Digital Imaging is More Than Just For Fun
During the 1960’s and 1970’s a new form of imaging was created to benefit the scientific community and the military. Regular film was too fragile for some projects, it could not be exposed to either extreme heat or cold, etc. Like most new developments, it was far too expensive for public use, but in later years it became less expensive and a lot of individuals now prefer it to regular film also. Continue reading the inside story of digital imaging.
The acquisition of digital images relates to acquiring them from a physical view or scene. The description can include everything that relates to working with that image, such as printing, display, storage, processing, or compressing, or all of these. In order to perform the acquisition, you need a camera, or a device that acquires like one.
Obtaining one image from another is known as digitizing, which involves sampling and quality of sound. These types of images are collected by scanning, or by sonar, etc. Rendering is to make from a mathematical formula or a geometric model.
The authenticity of digital imaging is still being questioned in certain professional fields for accuracy. Law enforcement and health care, in particular require complete accuracy, and forensic science has come a long way in being able to find ways of testing for its accuracy.
Molecular imaging was first used in radio pharmacology so that the molecular pathway structures inside organisms could be studied, without them knowing we were studying them, and disturbing their patterns. This was a major breakthrough in being able to diagnose diseases like cancer, neurological and heart problems.
With medical imaging biomarkers, they are now able to do even more. The biomarkers interact with their surroundings each time there is a significant change in molecular structure. This is how they can know if medications are working properly, and it also allows for early detection of disease.
There are different image resolutions for digital images and they can be expressed in a lot of different ways. One of which is pixel, which is basically like a count of width by height. Spatial refers to how closely lines can be resolved. Spectral distinguishes color images. Temporal resolves points in time like a movie camera, and radiometric distinguishes intensity.
High resolution imaging refers to the detail that an image holds. This is not only applicable to digital images, but to film images as well. The higher the resolution, the more detail the image has. Resolution can be associated with physical size such as lines per millimeter, or lines per inch, in relation to the overall size of the picture.
Well, now that you know a little more about the history of digital, does it make you want to get out there, buy a new camera and start making your own images? Think of what you can create. One of the great benefits of digital, is that you can enhance and edit your photos, you do not have the opportunity to do that with regular film. Look at the advantages that digital has brought to our lives. Happy snapping, now that you know the inside story of digital imaging.
Author Bio: One of the top digital imaging companies providing modalities specifically designed for preclinical research such as in vivo imaging, in vivo testing, micro imaging, high-resolution imaging, scientific digital imaging, digital imaging system.
Category: Computers and Technology
Keywords: in vivo imaging, in vivo testing micro imaging, high-resolution imaging, scientific digital imaging,