Finance:Piecewise-constant valuation

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Short description: Piece-wise division of objects

A piecewise-constant valuation is a kind of a function that represents the utility of an agent over a continuous resource, such as land. It occurs when the resource can be partitioned into a finite number of regions, and in each region, the value-density of the agent is constant. A piecewise-uniform valuation is a piecewise-constant valuation in which the constant is the same in all regions.

Piecewise-constant and piecewise-uniform valuations are particularly useful in algorithms for fair cake-cutting.[1][2][3][4]

Formal definition

There is a resource represented by a set C. There is a valuation over the resource, defined as a continuous measure [math]\displaystyle{ V: 2^C\to \mathbb{R} }[/math]. The measure V can be represented by a value-density function [math]\displaystyle{ v: C\to \mathbb{R} }[/math]. The value-density function assigns, to each point of the resource, a real value. The measure V of each subset X of C is the integral of v over X.

A valuation V is called piecewise-constant, if the corresponding value-density function v is a piecewise-constant function. In other words: there is a partition of the resource C into finitely many regions, C1,...,Ck, such that for each j in 1,...,k, the function v inside Cj equals some constant Uj.

A valuation V is called piecewise-uniform if the constant is the same for all regions, that is, for each j in 1,...,k, the function v inside Cj equals some constant U.

Generalization

A piecewise-linear valuation is a generalization of piecewise-constant valuation in which the value-density in each region j is a linear function, ajx+bj (piecewise-constant corresponds to the special case in which aj=0 for all j).

References

  1. Aziz, Haris; Ye, Chun (2014). "Cake Cutting Algorithms for Piecewise Constant and Piecewise Uniform Valuations". in Liu, Tie-Yan; Qi, Qi; Ye, Yinyu (in en). Web and Internet Economics. Lecture Notes in Computer Science. 8877. Cham: Springer International Publishing. pp. 1–14. doi:10.1007/978-3-319-13129-0_1. ISBN 978-3-319-13129-0. 
  2. Cohler, Yuga J.; Lai, John K.; Parkes, David C.; Procaccia, Ariel D. (2011-08-04). "Optimal Envy-Free Cake Cutting" (in en). Twenty-Fifth AAAI Conference on Artificial Intelligence 25: 626–631. doi:10.1609/aaai.v25i1.7874. https://www.aaai.org/ocs/index.php/AAAI/AAAI11/paper/view/3638. 
  3. Brams, Steven; Feldman, Michal; Lai, John; Morgenstern, Jamie; Procaccia, Ariel (2012). "On Maxsum Fair Cake Divisions" (in en). Proceedings of the AAAI Conference on Artificial Intelligence 26 (1): 1285–1291. doi:10.1609/aaai.v26i1.8237. ISSN 2374-3468. https://ojs.aaai.org/index.php/AAAI/article/view/8237. 
  4. Menon, Vijay; Larson, Kate (2017-05-17). "Deterministic, Strategyproof, and Fair Cake Cutting". arXiv:1705.06306 [cs.GT].



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