When you say "arranged in a circle", you mean like in a circular linked list or something? From the way you describe the data set, it sounds like these integers are completely unordered, and there's no way to look at N integers and come to any kind of conclusion about any of the others. If that's the case, then the brute-force solution is the only possible one.
Well, if you're not concerned with worst-case time, there are slightly more efficient ways to do it. The naive approach would be to look at Ni, Ni-1, and Ni+1 to see if Ni is a peak, then repeat, but you can do a little better.
While not done
If N[i] < N[i+1]
(Well, not quite that, because you have to deal with the case where N[i]=N[i+1]. But something very similar.)
That will at least keep you from comparing Ni to Ni+1, adding 1 to i, and then redundantly comparing Ni to Ni-1. It's a distinctly marginal gain, though. You're still marching through the numbers, but there's no way around that; jumping blindly is unhelpful, and there's no way to look ahead without taking just as long as doing the actual work would be.