Revista ELECTRO
Vol. 42 – Año 2020
Artículo
TÍTULO
Skin Temperature Measurement with the Lepton FLIR Camera
AUTORES
Sáenz Zamarrón David, Arana de las Casas Nancy Ivette, Alatorre Ávila José Francisco, García Grajeda Enrique, Chapa Núñez Daniel, Armendáriz Mancinas Martín
RESUMEN
Debido a que actualmente no hay vacunas o terapias antivirales efectivas específicas para COVID-19, existe una necesidad global urgente de detección temprana de pacientes con Covid19 para detener la propagación del virus, una de estas formas es detectar si la gente tiene fiebre, tomando su temperatura, de tal manera que una temperatura superior a 37.5 ° C en la piel puede considerarse fiebre. Imágenes térmica s sin contacto (TI) es un método seguro y no invasivo para recopilar datos de temperatura de la piel, utiliza el fenómeno de que los objetos vivos emiten radiación infrarroja en cierta medida y la intensidad de la radiación infrarroja se puede utilizar para calcular la temperatura del objeto emisor. En este artículo, se presenta un sistema de visión de i magen térmica de bajo costo, que permite la inspección en lugares concurridos con personas que pueden tener fiebre, un síntoma de enfermedades infecciosas como Covid 19.
Palabras Clave: Covid 19, FLIR, Lepton, Qt.
ABSTRACT
Due to there are currently no vac cine or specific effective antiviral therapies for COVID-19, in general, there is an global urgent need for early detection of Covid19 patients, to stop the spread of the virus, one of these forms is to detect if the people has a fever, taking their temperature. Thus, a temperature higher than 37.5°C in the skin can be considered fever. Non-contact thermal imaging (TI) is a safe non-invasive method of collecting Skin Temperature data, it utiliz es the phenomenon that living objects emit infrared radiation to some extent, and the intensity of infrared radiation can be used for calculation of the temperature of the emitting object. In this paper, a low-cost thermal imaging vision sys tem is presented, it allows inspection of crowded places with people who may have a fever, a symptom of infectious diseases such as Covid 19.
Keywords: Covid 19, FLIR, Lepton, Qt.
REFERENCIAS
[1] A. E. Gorbalenya, S. C. Baker, R. S. Baric, R. J. de Groot, C. Drosten, A.A. Gulyaeva, J. Ziebuhr. (2020, April 10). Severe acute respiratory syndrome-related coronavirus: The species and its viruses – a statement of the Coronavirus Study Group. Retrieved from Cold Spring Harbor Laboratory: doi: https://doi.org/10.1101/2020.02.07.937862. visited: 05-18-2020.
[2] World Health Organization. (2020, April 11). Coronavirus disease 2019 (COVID-19). Retrieved from Situation Report – 80: https://www.who.int/docs/default-source/coro naviruse/situation-reports/20200409-sitrep-80-covid-19.pdf?sfvrsn=1b685d64_4. visited: 05-18-2020.
[3] R. Lu, X. Zhao, J. Li, P. Niu, B. Yang, H. Wu, W. Chen. (2020, April 11). Genomic characterization and epidemiology of 2019 novel coronavirus: implications for virus origins and receptor binding. Retrieved from T he LANCET: https://www.thelancet.com/journals/lancet/article/PIIS0140-6736(20)30251-8/fulltext?fbclid=IwAR126TSfMBJ2J5AESif6hv40AFRTfVE8zLY34el8BWt9m1MyU1g6tiQ6qAA. visited: 05-18-2020.
[4] X. Li, Y. Song, & J. Cui. (2020, February 9 ). Bat origin of a new human coronavirus: there and back again. Retrieved from life.schichina.com: https://link.springer.com/article/10.1007%2Fs11427-020-1645-7. visited: 05-18-2020.
[5] Z. Wu, & J. M. McGoogan. (2020). Summary of a Report of 72 314 Cases from the Chinese Center for Disease Control and Prevention. JAMA 323(13), 1239-1242.
