TY - JOUR
T1 - Parrondo's paradox based strategies in the serious game of RTGS using forest fire model
AU - Bukhori, Saiful
AU - Hariadi, Mochamad
AU - Ketut Eddy Purnama, I.
AU - Purnomo, Mauridhi Hery
PY - 2013/9
Y1 - 2013/9
N2 - This research proposed parrondo's paradox strategies in the serious game of Real Time Gross Settlement (RTGS) using forest fire model, which develop the existence of the parrondo paradox and applied in serious game of RTGS system as switching in the settlement process. The settlement process, that our proposed at this paper, is managed by clearing house. The mechanism at clearing house is a transmitter client sends a message of transaction through transmitter bank, that having canal at clearing house, then continue to receiver client through receiver bank by using forest fire model. When settlement process done by one transmitter bank (Process A), the probability of increase Net Worth (NW) is p. When settlement process done by more than one transmitter bank (Process B), we have introduced the probabilities of a self-transition in each state, that is, if the capital is a multiple of three we have a probability r 1 of remaining in the same state, whereas if the capital is not a multiple of three then the probability is r 2. We will turn to the random alternation of process A and B with probability γ. This will be named as process AB. Examination result of process A change in net worth trend to decrease, process B trend to decrease and process AB that switches randomly between process A and process B trend to increase net worth. Simulation of parrondo's paradox based strategies in the serious game RTGS using star logo by randomize process A and process B so distribution net worth lot in the bank that has wealth in intermediate level, total money and total loan trend to rise, total saving loan trend to rise but total wallets trend to decrease.
AB - This research proposed parrondo's paradox strategies in the serious game of Real Time Gross Settlement (RTGS) using forest fire model, which develop the existence of the parrondo paradox and applied in serious game of RTGS system as switching in the settlement process. The settlement process, that our proposed at this paper, is managed by clearing house. The mechanism at clearing house is a transmitter client sends a message of transaction through transmitter bank, that having canal at clearing house, then continue to receiver client through receiver bank by using forest fire model. When settlement process done by one transmitter bank (Process A), the probability of increase Net Worth (NW) is p. When settlement process done by more than one transmitter bank (Process B), we have introduced the probabilities of a self-transition in each state, that is, if the capital is a multiple of three we have a probability r 1 of remaining in the same state, whereas if the capital is not a multiple of three then the probability is r 2. We will turn to the random alternation of process A and B with probability γ. This will be named as process AB. Examination result of process A change in net worth trend to decrease, process B trend to decrease and process AB that switches randomly between process A and process B trend to increase net worth. Simulation of parrondo's paradox based strategies in the serious game RTGS using star logo by randomize process A and process B so distribution net worth lot in the bank that has wealth in intermediate level, total money and total loan trend to rise, total saving loan trend to rise but total wallets trend to decrease.
KW - Forest fire model
KW - Net worth
KW - Parrondo paradox
KW - RTGS
UR - http://www.scopus.com/inward/record.url?scp=84864987208&partnerID=8YFLogxK
M3 - Article
AN - SCOPUS:84864987208
SN - 1683-3198
VL - 10
JO - International Arab Journal of Information Technology
JF - International Arab Journal of Information Technology
IS - 5
ER -