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翻訳と辞書　辞書検索 [ 開発暫定版 ] スポンサード リンク Littlewood's rule ： ウィキペディア英語版 Littlewood's rule The earliest Revenue Management model is known as ''Littlewood’s rule'', developed by Ken Littlewood while working at British Overseas Airways Corporation. ==The two class model== Littlewood proposed the first static single resource quantity based RM model.〔Pak, K. and N. Piersma (2002). Airline Revenue Management: An overview of OR Techniques 1982-2001. Rotterdam, Erasmus university〕 It was a solution method for the seat inventory problem for a single leg flight with two fare classes. Those two fare classes have a fare of $R\_$ and $R\_$, whereby $R\_>\; R\_$. The total capacity is $C$ and demand for class $j$ is indicated with $D\_$. The demand is distributed via a distribution that is indicated with $F\_(\; )$. The demand for class 2 comes before demand for class 1. The question now is how much demand for class 2 should be accepted so that the optimal mix of passengers is achieved and the highest revenue is obtained. Littlewood suggests closing down class 2 when the certain revenue from selling another low fare seat is exceeded by the expected revenue of selling the same seat at the higher fare.〔Littlewood, K. (1972). "Forecasting and Control of Passenger Bookins." AGIFORS Symposium Proc. 12 http://www.palgrave-journals.com/rpm/journal/v4/n2/pdf/5170134a.pdf〕 In formula form this means: accept demand for class 2 as long as: :$R\_\backslash ge\; R\_$ * \text( D_>x ) where :$R\_$ is the value of the lower valued segment :$R\_$ is the value of the higher valued segment :$D\_$ is the demand for the higher valued segment and :$x$ is the capacity left This suggests that there is an optimal protection limit $y\_^$. If the capacity left is less than this limit demand for class 2 is rejected. If a continuous distribution $F\_(x)$ is used to model the demand, then $y\_^\backslash star$ can be calculated using what is called ''Littlewood’s rule'': } This gives the optimal protection limit, in terms of the division of the marginal revenue of both classes. Alternatively bid prices can be calculated via :$\backslash pi(x)\; =\; R\_$ * \text( D_>x ) Littlewood's model is limited to two classes. P. Belobaba developed a model based on this rule called Expected marginal seat revenue, abbreviated as EMSR, which is an $n$-class model 〔Belobaba, P. P. (1987). Air Travel Demand and Airline Seat Inventory Management. Flight Transportation Laboratory. Cambridge, MIT. PhD〕 抄文引用元・出典: フリー百科事典『 ウィキペディア（Wikipedia）』 ■ウィキペディアで「Littlewood's rule」の詳細全文を読む スポンサード リンク 翻訳と辞書 : 翻訳のためのインターネットリソース Copyright(C) kotoba.ne.jp 1997-2016. All Rights Reserved.