Development of a Portable Digital Radiographic System Based on FOP-Coupled CMOS Image Sensor and Its Performance Evaluation

Development of a Portable Digital Radiographic System Based on FOP-Coupled CMOS Image Sensor and Its Performance Evaluation

Citation

Cho, H. S., Jeong, M. H., Han, B. S., Kim, S., Lee, B. S., Kim, H. K., & Lee, S. C. (2005). Development of a portable digital radiographic system based on FOP-coupled CMOS image sensor and its performance evaluation. IEEE Transactions on Nuclear Science, 52(5), 1766-1772. doi:10.1109/TNS.2005.856792

Keywords

  • CMOS image sensor
  • digital radiography
  • fiber optic plate with scintillator (FOS)
  • X-ray imaging

Brief

The article describes the development and performance of a portable digital radiographic system that uses a CMOS image sensor coupled with a fiber optic plate and different scintillators.

Summary

This article, "Development of a Portable Digital Radiographic System Based on FOP-Coupled CMOS Image Sensor and Its Performance Evaluation", describes the development of a portable digital radiographic system. The system was created by a team of researchers: H. S. Cho, M. H. Jeong, B. S. Han, S. Kim, B. S. Lee, H. K. Kim, and S. C. Lee. The researchers published their findings in the IEEE Transactions on Nuclear Science.

The system utilizes a CMOS image sensor paired with a fiber optic plate (FOP) and conventional scintillators. The FOP plays a crucial role by mitigating performance degradation of the CMOS sensor due to irradiation, while simultaneously enhancing the overall image quality. The article provides a detailed overview of each component within the imaging system.

Furthermore, the authors present a performance analysis derived from experimental measurements and X-ray images. The analysis encompasses crucial aspects such as:

  • System response with exposure
  • Contrast-to-noise ratio (CNR)
  • Modulation transfer function (MTF)
  • Noise power spectrum (NPS)
  • Detective quantum efficiency (DQE)

The study highlights the promising image performance achieved by the portable digital radiographic system, particularly in areas like emergency medical vehicles and remote sites.

Origin: https://www.researchgate.net/publication/3139484_Development_of_a_portable_digital_radiographic_system_based_on_FOP-coupled_CMOS_image_sensor_and_its_performance_evaluation

 

Back to blog