tag:blogger.com,1999:blog-19092890.post2201778860392802469..comments2024-03-28T17:41:43.970+02:00Comments on Image Sensors World: Basler Improves on Demosaicing AlgorithmsVladimir Koifmanhttp://www.blogger.com/profile/01800020176563544699noreply@blogger.comBlogger3125tag:blogger.com,1999:blog-19092890.post-57154658856011090002016-03-23T19:30:34.629+02:002016-03-23T19:30:34.629+02:00Great work Jorg!
Is there any quantified improveme...Great work Jorg!<br />Is there any quantified improvement, e.g. in MTF50?Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-19092890.post-21607136939301906872016-03-23T17:25:56.787+02:002016-03-23T17:25:56.787+02:00Hi Dave,
I completely understand your point of v...Hi Dave, <br /><br />I completely understand your point of view. <br /><br />As I explained in my London talk, my point of view is in this case different. I want a very good visible image quality for a human at a very low computation effort. So I never intended to push red/blue and red/green to their respective resolution limit, because a human eye cannot resolve it either. A human eye resolves bright and dark structures with high resolution. So I deliver the maximum possible B/W high frequency reconstruction inside a low-noise color image and this is what I show.<br />Jörg Kunzehttp://www.baslerweb.comnoreply@blogger.comtag:blogger.com,1999:blog-19092890.post-18367232652332248442016-03-23T00:34:39.745+02:002016-03-23T00:34:39.745+02:00To adequately show the relative benefits of Bayer ...To adequately show the relative benefits of Bayer demosaicing algorithms, it is necessary to show color bars, not monochrome. What do the alternating red/blue and red/green bars look like near the resolution limit?Dave Gilblomhttp://www.avcemporium.comnoreply@blogger.com