Archived posting to the Leica Users Group, 2001/07/26
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]> > The problem is "virtually any alignment". > > Not really. Only a handful of very precise alignments will > produce artifacts, > and those alignments are extremely improbable in practice. You just agreed that I am correct. If even one case fails, your premise is wrong. Like I said, you obviously haven't really done any real design work. > > Of course I disagree, because your claim is > > wrong. It would be a range, equal to 53 lp/mm > > down to 1/2 that. > > I didn't ask for a range, I asked for a specific figure. If you > are going to > give a range, then I expect to see the MTF curves themselves. The information I gave was stated correctly. > > This is really really simple to understand. > > Perhaps, but since there is so much more to resolution, image capture, and > visual perception, it may also be simplistic in consequence. > > > 1/2 that and I've explained why. > > No. You've mentioned it, but you haven't explained why. Go back and read the thread. It is clearly explained, that is, unless you just want to play games, which you are doing. > > You haven't explained why, nor have you > > explained why my correction to your mistaken > > assertion is not correct. > > In my previous post, I explained a great deal about why 53 lp/mm, > apart from > being quite achievable in the scanner, is also more than adequate > for virtually > all purposes. I looked back, and find no such "explanation", I only find figures and incorrect assumptions stated. Please provide a correct explanation that is not just faulty and repeated assumptions. > > Yeah...and isn't 44.1kHz slightly more than > > 22kHz? > > Yes ... but you said 20 kHz. So? Can't 20kHz be sampled by a 44.1kHz sampling rate? This is clearly a diversion on your part to avoid answering the question that obviously shows that your claims are wrong. > > Reliable is hardly amorphous. > > Well, provide some figures that define it, then. Go look it up in a dictionary for your self. Again, you're just playing games. > > I have given you a very clear definition of it. > > No. A clear definition is something like "50% modulation > transfer at 40 lp/mm." > Something with numbers, that is. Oh, well, you said "No", so I must be wrong! If your claim fails in ONE case, it is a faulty claim. Your claim DOES fail in at least one case, so it IS a faulty claim. Reliably means does not fail in ANY case. > > As I stated, it is a standard term in signal > > processing, and if you have any experience in > > signal processing, as you claim you do, you would > > understand what "reliable" means, and that it > > is a VERY specific term. > > I'll understand it when you put numbers behind it, as I have been > doing for my > assertions all along. You apparently can't or don't want to understand anything, so no matter what I "put", you'll just play games. > > You made the original claim, and you still fail > > to substantiate it. > > I gave the numbers and sources in my previous post. The numbers don't substantiate squat. Just claiming 2700PPI is sufficient to sample 53 lp/mm in EVERY case is not substantiation, it is a claim, and a faulty one at that.