OPTIMAL RESULTS FROM DHINV Software by Peter Lohmander 2010 OPTIMAL TIME AND STATE DEPENDENT DECISIONS AND EXPECTED PRESENT VALUES t = 1 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 1 34830. 5 1 0 0 0 0 t = 2 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 5 40538. 7 2 1 1 0 0 t = 3 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 7 45062. 8 3 2 1 1 0 t = 4 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 51517. 8 1 1 1 t = 5 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 47751. 8 1 1 1 t = 6 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 44168. 8 1 1 1 t = 7 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 40761. 8 1 1 1 t = 8 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 37519. 8 1 1 1 t = 9 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 34436. 8 1 1 1 t = 10 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 31502. 8 1 1 1 t = 11 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 28712. 8 1 1 1 t = 12 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 26058. 8 1 1 1 t = 13 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 23534. 8 1 1 1 t = 14 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 21133. 8 1 1 1 t = 15 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 18848. 8 1 1 1 t = 16 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 16675. 8 1 1 1 t = 17 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 14608. 8 1 1 1 t = 18 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 12642. 8 1 1 1 t = 19 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 10772. 8 1 1 1 t = 20 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 8993. 8 1 1 1 t = 21 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 7301. 8 1 1 1 t = 22 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 5691. 8 1 1 1 t = 23 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 4160. 8 1 1 1 t = 24 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 2703. 8 1 1 1 t = 25 i(t) E(PV) i(t+1) DEC CVIA Entering Partial States -------------------------------------------------------- 8 1318. 8 1 1 1