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词条 Subadditivity
释义

  1. Definitions

  2. Properties

     Sequences  Functions 

  3. Examples in various domains

     Economics  Thermodynamics  Combinatorics on words 

  4. See also

  5. Notes

  6. References

  7. External links

In mathematics, subadditivity is a property of a function that states, roughly, that evaluating the function for the sum of two elements of the domain always returns something less than or equal to the sum of the function's values at each element. There are numerous examples of subadditive functions in various areas of mathematics, particularly norms and square roots. Additive maps are special cases of subadditive functions.

Definitions

A subadditive function is a function , having a domain A and an ordered codomain B that are both closed under addition, with the following property:

An example is the square root function, having the non-negative real numbers as domain and codomain,

since we have:

A sequence , is called subadditive if it satisfies the inequality

for all m and n. This is a special case of subadditive function, if a sequence is interpreted as a function on the set of natural numbers.

Properties

Sequences

A useful result pertaining to subadditive sequences is the following lemma due to Michael Fekete.[1]

Fekete's Subadditive Lemma: For every subadditive sequence , the limit exists and is equal to . (The limit may be .)

The analogue of Fekete's lemma holds for superadditive sequences as well, that is:

(The limit then may be positive infinity: consider the sequence .)

There are extensions of Fekete's lemma that do not require the inequality (1) to hold for all m and n, but only for m and n such that Moreover, the condition may be weakened as follows: provided that is an increasing function such that the integral converges (near the infinity).[2]

There are also results that allow one to deduce the rate of convergence to the limit whose existence is stated in Fekete's lemma if some kind of both superadditivity and subadditivity is present.[3][4]

Besides, analogues of Fekete's lemma have been proved for subadditive real maps (with additional assumptions) from finite subsets of an amenable group [5]

[6]

,[7]

and further, of a cancellative left-amenable semigroup.[8]

Functions

Theorem:[9] For every measurable subadditive function the limit exists and is equal to (The limit may be )

If f is a subadditive function, and if 0 is in its domain, then f(0) ≥ 0. To see this, take the inequality at the top. . Hence

A concave function with is also subadditive.

To see this, one first observes that .

Then looking at the sum of this bound for and , will finally verify that f is subadditive.[10]

The negative of a subadditive function is superadditive.

Examples in various domains

Economics

Subadditivity is an essential property of some particular cost functions. It is, generally, a necessary and sufficient condition for the verification of a natural monopoly. It implies that production from only one firm is socially less expensive (in terms of average costs) than production of a fraction of the original quantity by an equal number of firms.

Economies of scale are represented by subadditive average cost functions.

Except in the case of complementary goods, the price of goods (as a function of quantity) must be subadditive. Otherwise, if the sum of the cost of two items is cheaper than the cost of the bundle of two of them together, then nobody would ever buy the bundle, effectively causing the price of the bundle to "become" the sum of the prices of the two separate items. Thus proving that it is not a sufficient condition for a natural monopoly; since the unit of exchange may not be the actual cost of an item. This situation is familiar to everyone in the political arena where some minority asserts that the loss of some particular freedom at some particular level of government means that many governments are better; whereas the majority assert that there is some other correct unit of cost.{{citation needed|date=October 2015}}

Thermodynamics

Subadditivity occurs in the thermodynamic properties of non-ideal solutions and mixtures like the excess molar volume and heat of mixing or excess enthalpy.

Combinatorics on words

A factorial language L is one where if a word is in L, then all factors of that word are also in L. In combinatorics on words, a common problem is to determine the number A(n) of length-n words in a factorial language. Clearly

A(m+n) ≤ A(m)A(n), so log A(n) is subadditive, and hence Fekete's lemma can be used to estimate the growth of A(n).

