Development of Optical Imaging in Medical Applications

Authors

  • Azhar Physics Education, Faculty of Teacher Training and Education, Universitas Riau
  • Amelia Risnauli
  • Fitri Justi Zuliami Physics Education, Faculty of Teacher Training and Education, Universitas Riau
  • Mona Silvia Dayanti Physics Education, Faculty of Teacher Training and Education, Universitas Riau
  • Sarifatul Fitri Physics Education, Faculty of Teacher Training and Education, Universitas Riau

Keywords:

optical imagine, optic, medical

Abstract

Modern technological advances have provided great opportunities for the development of optical fields such as optical imaging, sensing, and devices. The development of optical imaging and sensing is also related to the use of optical devices such as lasers and image sensors. Laser technology and image sensors play an important role in various applications such as optical imaging, optical security, remote sensing, and three-dimensional (3D) reconstruction (When Chen, et al. 2023). Optics is a science that studies the propagation of light or photons when passing through a medium. The fundamental phenomena encountered in optical studies are reflection, refraction, transmission, diffraction, interference and coherence as well as polarization.

References

Budi, S. C., & Khasanah, Z. (2015). Imaging of Medical Record Files in N Investigator N Activities at Yogyakarta City Hospital. Indonesian Journal of Health Information Management, 3(1). https://doi.org/10.33560/.v3i1.72

Hadi, B. S. (2007). Fundamentals of Photogrammetry. Fundamentals of Photogrammetry, 1–152.

Hu, C., & Han, S. (2022). On Ghost Imaging Studies for Information Optical Imaging. Applied Sciences (Switzerland), 12(21), 1–19. https://doi.org/10.3390/app122110981

Health, D. I. B. (2014). The role of biooptics and lasers.

Makhmutova, M., & Caicedo, A. (2021). Optical Imaging of Pancreatic Innervation. Frontiers in Endocrinology, 12(April), 1–15. https://doi.org/10.3389/fendo.2021.663022

Pangestu, P. (2015). Application of Histogram Equalization in Optical Character Recognition Preprocessing. Ultimatics : Journal of Informatics Engineering, 7(1). https://doi.org/10.31937/ti.v7i1.346

Primary, J., & Saian, P. . . . (2020). Designing an Android Application with the Optical Character Recognition Concept using BlinkID. 672016158.

Pratama, N. A., Irawan, B., Nurdiawan, O., Study, P., Informatics, T., Study, P., Device, R., Study, P., Informatics, M., Study, P., & Informatics, T. (2022). WITH OPTICAL CHARACTER RECOGNITION. 6(1), 92–101.

R. Sandhika Galih A., Erik, M. L. H. (2014). Application of the OCR (Optical Character Recognition) Technique in the Application of the Translation of the Book of Fiqh Safinah an-Naja using Readiris. National Seminar on Informatics, 2014(semnasIF), 60–69.

Rizal Toha, M., & Triayudi, A. (2022). Application of Reading Text in Images Using Website-Based OCR Coding (Case Study: e-KTP). JST (Journal of Science and Technology), 11(1), 175–183. https://doi.org/10.23887/jstundiksha.v11i1.42279

Setiyadi, I. C. (2018). Multispectral Imaging System for use in Dermatology Studies.

Shi, H., Guan, Y., Chen, J., & Luo, Q. (2019). Optical imaging in brainsmatics. Photonics, 6(3), 1–13. https://doi.org/10.3390/PHOTONICS6030098

Wahyu, S. B. (2013). Matlab-based software applications for. Indonesian Journal of Physics Education, 9(2), 85–92. http://journal.unnes.ac.id/nju/index.php/JPFI

Zaini Miftach. (2018). . 53–54. 済 無 No Title No Title No Title

"Challenges and opportunities in imaging the microenvironment of solid tumors," by V. Ntziachristos, Nature Medicine, Volume 8, pages 682-687, 2002.

"Breaking the diffraction barrier in fluorescence microscopy by optical shelving," by A. P. Mosk, A. Lagendijk, G. Lerosey, and M. Fink, Science, Volume 312, pages 1354-1358, 2006.

"Optical imaging of tissue in vivo with video-rate dynamic polarized light imaging," by R. M. Pasternack, S. Rosenberg, and I. A. Vitkin, Journal of Biomedical Optics, Volume 13, Issue 1, Article 014020, 2008.

"Open-source, low-cost, modular, computer-assisted fluorescence imaging system," by J. M. Zook, L. M. Miller, C. B. Johnson, and K. M. Barker, PLoS ONE, Volume 14, Issue 2, Article e0212845, 2019.

"Real-time optical imaging of naturally occurring ionizing radiation," by M. L. Espenel, B. M. Ponnusamy, A. M. Cloutier, P. C. Stompor, C. M. Peterson, L. J. Love, M. J. Clarke, and E. W. Rubinstein, Nature Communications, Volume 12, Article 4976, 2021.

"Non-invasive optical imaging in dermatology and dermatologic drug development," by D. F. Williams, A. D. Elkeeb, and H. M. Brown, Journal of Investigative Dermatology Symposium Proceedings, Volume 9, Issue 1, pages 56-64, 2004.

Downloads

Published

2024-06-21

How to Cite

Azhar, Amelia Risnauli, Fitri Justi Zuliami, Mona Silvia Dayanti, & Sarifatul Fitri. (2024). Development of Optical Imaging in Medical Applications. Journal of Frontier Research in Science and Engineering, 2(2), 15–18. Retrieved from https://journal.riau-edutech.com/index.php/jofrise/article/view/51

Issue

Vol. 2 No. 2 (2024): JOURNAL OF FRONTIER RESEARCH IN SCIENCE AND ENGINEERING

Section

Articles

License

Copyright (c) 2024 Azhar, Amelia Risnauli, Fitri Justi Zuliami, Mona Silvia Dayanti, Sarifatul Fitri

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Similar Articles

You may also start an advanced similarity search for this article.