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HD pictures has 1920x1080 = 2073600 pixels = 2025 kilopixel = 1.98 megapixel.

Does this mean that we can take HD pictures with a 2 MP camera? If not, why not?

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Not to be pedantic, but I think the accepted definition of megapixel is 1 million pixels, not 1,048,576. So HD would have 2.07 MP – MikeW Apr 3 '13 at 20:45
I think that in general due to rounding, it doesn't really matter if "megapixels" is binary or decimal. Megapixel is a useful term because it happens to be in the range where we get human-useful small numbers with the digital cameras (so far). It's rarely used to mean a precise value — one 16-megapixel camera will likely generate photos with a slightly different size than one from another brand. For the same basic reason, "kilopixel" isn't a real word, because there's no particular case where it would be useful. – mattdm Apr 3 '13 at 20:58
Basically yes. In practice most people don't use the term HD with photography, unless they are using it for marketing purposes as companies seem eager to slap the term HD on everything today. If you are displaying images on a 1080p TV, yes 2MP will look great. – dpollitt Apr 3 '13 at 21:31
In my opinion, a high resolution is almost always good because you can crop out unnecessary parts that you don't need and extract the good parts of the photo. If you have to economise on the resolution, then it is harder to liberally take photos. – mtahmed Apr 4 '13 at 20:56

If the resolution long axis is at least 1920 and the short edge at least 1080 then yes, you can take HD images without having to upscale.

However, due to benefits of oversampling, you will make a better HD image by grabbing a 16MP image and then resize with the best available resize method, e.g. lanczos interpolation if available.

Another problem you may encounter is that a 2MP camera have not been designed with high quality imaging in mind (*unless you are talking something like a Canon EOS D2000 from 1998 which has the wrong aspect ratio , anyway), so they saved costs on not only the sensor but the rest of the imaging system as well - low end optics, ADC, processing, etc. yielding a lower total system resolution and IQ.

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I would be willing to bet 90% of the photographing population who might benefit from this question won't know what "lanczos interpolation" is. ;P I would use the phrase "some basic downscaling in Photoshop", which is more than good enough to average pixels, reduce noise, and improve the sharpness of a 1920x1080 output image. – jrista Apr 4 '13 at 3:03
Remember my oversampling image tests in another question where I showed that fine texture would persist in the downscaled version, while shooting directly to that resolution didnt capture the texture? I noted that the end result relied on using the best available resize method. I guess I can write that :) – Michael Nielsen Apr 4 '13 at 13:34
@jrista I don't know what the situation is in the US, but here in Europe Lanczos and other kernel based filters are part of the preschool curriculum ;) – Matt Grum Apr 13 '15 at 15:16
@jrista Why not provide more information? I don't know what it is, but because Michael mentioned it, I'm able to do research on interpolation methods to find out more. – Myridium Apr 13 '15 at 16:38

No, because of the Bayer filter. You would actually need around 11 megapixels.

What a Bayer filter is

Colour camera sensors use Bayer filters to capture the various colours. The Bayer filter effectively halves the resolution of the sensor for each colour (though green is left with slightly more in a checker-board pattern).

Each pixel on the sensor can only capture either red, green or blue light, but not all three colours. A software algorithm needs to interpolate the data later to re-construct the full resolution photograph in full colour.


This interpolation process (called demosaicing) will visually restore a lot of the effective lost resolution, making it look pretty sharp again, but it can only do so by taking fairly intelligent guesses. It's not the same as if you had been able to capture the image at full resolution in the first place.

For example, while demosaicing is fairly good at claiming back lost sharpness from the Bayer filter, any fine detail such as hair, comb-like patterns or fine stripes are likely to suffer from aliasing, which can show up as colourful interference patterns:


(These images show very poor demosaicing algorithms for the sake of illustration. Modern cameras - even cellphones - use much smarter ones.)

Modern demosaicing algorithms are pretty smart and can minimise the effect of aliasing, but it still cannot retain the fine detail. A distant picket fence shot on a 1920x1080 colour sensor will retain less effective resolution than an RGB 1920x1080 image that is computer-generated or scaled down from a larger sensor or scanned on a scanner.

How this affects the resolution

(and how I came up with the "11 megapixels" figure)

The effective resolution of the resulting image after demosaicing doesn't look like it is half the resolution claimed by the sensor, because of the gains made by smart demosaicing routines, and the fact that the green channel, which correlates well with luminance, has more resolution than the other colours.

But it still would need to be shrunk by 50% to remove any loss due to interpolation. If you really wanted to ensure that your picture was "full resolution", without any loss of detail due to interpolation, you would need to have a colour sensor with double the resolution you want, in both the horizontal and vertical direction, and then resample the resulting image to 50%.

In order to capture full effective resolution of 1920x1080, a colour camera sensor (with a Bayer filter, which includes 99% of colour camera sensors) would need to have a resolution of double that: 3840x2160. That's over 8.2 megapixels. Due to cropping on the sensor (again due to the camera's demosaicing method) you'd effectively need around 8.8 megapixels to be sure.

