KnapsackByDP

ClassS04CS141 | recent changes | Preferences

Knapsack

The Knapsack problem is defined as follows:

You are given, for a collection of n items {1,2,...,n}, the cost cost[i] and value value[i] for each item i. Each cost and value is a non-negative integer.

You are also given a budget B (a non-negative integer).

The goal is to find the maximum value of any subset of the items having total cost at most B.

Formally, given a subset S of the items, define cost(S) = i∈ S cost[i] and define value(S) = i∈ S value[i]. The goal is to compute

max { value(S) : S ⊆ {1,2,...,n} and cost(S) ≤ B}.

Define V[i,b] = max { value(S) : S ⊆ {1,2,...,i} and cost(S) = b}. In words, V[i,b] is the maximum value of any subset having total cost exactly b and using only items in {1,2,...,i}.

Claim:

V[0,0] = 0
V[0,b] = -∞ for b ≠ 0
V[i,b] = max { V[i-1,b], V[i-1, b-cost[i]] + value[i] } for (i > 0)

Naive recursive algorithm takes exponential time (something like 2i).

Modifying the algorithm to cache answers gives an O(n*B)-time algorithm.


References


ClassS04CS141 | recent changes | Preferences
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Last edited May 4, 2004 10:08 pm by Neal (diff)
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