On Application of Fixed Point Theorem to Insurance Loss Model
DOI:
https://doi.org/10.56830/MNOO4883Keywords:
Fixed point theorem, uniqueness, convergence, risk variablesAbstract
The future development when an insurance company is in a difficult circumstance can be described by a stochastic process which the insurance company is tasked to manage effectively in order to achieve best goal of the company. Application of an effective risk or loss management model in an insurance company brings in more revenue for the insurer and less conditional pay-out of claims to the insured. Insurance losses, risks and premium calculation or pricing have been active and essential topics in insurance and actuarial literatures but most of these literatures did not only stand the test of time due to dynamic nature of insurance principles and practices in highly evolving environment but also lack the intuitive and detailed standard rating logic to adjust loss rating to a particular experience. There is a need to strike a balance in charging an appropriate and equitable premium by applying a suitable loss model that gives a sufficient uniquely determined solution that will not necessarily put an insurer or the insured in uncertain awkward business situations. Therefore, the objective of this research is to obtain sufficient conditions for convergence of algorithm towards a fixed point under typical insurance loss and actuarial circumstances to achieve a uniquely determined solution. At the end, a unique fixed point was determined and the algorithm formulated converges towards that point through straightforward and simplified generalised formulae and functions
References
Borogovac, M. (2014). Comparison of the Standard Rating Methods and the New General Rating Formula. . SOA ARCH 2014.1 Proceedings.
Brown, R., & Gottlieb, L. (2001). Introduction to Ratemaking and Loss Reserving for
Property and Casualty Insurance (2nd ed.). Winsted,Connecticut: ACTEX
Publications.
Buhmann, H. (1970). Mathematics Methods in Risk Theory. . Berlin, Germany: SpringerVerlag.
Fu, L., & Wu, C. (2005). General Iteration Algorithm for Classification Ratemaking. Casualty Actuarial Society Forum Winter 2005.
Goovaerts, M., De Vylder, F., & Haezendonck, J. (1984). Insurance Premiums: Theory and Application. North-Holland, Amsterdam.
Hurlimann, W. (1997). On Quasi-Mean Value Principles. Blatter der Deutschen Gesellschaft fur Versicherungsmathematik. XXIII, 1 – 16. DOI: https://doi.org/10.1007/BF02808707
Hurlimann, W. (1998). On Stop-Loss Order and the Distortions Pricing Principles. ASTIN Bulletin, 28(2), 119 – 134. DOI: https://doi.org/10.2143/AST.28.1.519082
Istratescu, V. (1981). Fixed Point Theory. Dordrecht,Netherlands:. Reidel Publishing Company. DOI: https://doi.org/10.1007/978-94-009-8177-5
Khalehoghli, S., Rahimi, H., & Gordji, M. (2020). Fixed Point Theorem in R-Metric Spaces with Applications. AIMS Mathematics, 5(4),312 – 315. DOI: https://doi.org/10.3934/math.2020201
Mallappa, M., & Talawar, A. (2020). Premium Calculation for Different Loss Discret Analogues of Continuous Distributions Utility Theory. . International Journal Agricultural Statistics Science,, 16(1), 61 – 72.
Nash, J. (1951). Non Cooperative Games. . Annals of Mathematics, 54(2),286 - 295. DOI: https://doi.org/10.2307/1969529
Nieto, J., & Guez-Lo’pez, R. (2005). Contractive Mapping Theorems in Partially Ordere Sets and Application to Ordinary Differential Equations. . Order, 22, 223 – 239. DOI: https://doi.org/10.1007/s11083-005-9018-5
Rajic, V., Azdejkovic, D., & Loncar, D. (2014). Fixed Point Theory and Possibilities Application in Different Fields of an Economy. Original Scientific Article DOI: https://doi.org/10.5937/ekopre1408382R
UDK:330.42:515.126.4. DOI: 10.5937/ekopre1408382R. Retrieved on 21st March 2020, GMT 21:00 from https://www.researchgate.net/publication/283393893.
Von-Neumann, J. (1928). On the Theory of Games of Strategy. Mathematisch Annalen, 100,295 – 320. DOI: https://doi.org/10.1007/BF01448847
Wang, S., & Young, V. R. (1998). Ordering of Risks: Utility Theory Verse Yaari’s Dua Theory of Risk. Mathematics and Economics, 23,1 – 14.
Wang, S., Young, V., & Panjer, H. (1997). Axiomatic Characterisation of Insurance Prices. Mathematics and Economics, 21, 173 – 183. DOI: https://doi.org/10.1016/S0167-6687(97)00031-0
