Papers
Topics
Authors
Recent
Gemini 2.5 Flash
Gemini 2.5 Flash
153 tokens/sec
GPT-4o
7 tokens/sec
Gemini 2.5 Pro Pro
45 tokens/sec
o3 Pro
4 tokens/sec
GPT-4.1 Pro
38 tokens/sec
DeepSeek R1 via Azure Pro
28 tokens/sec
2000 character limit reached

Subsidising Inclusive Insurance to Reduce Poverty (2103.17255v4)

Published 10 Mar 2021 in stat.AP, math.PR, and q-fin.RM

Abstract: In this article, we assess the benefits of coordination and partnerships between governments and private insurers, and provide further evidence for microinsurance products as powerful and cost-effective tools for achieving poverty reduction. To explore these ideas, we model the capital of a household from a ruin-theoretic perspective to measure the impact of microinsurance on poverty dynamics and the governmental cost of social protection. We analyse the model under four frameworks: uninsured, insured (without subsidies), insured with subsidised constant premiums and insured with subsidised flexible premiums. Although insurance alone (without subsidies) may not be sufficient to reduce the likelihood of falling into the area of poverty for specific groups of households, since premium payments constrain their capital growth, our analysis suggests that subsidised schemes can provide maximum social benefits while reducing governmental costs.

