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An image processor is a type of media processor or specialized digital signal processor (DSP) used for image processing in digital cameras or other devices. It is also known as an image processing engine, an image processing unit (IPU), or an image signal processor (ISP).
Image processing is the process of doing some things to an image to make it better or to get some useful information out of it. It is a type of signal processing in which an image serves as the input and an image or its characteristics or features serve as the output.
Digital Image Processing (DIP) is a piece of software that computers use to change digital images. Additionally, it is utilized to enhance the images and extract important information from them.
For instance: MATLAB, Adobe Photoshop, and others The process of converting an image into a digital form and carrying out specific operations in order to extract some useful information from it is known as image processing.
When certain predetermined signal processing techniques are applied, the image processing system typically treats all images as two-dimensional signals. A common misconception about image processing is that it involves arbitrary image manipulation in order to support a preferred reality or meet an aesthetic standard.
However, the more accurate definition of image processing is a means of translating between digital imaging devices and the human visual system.
The Global Image Processing Unit market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Endoscopic image display is made possible by Sony’s “head-mount image processing unit.” The launch of a head-mount image processing unit that can either control video images or receive and send endoscope image signals has been announced today by Sony Corporation (hereinafter “Sony”).
These images can then be displayed in 3D or 2D on the accompanying head-mounted monitor. As an additional option, the head-mounted monitor can also be purchased separately.
When compared to open surgery, laparoscopic surgery, in which an endoscope is inserted through multiple keyhole incisions in a patient’s abdomen and allows the surgeon to confirm video images displayed on a monitor in real time, is becoming more and more common.
Additionally, realistic 3D images that are able to convey information related to visual depth in high definition and with extreme precision have been recognized as providing significant advantages in the medical field, and there is a significant potential demand for this technology.
This year, a number of manufacturers of medical devices put 3D-compatible endoscopes on the market. These endoscopes have gained popularity due to their extremely precise three-dimensional images of the area being operated on, which help improve surgical precision.
As a result, the market for high-precision 3D monitors and images has grown. Sony is introducing a head-mount image processor that is compatible with a 3D surgical laparoscope and features a 3D head-mounted monitor.
It proposes novel workflows and incorporates Sony’s cutting-edge 3D and display technologies to produce a standard of 3D images that meet the needs of medical professionals.