And that's if your sensor had a perfect 16:9 aspect ratio. If your sensor has a 3:2 aspect ratio, you'd need around 10.7 megapixels to capture a 3840x2160 image, including discarded areas on the top and bottom to make up for the aspect ratio, and a small border to account for any demosaicing crop.

Sensors without Bayer filters

While 99% of colour camera sensors use Bayer filters, there are some that use an alternative pixel layout, but the principle is the same.

There are also some colour sensors that don't need a colour filter at all, such as the Fovean X3 sensor, but these are still exceptionally rare and have their own issues. Manufacturers also tend to lie about their pixel count (in order to be competitive with sensors using a Bayer filter, where the pixel count always sounds a lot more impressive than it really is due to the above described filter).

Another alternative that is employed by some expensive professional video cameras is to have three entirely separate sensors, one for each of red, green and blue, and use a light splitter to throw the same image on all three of them. Obviously this cannot exist in a DSLR or compact camera or any normal type of consumer stills camera. But it can explain why pixel counts on the sensors of professional video cameras can't be compared to those on DSLRs.

But video uses chroma-subsampling anyway!

(For technical minds only)

Even though video (and sometimes JPEG) uses chroma sub-sampling, it still needs the luminance channel to retain full resolution. In an image from a Bayer sensor, the luminance channel still needs to be calculated using a process of interpolation, even though with a good demosaicing algorithm, it can appear to approach full resolution due to the high correlation between luminance and the green channel in most content.

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Your 11 megapixel math assumes that Bayer demosaicing has no value. Reasonable people can disagree where the exact number is, but it's surely something a little less dramatic. – mattdm Apr 4 '13 at 1:42
How can taking a 3840X1216 frame that has been already been interpolated before downsizing be any more accurate than a 1920X1080 frame that has been interpolated from a 1920X1080 Bayer array? It seems to me we would need to keep the RGB channels from the larger image un-interpolated. It would need to be 2X as wide and high to allow for one R, one B and 2 G pixels to be combined, rather than interpolated, into each pixel of a 1920X1080 frame. – Michael Clark Apr 4 '13 at 2:09
@mattdm the 2x figure is simply based on the minimum required downsampling to totally eliminate any effect of interpolation. You are correct that the Bayer filter does not completely halve the effective resolution of the resulting image - it preserves more detail than that. But to fully eliminate it from having any interpolation effect requires to halve the resolution. – thomasrutter Apr 4 '13 at 2:17
It's late and I'm a little on the tired side, but doesn't your math assume that the 4x4 bayer array is a discrete pixel without overlap? – John Cavan Apr 4 '13 at 2:29
Yep, I said it was late... :) 2x2 is what I meant. However, if I recall, the algorithm for sensor demosaicing overlaps such that a 4x4 array would actually give you 9 pixels worth of data. I could be very wrong though. – John Cavan Apr 4 '13 at 3:09

You are right that a 1080p HD image has just under 2 megapixels.

Now where you have to be careful is in considering the aspect ratio of your camera. If it shoots natively 16:9 images and it has 2 MP, then you would have enough resolution. If the camera has a 4:3 sensor which is the most common for small cameras, a 2 MP camera would most likely capture a 1680x1260 image. This unfortunately does not give you enough horizontal resolution.

On the other hand a 3 MP camera with a 4:3 sensor produces 2048x1536 images usually which is enough for your to downscale and crop to a 1080p image.

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There are three common high-definition video modes: Video Mode: Frame size (WxH): Pixels in image (resolution) Scanning Type

  1. 720p 1,280x720 921,600 (almost 1MP) Progressive
  2. 1080i 1,920x1,080 2,073,600 (>2MP) Interlaced
  3. 1080p 1,920x1,080 2,073,600 (>2MP) Progressive

it depends on what usage are you planning. if you want to project your video on a large screen (e.g. projector), then use a higher video mode of at least 1080p which of course requires a higher resolution (means more mega pixels) for smooth projection of the image. Take note also of when using a higher resolution mean a more space consumption on a memory card and would require a higher specs of your PC for the video editing. But if you're planning for a small screen projection, (Laptop, PC) a 720p would do.

Special Note on Scanning Type Progressive - is a way of displaying, storing, or transmitting moving images in which all the lines of each frame are drawn in sequence. The main advantage with progressive scan is that motion appears smoother and more realistic.

Interlaced - commonly used in analog aged of tv and crt, is a technique of doubling the perceived frame rate introduced with the signal without consuming extra bandwidth. The main problem of it is the interline twitter. For instance, a person on television wearing a shirt with fine dark and light stripes may appear on a video monitor as if the stripes on the shirt are "twittering". This aliasing effect shows up when the subject contains vertical detail that approaches the horizontal resolution of the video format.

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