S TE 1101090 Bibliography
DAFTAR PUSTAKA
Caldoeron, L. R., & Galiana, F. D. (1987). Continuous Simulation In The ShortTerm Hydrothermal Coordination Problem. IEEE Transactions on Power
Systems, 2(3), 737–743. http://doi.org/10.1002/zamm.19660460126
Charalambous, C. (1975). Minimax Optimization of Recursive Digital Filters
Using Recent Minimax Results. IEEE Transactions On Acousitics, Speech ,
And
Signal
Processing,
23(4),
333–345.
http://doi.org/10.1109/TASSP.1975.1162694
Delfanti, M., Granelli, G. P., Marannino, P., Member, S., & Montagna, M. (2001).
Short-term Hydro-thermal Coordination Based on Interior Point Nonlinear
Programming
and
Genetic
Algorithms,
15(3),
1041–1046.
http://doi.org/10.1109/2001.964887
Díez, S. G., Laforge, J., & Saerens, M. (2013). R minimax : An Optimally
Randomized MINIMAX Algorithm. IEEE Transactions Cybernetics, 43(1),
385–393. http://doi.org/10.1109/TSMCB.2012.2207951
Diniz, a. L. (2010). Test cases for unit commitment and hydrothermal scheduling
problems.
IEEE
PES
General
Meeting,
PES
2010,
1–8.
http://doi.org/10.1109/PES.2010.5589757
Dorigo, M., & Gambardella, L. M. (1997). Ant colony system: a cooperative
learning approach to the traveling salesman problem. IEEE Transactions on
Evolutionary Computation, 1(1), 53–66. http://doi.org/10.1109/4235.585892
Duncan, R. a., Seymore, G. E., Streiffert, D. L., & Engberg, D. J. (1985). Optimal
Hydrothermal Coordination for Multiple Reservoir River Systems. IEEE
Transactions on Power Apparatus and Systems, PAS-104(5), 1154–1159.
http://doi.org/10.1109/TPAS.1985.323467
El-Hawary, & Kumar, M. (1986). Optimal Parameter Estimation For Hydro-Plant
Perforamnce Models In Economic Operation Studies. IEEE Transactions on
Power
Systems,
1(6),
126–131.
http://doi.org/10.1109/TPWRS.1986.4335027
El-Sharkh, M. Y., Sisworahardjo, N. S., Rahman, a., & Alam, M. S. (2006). An
Improved Ant Colony Search Algorithm for Unit Commitment Application.
2006 IEEE PES Power Systems Conference and Exposition, 1741–1746.
http://doi.org/10.1109/PSCE.2006.296176
Eroglu S., Toprak S., Urgan O, MD, Ozge E. Onur, MD, Arzu Denizbasi, MD,
Haldun Akoglu, MD, Cigdem Ozpolat, MD, Ebru Akoglu, M. (2012). On43
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu
44
Line Calculation Of Incremental Transmission Losses In An Electric Power
System. Saudi Med J , 33(4), 3–8. http://doi.org/10.1073/pnas.0703993104
Farhat, I. a., & El-Hawary, M. E. (2009). Short-term hydro-thermal scheduling
using an improved bacterial foraging algorithm. 2009 IEEE Electrical Power
and
Energy
Conference,
EPEC
2009,
1–5.
http://doi.org/10.1109/EPEC.2009.5420913
Galiana, F. D., Conejo, A. J., & Kockar, I. (2002). Incremental Transmission Loss
Allocation Under Pool Dispatch. IEEE Transactions on Power Systems,
17(1), 26–33. http://doi.org/10.1109/59.982189
Huang, S. J. (2001). Enhancement of Hydroelectric Generation Scheduling Using
Ant Colony System-Based Optimization Approaches. IEEE Power
Engineering
Review,
21(9),
62–62.
http://doi.org/10.1109/MPER.2001.4311624
J. Skea, D. Anderson, T. Green, R. Gross, P. H. and M. L. (2007). Transmission
Loss Evaluation In An Open Electricity Market Using An Incremental
Method. Generation, Transmission & Distribution, IET, 1(2), 324.