Definition Search Book Streamline Icon: https://streamlinehq.com
References (58)
  1. Abramowitz, M. and I. A. Stegun (1972). Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables. Washington, D.C.: U.S. Department of Commerce.
  2. Reinsurance: Actuarial and Statistical Aspects. Oxford: John Wiley & Sons.
  3. On the Distribution of Dividend Payments and the Discounted Penalty Function in a Risk Model with Linear Dividend Barrier. Scandinavian Actuarial Journal (2), 103–126.
  4. Ruin Probabilities. Singapore: World Scientific.
  5. Public-Private Partnerships (PPP) in Disaster Management in Developing Countries: A Conceptual Framework. Procedia Economics and Finance 18, 807–814.
  6. Semi-Parametric Inference for the Absorption Features of a Growth-Fragmentation Model. TEST 24(2), 341–360.
  7. Poverty Traps. In P. Aghion and S. N. Durlauf (Eds.), Handbook of Economic Growth, Volume 22 of Handbooks in Economics, Chapter 5, pp. 295–384. North-Holland: Elsevier.
  8. Development Microeconomics. Oxford: Oxford University Press.
  9. Well-Being Dynamics and Poverty Traps. Annual Review of Resource Economics 8(1), 303–327.
  10. Insurability in Microinsurance Markets: An Analysis of Problems and Potential Solutions. The Geneva Papers on Risk and Insurance - Issues and Practice 37(1), 77–107.
  11. Regulation in Microinsurance Markets: Principles, Practice, and Directions for Future Development. World Development 58, 21–40.
  12. Poverty Traps. New Jersey: Princeton University Press.
  13. Carter, M. R. and S. A. Janzen (2018). Social Protection in the Face of Climate Change: Targeting Principles and Financing Mechanisms. Environment and Development Economics 23(3), 369–389.
  14. Welfare Impacts of Index Insurance in the Presence of a Poverty Trap. World Development 94, 119–138.
  15. Churchill, C. (2007). Insuring the Low-Income Market: Challenges and Solutions for Commercial Insurers. The Geneva Papers on Risk and Insurance - Issues and Practice 32(3), 401–412.
  16. Protecting the Poor: A Microinsurance Compendium (Vol. 2). Geneva: International Labour Organization (ILO).
  17. Barriers to Household Risk Management: Evidence From India. American Economic Journal: Applied Economics 5(1), 104–135.
  18. An Application of Fractional Differential Equations to Risk Theory. Finance and Stochastics 23(4), 1001–1024.
  19. Dasgupta, P. (1997). Nutritional Status, the Capacity for Work, and Poverty Traps. Journal of Econometrics 77(1), 5–37.
  20. Davis, M. H. A. (1984). Piecewise-Deterministic Markov Processes: A General Class of Non-Diffusion Stochastic Models. Journal of the Royal Statistical Society: Series B (Methodological) 46(3), 353–388.
  21. De Weerdt, J. and S. Dercon (2006). Risk-Sharing Networks and Insurance Against Illness. Journal of Development Economics 81(2), 337–356.
  22. Group-Based Funeral Insurance in Ethiopia and Tanzania. World Development 34(4), 685–703.
  23. Dror, D. M. (2019). Microinsurance: A Short History. International Social Security Review 72(4), 107–126.
  24. The Determinants of Microinsurance Demand. The Geneva Papers on Risk and Insurance - Issues and Practice 39(2), 224–263.
  25. Handbook of Entrepreneurial Dynamics: The Process of Business Creation. California: SAGE Publications, Inc.
  26. Gerber, H. U. and E. S. W. Shiu (1998). On the Time Value of Ruin. North American Actuarial Journal 2(1), 48–72.
  27. Harrison, J. M. (1977). Ruin Problems with Compounding Assets. Stochastic Processes and their Applications 5(1), 67–79.
  28. Best Practices for Subsidizing Agricultural Insurance. Global Food Security 25(1), 100326.
  29. Using Subsidies for Inclusive Insurance: Lessons From Agriculture and Health. Microinsurance Paper No. 29. Geneva, Switzerland: International Labour Organization (ILO).
  30. Poverty Traps and the Social Protection Paradox. In C. B. Barrett, M. R. Carter, and J. P. Chavas (Eds.), The Economics of Poverty Traps, Chapter 6, pp.  223–256. Chicago: University of Chicago Press.
  31. Can Insurance Alter Poverty Dynamics and Reduce the Cost of Social Protection in Developing Countries? Journal of Risk and Insurance 88(2), 293–324.
  32. Integrating Social Protection Strategies for Improved Impact: A Comparative Evaluation of Cash Transfers and Index Insurance in Kenya. The Geneva Papers on Risk and Insurance - Issues and Practice 42(4), 675–707.
  33. Crop Insurance Policies in India: An Empirical Analysis of Pradhan Mantri Fasal Bima Yojana. Risks 9(11).
  34. Can Parametric Microinsurance Improve the Financial Resilience of Low-Income Households in the United States? Economics of Disasters and Climate Change 5(3), 301–327.
  35. Kovacevic, R. M. and G. C. Pflug (2011). Does Insurance Help to Escape the Poverty Trap? — A Ruin Theoretic Approach. Journal of Risk and Insurance 78(4), 1003–1027.
  36. Poverty Traps and Disaster Insurance in a Bi-level Decision Framework. In J. L. Haunschmied, R. M. Kovacevic, W. Semmler, and V. M. Veliov (Eds.), Dynamic Economic Problems with Regime Switches, Volume 25 of Dynamic Modeling and Econometrics in Economics and Finance, Chapter 3, pp.  57–83. Switzerland: Springer Nature.
  37. Do Poverty Traps Exist? Assessing the Evidence. Journal of Economic Perspectives 28(3), 127–148.
  38. Is Agricultural Insurance Fulfilling Its Promise for the Developing World? A Review of Recent Evidence. Annual Review of Resource Economics 14(1), 291–311.
  39. Kummer, E. E. (1837). De integralibus quibusdam definitis et seriebus infinitis. Journal für die reine und angewandte Mathematik (17), 228–242.
  40. Kyprianou, A. E. (2013). Gerber–Shiu Risk Theory. Switzerland: Springer International Publishing.
  41. Does Agricultural Insurance Help Farmers Escape the Poverty Trap? Research Based on Multiple Equilibrium Models. The Geneva Papers on Risk and Insurance - Issues and Practice 45(1), 203–223.
  42. Disaster Safety Nets for Developing Countries: Extending Public—Private Partnerships. Environmental Hazards 7(1), 54–61.
  43. Liu, Y. and R. J. Myers (2016). The Dynamics of Microinsurance Demand in Developing Countries Under Liquidity Constraints and Insurer Default Risk. Journal of Risk and Insurance 83(1), 121–138.
  44. Protecting the Economic Health of the Poor in India: Are Health Mutuals the Right Medicine? Development Policy Review 37(6), 843–853.
  45. Matsuyama, K. (2008). Poverty Traps. In S. N. Durlauf and L. E. Blume (Eds.), The New Palgrave Dictionary of Economics. London: Palgrave Macmillan.
  46. Paulsen, J. (1998). Ruin Theory with Compounding Assets — A Survey. Insurance: Mathematics and Economics 22(1), 3–16.
  47. The Demand for Microinsurance: A Literature Review. World Development 94, 139–156.
  48. Ramsay, C. M. and L. D. Arcila (2013). Pricing Funeral (Burial) Insurance in a Microinsurance World with Emphasis on Africa. North American Actuarial Journal 17(1), 63–81.
  49. Ruin Probability-Based Initial Capital of the Discrete-Time Surplus Process. Variance: Advancing the Science of Risk: CAS 7(1), 74–81.
  50. Seaborn, J. B. (1991). Hypergeometric Functions and Their Applications. New York: Springer-Verlag.
  51. Segerdahl, C. O. (1942). Über einige risikotheoretische fragestellungen. Scandinavian Actuarial Journal (1-2), 43–83.
  52. Slater, L. J. (1960). Confluent Hypergeometric Functions. New York: Cambridge University Press.
  53. Sundt, B. and J. L. Teugels (1995). Ruin Estimates Under Interest Force. Insurance: Mathematics and Economics 16(1), 7–22.
  54. Townsend, R. M. (1994). Risk and Insurance in Village India. Econometrica 62(3), 539–591.
  55. Tricomi, F. (1947). Sulle funzioni ipergeometriche confluenti. Annali di Matematica Pura ed Applicata 26(1), 141–175.
  56. Agriculture Insurance in China: History, Experience, and Lessons Learned. International Journal of Disaster Risk Science 2(2), 10–22.
  57. Informal Risk-Sharing Between Smallholders May Be Threatened By Formal Insurance: Lessons From a Stylized Agent-Based Model. PLOS ONE 16(3), 1–18.
  58. Area Yield Index Insurance or Farm Yield Crop Insurance? Chinese Perspectives on Farmers’ Welfare and Government Subsidy Effectiveness. Journal of Agricultural Economics 71(1), 144–164.
Citations (5)
View on Semantic Scholar

Summary

We haven't generated a summary for this paper yet.

Ai Sparkles Streamline Icon: https://streamlinehq.com Summarize Now