我知道如何使用Master方法解决递归关系。 另外我知道如何解决下面的重现:
T(n)= sqrt(n)* T(sqrt(n))+ n
T(n)= 2 * T(sqrt(n))+ lg(n)
在上述两次重复中,递归树的每个级别都有相同的工作量。并且递归树中总共有log log n级别。
我在解决这个方面遇到了麻烦: T(n)= 4 * T(sqrt(n))+ n
修改 这里n是2的幂。
答案 0 :(得分:5)
假设n = 2 ^ k。我们有T(2 ^ k)= 4 * T(2 ^(k / 2))+ 2 ^ k。设S(k)= T(2 ^ k)。我们有S(k)= 4S(k / 2)+ 2 ^ k。通过使用Mater定理,我们得到S(k)= O(2 ^ k)。由于S(k)= O(2 ^ k)且S(k)= T(2 ^ k),因此T(2 ^ k)= O(2 ^ k),这意味着T(n)= O(n)。
答案 1 :(得分:0)
T(n) = 4 T(sqrt(n)) + n
4 [ 4 T(sqrt(sqrt(n) + n ] + n
4^k * T(n^(1/2^k)) +kn because n is power of 2.
4^k * T(2^(L/2^k)) +kn [ Let n = 2^L , L= logn]
4^k * T(2) +kn [ Let L = 2^k, k = logL = log log n]
2^2k * c +kn
L^2 * c + nloglogn
logn^2 * c + nloglogn
= O(nloglogn)
答案 2 :(得分:0)
T(n) = 4T(√n) + n
suppose that (n = 2^m) . so we have :
T(2^m) = 4T(2^(m/2)) + (2^m)
now let name T(2^m) as S(m):
S(m) = 4S(m/2) + m . now with master Method we can solve this relation, and the answer is :
S(m) = Θ(m^2)
now we step back to T(2^m):
T(2^m) = Θ((2^m)^2)
now we need m to solve our problem and we can get it from the second line and we have :
n = 2^m => m=lgn
and the problem solved .
T(n) = Θ((2^lgn)^2)
T(n) = Θ(n^2)