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Totally Greedy Coin Sets and Greedy Obstructions

A coin set is a strictly increasing list of positive integers that always begins with 1. A coin set is called greedy when the simple greedy change-making algorithm always produces the fewest number of coins in change. Here, the greedy change-making algorithm repeatedly selects the largest denomination coin less than the remaining amount until it has assembled the correct change. Pearson has provided an efficient algorithm for determining whether a coin set is greedy. We study a stricter property on coin sets, called total greediness, which requires that all initial subsequences of the coin set also be greedy, and a simple property makes it easy to test if a coin set is totally greedy. We begin to explore the theory of greedy obstructions– those coin sets that cannot be extended to greedy coin sets by the addition of coins in larger denominations.

The Electronic Journal of Combinatorics

L. J. Cowen Robert Cowen Arthur Steinberg

The Electronic Journal of Combinatorics

2020

Title: Totally Greedy Coin Sets and Greedy Obstructions

Description:

A coin set is a strictly increasing list of positive integers that always begins with 1.

A coin set is called greedy when the simple greedy change-making algorithm always produces the fewest number of coins in change.

Here, the greedy change-making algorithm repeatedly selects the largest denomination coin less than the remaining amount until it has assembled the correct change.

Pearson has provided an efficient algorithm for determining whether a coin set is greedy.

We study a stricter property on coin sets, called total greediness, which requires that all initial subsequences of the coin set also be greedy, and a simple property makes it easy to test if a coin set is totally greedy.

We begin to explore the theory of greedy obstructions– those coin sets that cannot be extended to greedy coin sets by the addition of coins in larger denominations.

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Totally Greedy Coin Sets and Greedy Obstructions

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