[6] C. Huang, Y. Wang, X. Li, L. Ren, J. Zhao, Y. Hu, B. Cao. (2020). Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. The LANCET, 497-506.
[7] M. Picquart & I. Carrasco. (2017). De la temperatura y su medición. Latin-American Journal of Physics Education. Vol.11, 1-10.
[8] E. Ring & K. Ammer. (2000). The Technique of Infrared Imaging in Medicine. Thermology International 10/1, 7-14.
[9] T. Hoelter, A. Kathman, A. Richards & M. Walters. (2015). Key Technology Trends and Emerging Applications for Compact Thermal Imagers. AMA Conferences 2015-SENSOR 2015 and IRS, (pp. 938-943).
[10] L.G. Maldonado-Garcia. (2018). “Diseño Experimental de un Dispositivo que por medio de una Fuente de Radiación Infrarroja Externa Permita Visualizar una Imagen Térmica de un Objetivo”. Riobamba-Ecuador, Escuela Superior Politécnica de Chimborazo.
[11] R. Bayareh-Mancilla, A. Vera-Hernández, L. Leija-Salas, A. Ramos & J. Gutierrez-Martinez. (2017). Characterization of a Longwave Infrared Imager Telemetric Measurement of Human Skin Temperature of Diabetic Foot. 2017 G lobal Medical Engineering Physics Exchanges /Pan American Health Care Exchanges (GMEPE / PAHCE). Chiapas, México, IEEE.
[12] A. F. Ros-Gómez. (2019). Desarrollo e Integración de Sistema de medida de temperatura foliar en plataforma Linux sobre Raspberry Pi. Cartagena, Colombia, Universidad Politécnica de Cartagena.
[13] J.W. Lin, M.H. Lu & Y.H. Lin. (2019). A Thermal Camera based Continuous Body Temperature Measurement System. The IEEE International Conference on Computer Vision (pp. 1-7). Georgia, USA: IEEE.
[14] V. Mossi-Garcia. (2019). Sistema de Cámara Térmica para Bomberos. Valencia, España, Universi dad Politécnica de Valencia.
[15] S. Lin, L. Fichera, M. J. Fulton, & R.J. Webster III. (2017). Don’t Get Burned: Thermal Monitoring of Vessel Sealing using a Miniature Infrared Camera. Medical Imaging 2017: Image-Guided Procedures, robotic Intervention, and modeling. Orlando, Florida, United States: SPIE 10135.
[16] R. Vardasca, C. Magalhaes, P. Silva, B. Kluwe & J. Mendes. (2019). Are the IR camera FLIR ONE suitable for clinical applications? Thermology international 29/3, 95-102.
[17] FLIR. (2020, April 11). LWIR Micro Thermal Camera Module. Lepton. Model: Lepton 2.0, 80X60, 50, with shutter. Retrieved from flir.com: https://www.flir.com/products/lepton/?model=500-0659-01 visited: 05-18-2020.
[18] D. Molloy. (2016). Exploring Raspberry Pi® Interfacing to the real world with embedded Linux. Ed. Wiley. ISBN: 978-1-119-18868-1.
[19] Raspberrypi.org. (2020, April 11). Raspberry Pi Compute Module 3+ Datasheet. Retrieved from Raspberrypi.org: https://www.raspberrypi.org/documentation/hardware/computemodule/datasheets/rpi_DATA_CM3plus_1p0.pdf. visited: 05-18-2020.
[20] Qt. 2020. Availabl e online: www.qt.io visited: 05-18-2020.
[21] LeptonModule. 2020 Available online: https://github.com/groupgets/LeptonModule visited: 05-18-2020.
CITAR COMO:
Sáenz Zamarrón David, Arana de las Casas Nancy Ivette, Alatorre Ávila José Francisco, García Grajeda Enrique, Chapa Núñez Daniel, Armendáriz Mancinas Martín, "Skin Temperature Measurement with the Lepton FLIR Camera", Revista ELECTRO, Vol. 42, 2020, pp. 124-129.
VERSIÓN PDF