http://doi.org/10.1049/iet-gtd
Jiang, R., Member, S., Wang, J., Member, S., & Zhang, M. (2013). Two-Stage
Minimax Regret Robust Unit Commitment. IEEE Transactions on Power
Systems, 28(3), 1–12. http://doi.org/10.1109/TPWRS.2013.2250530
Keel, M., Liik, O., Tammoja, H., & Valdma, M. (2005). Optimal Planning of
Electric Power Generation in Thermal Power System, 1–6.
http://doi.org/10.1109/PTC.2005.4524620
Lai, Y., Bai, Y., & Fan, Y. (2012). Optimization of unit commitment based on
improved max-min ant system algorithm. Proceedings - 2012 IEEE
International Conference on Intelligent Control, Automatic Detection and
High-End
Equipment,
ICADE
2012,
192–195.
http://doi.org/10.1109/ICADE.2012.6330125
M.E.El-Hawary, & J.K.Landrigan. (1982). Optimum Operation Of Fixed-Head
Hydro-Thermal Electric Power System. IEEE Transactions on Power
Apparatus and Systems, 101(3), 547–554.
Padmini, S., & Rajan, C. C. A. (2011). Improved PSO for Short Term
Hydrothermal
Scheduling.
Seiscon,
(Seiscon),
332–334.
http://doi.org/10.1049/cp.2011.0384
Rajan, C. C. a., & Mohan, M. R. (2004). An Evolutionary Programming-Based
Tabu Search Method For Solving The Unit Commitment Problem. IEEE
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu
45
Transactions
on
Power
Systems,
http://doi.org/10.1109/TPWRS.2003.821472
19(1),
577–585.
Sets, A. (2014). Nonlinear Medium-Term Hydro Thermal SchedulingWith
Transmission Constraint. IEEE Transactions on Power System, 29(4), 1623–
1633.
Shi, L. S. L., Hao, J. H. J., Zhou, J. Z. J., & Xu, G. X. G. (2004). Short-term
generation scheduling with reliability constraint using ant colony
optimization algorithm. Fifth World Congress on Intelligent Control and
Automation
(IEEE
Cat.
No.04EX788),
6(I),
5102–5106.
http://doi.org/10.1109/WCICA.2004.1343691
Sisworahardjo, N. S., & El-Keib, A. a. (2002). Unit commitment using the ant
colony search algorithm. LESCOPE’02. 2002 Large Engineering Systems
Conference on Power Engineering. Conference Proceedings, 2–6.
http://doi.org/10.1109/LESCPE.2002.1020658
Soares, S., & Engenharia, F. De. (1980). Optimal Generation Scheduling Of
Hydrothermal Power Systems. IEEE Transactions on Power Apparatus and
System, 3(3), 1107–1118. http://doi.org/10.1109/TPAS.1980.319741
Tong, S. K., & Shahidehpour, S. M. (1990). Hydrothermal unit commitment with
probabilistic constraints using segmentation method. IEEE Transactions on
Power Systems, 5(1), 276–282. http://doi.org/10.1109/59.49117
Valdma, M., Keel, M., & Tammoja, H. (2003). Method for Minimax Optimization
of Power System Operation. IEEE Bologna Power Tech Conference, 2.
http://doi.org/10.1109/PTC.2003.1304670
Ya, C., & Ya, T. (1996). Scheduling short-term hydrothermal using evolutionary
programing techniques, 143(4), 371–376. http://doi.org/10.1049/19960463
Yu, D., Wang, Y., & Guo, R. (2010). A Hybrid Ant Colony Optimization
Algorithm Based Lambda-Iteration Method for Unit Commitment Problem.
2010 Second WRI Global Congress on Intelligent Systems, 1(1), 19–22.
http://doi.org/10.1109/GCIS.2010.19
Zambelli, M. S., & Soares, S. (2009). A predictive control approach for long term
hydrothermal scheduling. Power Systems Conference and Exposition, (1), 1–
8. http://doi.org/10.1109/PSCE.2009.4840239
Zoumas, C. E., Bakirtzis, A. G., Theocharis, J. B., & Petridis, V. (2004). A
genetic algorithm solution approach to the hydrothermal coordination
problem. IEEE Transactions on Power Systems, 19(3), 1356–1364.
http://doi.org/10.1109/TPWRS.2004.825896
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu
46
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu
Caldoeron, L. R., & Galiana, F. D. (1987). Continuous Simulation In The ShortTerm Hydrothermal Coordination Problem. IEEE Transactions on Power
Systems, 2(3), 737–743. http://doi.org/10.1002/zamm.19660460126
Charalambous, C. (1975). Minimax Optimization of Recursive Digital Filters
Using Recent Minimax Results. IEEE Transactions On Acousitics, Speech ,
And
Signal
Processing,
23(4),
333–345.
http://doi.org/10.1109/TASSP.1975.1162694
Delfanti, M., Granelli, G. P., Marannino, P., Member, S., & Montagna, M. (2001).
