IMPLEMENTATION OF REAL OPTIONS TO THE VALUATION OF THE COVID-19 VACCINE PROCUREMENT PROJECT IN INDONESIA
COVID-19 (coronavirus disease 2019) is a new type of coronavirus, Sars-CoV-2. First appeared in Indonesia on March 2, 2020. People infected with this virus continue to increase every day and have not subsided even though it has been going on for fifteen months. WHO (World Health Organization) off...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/54922 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | COVID-19 (coronavirus disease 2019) is a new type of coronavirus, Sars-CoV-2.
First appeared in Indonesia on March 2, 2020. People infected with this virus
continue to increase every day and have not subsided even though it has been going
on for fifteen months. WHO (World Health Organization) officially declared
COVID-19 as a global pandemic due to the rapid increase in infected population
and the high death rate in the world. World scientists are trying to develop a vaccine
to tackle COVID-19. Indonesia is one of the countries that has vaccinated one way
by importing vaccines from world vaccine producers. Each country can only order
a limited number of vaccines because the number of vaccines does not yet meet the
needs of the whole world population. The Indonesian Ministry of Health is the main
agency authorized to deal with COVID-19, including vaccination activities. The
Indonesian Ministry of Health has created an initial vaccination strategy to achieve
herd immunity and will be completed in the first quarter of 2022. This final project
assumes that there is a second party company authorized as the project owner to
manage, sell and distribute the COVID-19 vaccine which has been received by
Indonesia through policies and cooperation that have been handled by the
Indonesian Ministry of Health. The project value is calculated using the DCF
method. However, the DCF method does not have managerial flexibility that the
project value obtained is not optimal. Therefore, the real option is applied, which
includes an element of uncertainty in the value of the implemented project, to gain
a strategy that produces profitable net present value (NPV). Project volatility is
calculated using Monte Carlo simulations as an element of market uncertainty. The
modified version of the Brandao, Dyer, and Hahn Binomial Lattice method is used
in the calculation of the real options to obtain the expected project value. The real
options used are buyout options, divest options, or continuing the project. Based on
the calculations, it is found that the application of the real option increases the NPV
of the project obtained. |
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