Running head: DIGITAL IMAGING SYSTEM DIGITAL IMAGING SYSTEM Name of the Student Name of the University Author Note 1 AML RISK MANAGEMENT Table of Contents 1. What is digital imaging system: .......................................................................................... 2 2. Type of digital imaging system: ............................................................................................. 2 3. How digital imaging system work: ..................................................................................... 3 4. Pros vs. Cons of digital imaging system: ............................................................................ 3 5. Digital imaging system application: ................................................................................... 4 References: ................................................................................................................................. 5 2 AML RISK MANAGEMENT 1. What is digital imaging system: The system of digital imaging is referred as the creation of arepresentation, which has visual characteristics for an object. Additionally, it includes the compression, printing, processing, storage as well as the display of images. The process of digital imaging can be distinguished by the radiation, which are electromagnetic and they convey the information, which is included in the image (Zhou, Zhang & Berto, 2020 ). Digital imaging was developed for avoiding the weaknesses, which are operational of the film cameras for the military as well as scientific mission. 2. Type of digital imaging system: Computed radiography and the digital radiography are the two type of digital imaging system. The digital replacements of the X-ray film radiography, which are conventional are referred as the Computed radiography (CR). The CR additionally offers several advantages related to the tasks of inspection like the usage of consumables are eliminated virtually as well as the timeframe for the requirement of producing an image is shortened (Zhou et al., 2019 ). Digital radiography (DR), on the other hand, is an advanced form of inspecting X ray, which helps in producing radiographic images instantly on the computer by using the techniques of xray sensitive plates. Figure 1: Types of Digital Imaging System Types of digital imaging system Computed Radiography Digital Radiography 3 AML RISK MANAGEMENT 3. How digital imaging system work: The applications of the system of digital imaging improve the pictorial information of an image so that it gets easy for humans to interpret. Additionally, the digital imaging system works for processing the scene data for the perception of autonomous machine. The system works in such away that it successfully extracts the information from the image, which must be processed by the computers. Figure 2: Components of Digital Imaging System 4. Pros vs. Cons of digital imaging system: Pros of Digital Imaging System Cons of Digital Imaging System The system of digital imaging increased the dynamic ranges. The spatial determination of the system of digital imaging is poor. The amount of radiation is low. The investment cost at the initial level is high. Digital imaging system saves time (Koban et al., 2018 ). The rapid advancement of technologies makes the equipment of digital imaging as obsolete. The education opportunities of the patients are enhanced by the digital imaging system. The legal concerns related to the system are altered through manipulation of software. Digital imaging system eliminates the requirements of darkrooms along with In the system of digital imaging, it is difficult to control infection of the sensors. 4 AML RISK MANAGEMENT chemicals, which further decreases hazardous wastes. 5. Digital imaging system application: There are several applications of digital imaging system like the sharpening as well as restoration of images, digital imaging are applied in medical fields as well as in remote sensing. Additionally, the system of digital imaging is used for transmission as well as encoding, machine vision, processing of colours, recognizing patterns, processing videos and in microscopic imaging. In the medical field, the digital imaging system are further used for imaging gamma ray, PET scanning, Medical CT, imaging X ray as well as in imaging UV rays (Humphreys et al., 2018) .The digital imaging system has wide applications and is used in several fields dedicated for working technically. 5 AML RISK MANAGEMENT References: Humphreys, M., Grant, J. P., Escorcia-Carranza, I., Accarino, C., Kenney, M., Shah, Y. D., ... & Cumming, D. R. S. (2018). Video-rate terahertz digital holographic imaging system. Optics express ,26 (20), 25805-25813. Koban, K. C., Härtnagl, F., Titze, V., Schenck, T. L., & Giunta, R. E. (2018). Chances and limitations of alow-cost mobile 3D scanner for breast imaging in comparison to an established 3D photogrammetric system. Journal of Plastic, Reconstructive & Aesthetic Surgery ,71 (10), 1417-1423. Zhou, X. P., Zhang, J. Z., & Berto, F. (2020). Fracture analysis in brittle sandstone by digital imaging and AE techniques: role of flaw length ratio. Journal of Materials in Civil Engineering ,32 (5), 04020085. Zhou, X. P., Zhang, J. Z., Qian, Q. H., & Niu, Y. (2019). Experimental investigation of progressive cracking processes in granite under uniaxial loading using digital imaging and AE techniques. Journal of Structural Geology ,126 ,129-145.