Short-term Hydro-thermal Coordination Based on Interior Point Nonlinear
Programming
and
Genetic
Algorithms,
15(3),
1041–1046.
http://doi.org/10.1109/2001.964887
Díez, S. G., Laforge, J., & Saerens, M. (2013). R minimax : An Optimally
Randomized MINIMAX Algorithm. IEEE Transactions Cybernetics, 43(1),
385–393. http://doi.org/10.1109/TSMCB.2012.2207951
Diniz, a. L. (2010). Test cases for unit commitment and hydrothermal scheduling
problems.
IEEE
PES
General
Meeting,
PES
2010,
1–8.
http://doi.org/10.1109/PES.2010.5589757
Dorigo, M., & Gambardella, L. M. (1997). Ant colony system: a cooperative
learning approach to the traveling salesman problem. IEEE Transactions on
Evolutionary Computation, 1(1), 53–66. http://doi.org/10.1109/4235.585892
Duncan, R. a., Seymore, G. E., Streiffert, D. L., & Engberg, D. J. (1985). Optimal
Hydrothermal Coordination for Multiple Reservoir River Systems. IEEE
Transactions on Power Apparatus and Systems, PAS-104(5), 1154–1159.
http://doi.org/10.1109/TPAS.1985.323467
El-Hawary, & Kumar, M. (1986). Optimal Parameter Estimation For Hydro-Plant
Perforamnce Models In Economic Operation Studies. IEEE Transactions on
Power
Systems,
1(6),
126–131.
http://doi.org/10.1109/TPWRS.1986.4335027
El-Sharkh, M. Y., Sisworahardjo, N. S., Rahman, a., & Alam, M. S. (2006). An
Improved Ant Colony Search Algorithm for Unit Commitment Application.
2006 IEEE PES Power Systems Conference and Exposition, 1741–1746.
http://doi.org/10.1109/PSCE.2006.296176
Eroglu S., Toprak S., Urgan O, MD, Ozge E. Onur, MD, Arzu Denizbasi, MD,
Haldun Akoglu, MD, Cigdem Ozpolat, MD, Ebru Akoglu, M. (2012). On43
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu
44
Line Calculation Of Incremental Transmission Losses In An Electric Power
System. Saudi Med J , 33(4), 3–8. http://doi.org/10.1073/pnas.0703993104
Farhat, I. a., & El-Hawary, M. E. (2009). Short-term hydro-thermal scheduling
using an improved bacterial foraging algorithm. 2009 IEEE Electrical Power
and
Energy
Conference,
EPEC
2009,
1–5.
http://doi.org/10.1109/EPEC.2009.5420913
Galiana, F. D., Conejo, A. J., & Kockar, I. (2002). Incremental Transmission Loss
Allocation Under Pool Dispatch. IEEE Transactions on Power Systems,
17(1), 26–33. http://doi.org/10.1109/59.982189
Huang, S. J. (2001). Enhancement of Hydroelectric Generation Scheduling Using
Ant Colony System-Based Optimization Approaches. IEEE Power
Engineering
Review,
21(9),
62–62.
http://doi.org/10.1109/MPER.2001.4311624
J. Skea, D. Anderson, T. Green, R. Gross, P. H. and M. L. (2007). Transmission
Loss Evaluation In An Open Electricity Market Using An Incremental
Method. Generation, Transmission & Distribution, IET, 1(2), 324.
http://doi.org/10.1049/iet-gtd
Jiang, R., Member, S., Wang, J., Member, S., & Zhang, M. (2013). Two-Stage
Minimax Regret Robust Unit Commitment. IEEE Transactions on Power
Systems, 28(3), 1–12. http://doi.org/10.1109/TPWRS.2013.2250530
Keel, M., Liik, O., Tammoja, H., & Valdma, M. (2005). Optimal Planning of
Electric Power Generation in Thermal Power System, 1–6.
