Line 22: Line 22:
 
and  Voila! hi-res image. Impossible right?
 
and  Voila! hi-res image. Impossible right?
  
After 6 hours of coding, and processing the image of my dog "Milo", countless times, I am proud to say, that it is  
+
After 6 hours of coding, and processing the image of my dog "Milo"(shown below), countless times, I am proud to say, that it is  
 
"Almost Possible in the Real World"
 
"Almost Possible in the Real World"
 
[[Image:Example1.jpg]]
 
[[Image:Example1.jpg]]
 
----
 
----
 +
  
 
==Page Map==
 
==Page Map==
 
----
 
----
 
This page contains
 
This page contains
**A mathematical basis for discrete time interpolation
+
 
 +
** A mathematical basis for discrete time interpolation
 +
** Application to a simple 1-D signal
 +
** Application to an actual real-world image
 +
 
 +
 
 +
----

Revision as of 22:25, 22 September 2009

Discrete Time Interpolation


Mathematically, sure. Realistically? Let's find out.


== Introduction ==


My fascination with the concept of discrete time interpolation began, when I asked Prof. Boutin if a discrete time interpolator, can ideally make a low-resolution image, a high resolution one.

The answer was, yes. Ideally, it can.

The equations that led to the concept seemed impeccable and mathematically, it seemed to make perfect sense.

But essentially, all we are doing is:

  • adding zeros in between samples (the result of which looks horrible by the way)
  • Low pass filtering,

and Voila! hi-res image. Impossible right?

After 6 hours of coding, and processing the image of my dog "Milo"(shown below), countless times, I am proud to say, that it is "Almost Possible in the Real World" Example1.jpg



Page Map


This page contains

    • A mathematical basis for discrete time interpolation
    • Application to a simple 1-D signal
    • Application to an actual real-world image



Alumni Liaison

Followed her dream after having raised her family.

Ruth Enoch, PhD Mathematics