Non-interlaced, more commonly known as progressive or progressive scan, is better. This is because every line is drawn on the screen in a progressive manner which results in clearer, crisper, and sharper pictures than interlaced ones.
That's all down to how you shoot. Non-interlaced footage is referred to as 'progressive', ie you're seeing complete frames of information displayed consecutively, one after the other, 25/30 times per second. With interlaced, each frame is broken down into two fields, which are mixed together (interlock your fingers -the fields are arranged like this), and instead of the whole frame changing 25/30 times per second, the fields will take turns to switch, and each field will change once per second. So, effectively, there are 50/60 image changes per second, as it takes 1/25th or 1/30th of a second for both fields to swap out with new images. High end cameras these days can generally shoot either of these frame rates. If you wanted an end product that looked progressive, shoot progressive. It's not ideal to shoot interlaced if you're planning on converting to Progressive (known as de-interlacing), as technically, in order to do this, you'll have to remove one of the fields per frame (I'm not quite sure how the conversion works), meaning that essentially you're losing half of the information. This lowers quality etc. That's what they say, anyway. If you ask me, interlaced is not suitable for drama. Even documentary looks cheap when shot interlaced. But that's just me. If your camera shoots progressive, and that's either 24p, 25p, 30p, 720p or 1080p, your image will contain as much information as an interlaced one. Then it's all up to your camera, and its lens...
A non interlaced monitor is one where all the scan lines occur sequentially, whereas an interlaced monitor is one where all the odd scan lines occur, followed by all of the even scan lines, in alternating painting of the phospher.
A(n) noninterlaced monitor (also called a progressive monitor) draws the entire screen in one pass.
Interlaced, not interface. Interlaced scans every second line. Progressive does not.
To Ensure Interlaced Scanning
There are methods of deinterlacing to solve problems with video interlace. Deinterlacing is the process of converting interlaced video such as common analog television signals into a non-interlaced form.
# Interlaced versus non-interlaced. Which is better...Simply put, non-interlaced monitors (or rather, non-interlaced video modes) are considered superior because they tend to produce less flicker.# Why do interlaced monitors tend to produce more flicker...The reason is non-interlaced monitors/video modes use only one pass or "sweep" of the electron gun, whereas interlaced monitors/modes use two passes or "sweeps" to display the same image. With interlaced monitors/modes, one set of lines is made on the first sweep then, a split second later, a second sweep creates more lines to fill in areas left open after the first sweep. More accurate results can be had when one sweep, rather than two sweeps, produces the image. Non-interlaced monitors are capable of interlacing, but the display results are better with non-interlacing; thus, there is no sense or desirability to use interlaced modes on non-interlaced monitors.
I do believe that it will work if your buy a converter. That is if they make a converter from interlaced to progressive scan.
Assuming you are asking what does the "p" stand for in Plasma and other digital televisions in the resolution such as 1080p vs. 1080i. The 'p' stands for "progessive scan" and the 'i' stands for "Interlaced". In a progressive scan each line is displayed sequentially from top to bottom. An interlaced scan displays every othe line in one pass then the other lines in a second pass.
There are three types of HD formats-720p, 1080i, and 1080p. Progressive and Interlaced Scanning are also available for an HDTV to use.
An odd number of lines are used in interlaced scanning because, in each field of the TV, the scanning displaces the field by a half of the area. If there were an even number of lines, it would flicker noticably.
yup it can decode 1080p all the way threw 480i (1080i included)
Yes, providing you use an HDMI cable to connect your blu-ray player to your TV. The i (versus p) indicates interlaced (versus progressive). Your TV will de-interlace the frames.