http://doi.org/10.1109/PTC.2005.4524620
Lai, Y., Bai, Y., & Fan, Y. (2012). Optimization of unit commitment based on
improved max-min ant system algorithm. Proceedings - 2012 IEEE
International Conference on Intelligent Control, Automatic Detection and
High-End
Equipment,
ICADE
2012,
192–195.
http://doi.org/10.1109/ICADE.2012.6330125
M.E.El-Hawary, & J.K.Landrigan. (1982). Optimum Operation Of Fixed-Head
Hydro-Thermal Electric Power System. IEEE Transactions on Power
Apparatus and Systems, 101(3), 547–554.
Padmini, S., & Rajan, C. C. A. (2011). Improved PSO for Short Term
Hydrothermal
Scheduling.
Seiscon,
(Seiscon),
332–334.
http://doi.org/10.1049/cp.2011.0384
Rajan, C. C. a., & Mohan, M. R. (2004). An Evolutionary Programming-Based
Tabu Search Method For Solving The Unit Commitment Problem. IEEE
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu
45
Transactions
on
Power
Systems,
http://doi.org/10.1109/TPWRS.2003.821472
19(1),
577–585.
Sets, A. (2014). Nonlinear Medium-Term Hydro Thermal SchedulingWith
Transmission Constraint. IEEE Transactions on Power System, 29(4), 1623–
1633.
Shi, L. S. L., Hao, J. H. J., Zhou, J. Z. J., & Xu, G. X. G. (2004). Short-term
generation scheduling with reliability constraint using ant colony
optimization algorithm. Fifth World Congress on Intelligent Control and
Automation
(IEEE
Cat.
No.04EX788),
6(I),
5102–5106.
http://doi.org/10.1109/WCICA.2004.1343691
Sisworahardjo, N. S., & El-Keib, A. a. (2002). Unit commitment using the ant
colony search algorithm. LESCOPE’02. 2002 Large Engineering Systems
Conference on Power Engineering. Conference Proceedings, 2–6.
http://doi.org/10.1109/LESCPE.2002.1020658
Soares, S., & Engenharia, F. De. (1980). Optimal Generation Scheduling Of
Hydrothermal Power Systems. IEEE Transactions on Power Apparatus and
System, 3(3), 1107–1118. http://doi.org/10.1109/TPAS.1980.319741
Tong, S. K., & Shahidehpour, S. M. (1990). Hydrothermal unit commitment with
probabilistic constraints using segmentation method. IEEE Transactions on
Power Systems, 5(1), 276–282. http://doi.org/10.1109/59.49117
Valdma, M., Keel, M., & Tammoja, H. (2003). Method for Minimax Optimization
of Power System Operation. IEEE Bologna Power Tech Conference, 2.
http://doi.org/10.1109/PTC.2003.1304670
Ya, C., & Ya, T. (1996). Scheduling short-term hydrothermal using evolutionary
programing techniques, 143(4), 371–376. http://doi.org/10.1049/19960463
Yu, D., Wang, Y., & Guo, R. (2010). A Hybrid Ant Colony Optimization
Algorithm Based Lambda-Iteration Method for Unit Commitment Problem.
2010 Second WRI Global Congress on Intelligent Systems, 1(1), 19–22.
http://doi.org/10.1109/GCIS.2010.19
Zambelli, M. S., & Soares, S. (2009). A predictive control approach for long term
hydrothermal scheduling. Power Systems Conference and Exposition, (1), 1–
8. http://doi.org/10.1109/PSCE.2009.4840239
Zoumas, C. E., Bakirtzis, A. G., Theocharis, J. B., & Petridis, V. (2004). A
genetic algorithm solution approach to the hydrothermal coordination
problem. IEEE Transactions on Power Systems, 19(3), 1356–1364.
http://doi.org/10.1109/TPWRS.2004.825896
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu
46
Aris Primadi Alfarisi, 2016
STUDI SISTEM KOORDINASI HIDROTERMAL MENGGUNAKAN METODE MINIMAX OPTIMIZATION PADA
SISTEM INTERKONEKSI JAWA-BALI
Universitas Pendidikan Indonesia| repository.upi.edu |perpustakaan.upi.edu