Given lots of intervals [ai, bi], find the interval that intersects the most number of intervals. Can we do this in O(nlogn) or better? I can think only of a n^2 approach.
giving lots of intervals [ai, bi], find a interval which intersect with the most number of intervals

Suppose the intervals are given as
Mark each point as an This is 


According to PengOne's answer, I do a simple implementation, using two n sort array instead of 2n array.
Code



An alternative approach to interval trees that may be suitable if the ai,bi are small integers (e.g. perhaps they are 16bit numbers) is to:
The value of x at iteration j gives the number of intervals that intersect the point j, so finding the largest value gives the point which intersects the most intervals. This takes O(N+n) cycles so is only useful if n>N for your application. (Strictly speaking, this does not answer the question as this finds the point that intersects most. However, you should be able to extend this approach to find the interval that intersects most.) 


Use interval trees: http://en.wikipedia.org/wiki/Interval_tree . If you use centered interval tree, complexity is O(nlogn + m) where m is the total number of intersections (worst case m=n^2). 


You can do it in n. [ smallest ai, largest bi ] So..

