Talent scheduling is an optimization problem in computer science and operations research, and it is also a problem in combinatorial optimization. Suppose we need to make films, and each film contains several scenes. Each scene needs to be shot by one or more actors. And suppose you can only shoot one scene a day. The salaries of these actors are calculated by the day. In this problem, we can only hire each actor consecutively. For example, we can't hire an actor on the first and third days, but not the second day. During the hiring period, the producers still need to pay the actors even if they are not involved in the filming assignment. The purpose of talent scheduling is to minimize the actors' total salary by adjusting the sequence of scenes.[1]

An example of talent scheduling with 8 actors and 8 scenes

Mathematical formulation

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Consider a film shoot composed of   shooting days and involving a total of   actors. Then we use the day out of days matrix (DODM)   to represent the requirements for the various shooting days. The matrix with the   entry given by:

 

Then we define the pay vector  , with the  th element given by   which means rate of pay per day of the  th actor. Let v denote any permutation of the n columns of  , we have:

 

  is the permutation set of the n shooting days. Then define   to be the matrix   with its columns permuted according to  , we have:

  for  

Then we use   and   to represent denote respectively the earliest and latest days in the schedule   determined by a which require actor  . So we can find actor   will be hired for   days. But in these days, only   days are actually required, which means   days are unnecessary, we have:

 

The total cost of unnecessary days is:

 

  will be the objective function we should minimize.[1]

Proof of strong NP-hardness

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In talent scheduling problem, we can prove that is NP-hard by a reduction from the optimal linear arrangement(OLA) problem.[2] And in this problem, even we restrict each actor is needed for just two days and all actors' salaries are 1, it's still polynomially reducible to the OLA problem. Thus, this problem is unlikely to have pseudo-polynomial algorithm.[3]

Integer programming

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The integer programming model is given by:[4]

Minimize  
subject to    
   
   
   
   

In this model,   means the earliest shooting day for talent  ,   is the latest shooting day for talent  ,   is the scheduling for the project, i.e.

 

References

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  1. ^ a b Cheng, T. C. E.; Diamond, J. E.; Lin, B. M. T. (1 December 1993). "Optimal scheduling in film production to minimize talent hold cost". Journal of Optimization Theory and Applications. 79 (3): 479–492. doi:10.1007/BF00940554. S2CID 120319128. Retrieved 25 July 2022.
  2. ^ Garey, M. R.; Johnson, D. S.; Stockmeyer, L. (1 February 1976). "Some simplified NP-complete graph problems". Theoretical Computer Science. 1 (3): 237–267. doi:10.1016/0304-3975(76)90059-1. ISSN 0304-3975.
  3. ^ Garey, M. R.; Johnson, D. S. (1979). Victor Klee (ed.). Computers and Intractability: A Guide to the Theory of NP-Completeness. A Series of Books in the Mathematical Sciences. San Francisco, Calif.: W. H. Freeman and Co. pp. x+338. ISBN 0-7167-1045-5. MR 0519066.
  4. ^ Close Kochetov, Y. (2011). Iterative local search methods for the talent scheduling problem. In Proceedings of 1st international symposium and 10th Balkan conference on operational research, September 22, Thessaloniki, Greece (pp. 282–288).