitoring in Combustion Engines by an Optical Detection System

Mello

Risi

Passaseo

et al.

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High responsivity AlGaN-based UV sensors for operation in harsh conditions

Mello

Scarascia²,

Guido

et al. 2008

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Sistema de análise de transmitâncias em lentes solares

Mello¹

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Medidas de transmitância em óculos de sol fazem parte de alguns dos testes propostos pela norma NBR15111, porém, observou-se que não há no país um sistema preciso para medidas de transmitância que não seja com o uso de espectrofotômetros e pessoas qualificadas para utilizar o equipamento, aplicar as funções de ponderação e fornecer laudos técnicos sobre a lente testada. Assim, o trabalho propõe métodos que utilize componentes simples e resulte na construção de um equipamento que possa fornecer a informação sobre as transmitâncias dos filtros de óculos de sol de forma automática, de acordo com a NBR15111. Foi feita a espectrofotometria de 45 lentes de óculos de uso geral, e calculadas suas respectivas transmitâncias (luminosa, ultravioleta, semafórica), como amostras de comparação com as metodologias testadas. Os testes incluíram lâmpadas e LEDs como fontes de emissão para a região do espectro visível e lâmpadas fluorescentes para a região ultravioleta, além de sensores específicos para cada região espectral, e eletrônica de controle e aquisição dos sinais. Foram usadas ferramentas de análise estatística, como erro RMS, coeficiente de aderência (GFC) e análise de Bland-Altman. Aproximadamente 62% dos óculos testados foram reprovados para a direção no trânsito e nenhum foi reprovado para a proteção UV. Os métodos RMS e GFC apontaram combinações entre fonte e sensor que conseguem fazer a ponderação com os menores desvios-padrão das medidas espectrométricas. O sistema para teste UV mostrou melhoria significativa em relação aos desenvolvidos anteriormente, com um desvio padrão de 4,45 pontos percentuais e o sistema para testes na região visível utilizou o sensor TCS, no qual a regressão polinomial mostrou melhores resultados que as redes neurais artificiais, com os menores limites de concordância para as transmitâncias. Um número maior de amostras pode melhorar os métodos para que se obtenha uma aproximação ideal para todos os óculos de sol. Uma montagem com LEDs se apresenta como uma alternativa interessante quanto ao custo, tamanho e baixo consumo para medidores de transmitância portáteis. Desenvolveu-se um sistema com módulos para teste UV, Visível e Semafórico, para uso público no campus da USP de São Carlos, proporcionando conscientização e extensão dos estudos em relação aos óculos solares, contribuindo efetivamente com a população brasileira.

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GaN optical system for CO and NO gas detection in the exhaust manifold of combustion engines

Mello¹,

Potı̀²,

Risi³

et al. 2006

J. Opt. A: Pure Appl. Opt.

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A prototype for measurements in visible light transmittance of sunglasses

Mello¹,

Lincoln²,

Ventura³

2012

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Effect of dehydration in the UV transmittance of "in vitro" corneas

Lincoln¹,

Ventura²,

Sousa³

et al. 2012

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Technical Details of Functional Imaging Involving Patients, Protocols and Equipment

Fleming¹,

Andrews²,

Mello³

1985

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12 3

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Marcio M. Mello

Self-service kiosk for testing sunglasses

Carbon-monoxide (CO) Real Time Monitoring in Combustion Engines by an Optical Detection System

High responsivity AlGaN-based UV sensors for operation in harsh conditions

Sistema de análise de transmitâncias em lentes solares

GaN optical system for CO and NO gas detection in the exhaust manifold of combustion engines

A prototype for measurements in visible light transmittance of sunglasses

Effect of dehydration in the UV transmittance of "in vitro" corneas

Technical Details of Functional Imaging Involving Patients, Protocols and Equipment

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