This is only an idea of an algorithm but I believe it should be possible to make it work.
The main trick is as follows. If you look at any four elements and they are all different, you may throw all four away. (If any of the thrown elements had more than 1/4 frequency in the old array, it will in the new array; if none had, none will).
So you go over an array, throwing away tuples of four, and rearranging the rest. For instance, if you have AABC and then DDEF, you rearrange to AADDBCEF and throw BCEF away. I will let you work out the details, it's not hard. In the end you should be left with pairs of identical elements. Then you throw odd-numbered elements away and repeat.
After each run you may be left with 1, 2 or 3 elements with no pair that you cannot throw away. No worry, you can combine the leftovers of two runs such that there are never more than 3 elements in the leftover pile. E.g. if after run 1 you have A,B,C and after run 2 you have A,D,E you leave just A. Remember that elements from the second run count twice, so in effect you have 3"A, which is more than 1/4 of the total of 9. Keep count of each leftover element to track which of them can be thrown away. (You might be able to just always keep the last leftovers, I have not checked that).
In the end you will have just the leftovers. Check each one against the original array.