[11]

See also

  • Triangle inequality
  • Superadditivity
  • Choquet integral

Notes

1. ^{{cite journal |last=Fekete |first=M. |title=Über die Verteilung der Wurzeln bei gewissen algebraischen Gleichungen mit ganzzahligen Koeffizienten |journal=Mathematische Zeitschrift |volume=17 |issue=1 |year=1923 |pages=228–249 |doi=10.1007/BF01504345 }}
2. ^{{cite journal |last1=de Bruijn |first1=N.G. |last2=Erdös |first2=P. |title=Some linear and some quadratic recursion formulas. II |journal=Nederl. Akad. Wetensch. Proc. Ser. A |volume=55 |year=1952 |pages=152–163|doi=10.1016/S1385-7258(52)50021-0 }} (The same as Indagationes Math. 14.) See also Steele 1997, Theorem 1.9.2.
3. ^Michael J. Steele. "Probability theory and combinatorial optimization". SIAM, Philadelphia (1997). {{isbn|0-89871-380-3}}.
4. ^{{cite video|author=Michael J. Steele|title=CBMS Lectures on Probability Theory and Combinatorial Optimization|publisher=University of Cambridge|year=2011|url=http://sms.cam.ac.uk/collection/1189351}}
5. ^{{Cite journal| doi = 10.1007/BF02810577| issn = 0021-2172| volume = 115| issue = 1| pages = 1–24| last1 = Lindenstrauss| first1 = Elon| last2 = Weiss| first2 = Benjamin| title = Mean topological dimension| journal = Israel Journal of Mathematics| year = 2000| citeseerx = 10.1.1.30.3552}} Theorem 6.1
6. ^{{Cite journal| doi = 10.1007/BF02790325| issn = 0021-7670| volume = 48| issue = 1| pages = 1–141| last1 = Ornstein| first1 = Donald S.| last2 = Weiss| first2 = Benjamin| title = Entropy and isomorphism theorems for actions of amenable groups| journal = Journal d'Analyse Mathématique| year = 1987}}
7. ^{{Cite journal| doi = 10.1023/A:1009841100168| issn = 1385-0172| volume = 2| issue = 4| pages = 323–415| last = Gromov| first = Misha| title = Topological Invariants of Dynamical Systems and Spaces of Holomorphic Maps: I| journal = Mathematical Physics, Analysis and Geometry| year = 1999}}
8. ^{{Cite journal | arxiv = 1209.6179| last1 = Ceccherini-Silberstein| first1 = Tullio| title = An analogue of Fekete's lemma for subadditive functions on cancellative amenable semigroups| journal = J. Anal. Math.| volume = 124| pages = 59–81| last2 = Krieger| first2 = Fabrice| last3 = Coornaert| first3 = Michel| year = 2014| doi = 10.1007/s11854-014-0027-4}} Theorem 1.1
9. ^Hille 1948, Theorem 6.6.1. (Measurability is stipulated in Sect. 6.2 "Preliminaries".)
10. ^{{cite book | last = Schechter | first=Eric | authorlink=Eric Schechter| title=Handbook of Analysis and its Foundations | publisher=Academic Press | location = San Diego | year=1997 | isbn=978-0-12-622760-4}}, p.314,12.25
11. ^{{cite journal|last=Shur|first=Arseny|title=Growth properties of power-free languages|journal=Computer Science Review|date=2012|volume=6|issue=5–6|pages=187–208|doi=10.1016/j.cosrev.2012.09.001}}

References

  • György Pólya and Gábor Szegő. "Problems and theorems in analysis, volume 1". Springer-Verlag, New York (1976). {{isbn|0-387-05672-6}}.
  • Einar Hille. "[https://archive.org/details/functionalanalys017173mbp Functional analysis and semi-groups]". American Mathematical Society, New York (1948).
  • N.H. Bingham, A.J. Ostaszewski. "Generic subadditive functions." Proceedings of American Mathematical Society, vol. 136, no. 12 (2008), pp. 4257–4266.

External links

{{PlanetMath attribution|id=4615|title=subadditivity}}

2 : Mathematical analysis|Sequences and series

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