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ORCIDDavid Goldsman
David M. Goldsman
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- affiliation: Georgia Institute of Technology
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2020 – today
- 2023
[j31]Ignacio Erazo, David Goldsman:
Efficient confidence intervals for the difference of two Bernoulli distributions' success parameters. J. Simulation 17(1): 76-93 (2023)- [c89]Athanasios Lolos, Christos Alexopoulos, David Goldsman, Kemal Dinçer Dingeç, Anup C. Mokashi, James R. Wilson:
A Fixed-Sample-Size Method for Estimating Steady-State Quantiles. WSC 2023: 457-468 - 2022
- [c88]Athanasios Lolos
, Joseph Haden Boone, Christos Alexopoulos, David Goldsman, Kemal Dinçer Dingeç, Anup C. Mokashi, James R. Wilson:
A Sequential Method for Estimating Steady-State Quantiles Using Standardized Time Series. WSC 2022: 73-84 - [c87]Ignacio Erazo, David Goldsman, Pinar Keskinocak, Joel Sokol:
A Simulation-Optimization Framework to Improve the Organ Transplantation Offering System. WSC 2022: 1009-1020 - 2021
- [i1]Fanruiqi Zeng, Zaiwei Chen, John-Paul Clarke, David Goldsman:
Nested Vehicle Routing Problem: Optimizing Drone-Truck Surveillance Operations. CoRR abs/2103.01528 (2021) - 2020
- [c86]Christos Alexopoulos, Joseph Haden Boone, David Goldsman, Athanasios Lolos, Kemal Dinçer Dingeç, James R. Wilson:
Steady-State Quantile Estimation Using Standardized Time Series. WSC 2020: 289-300
2010 – 2019
- 2019
- [j30]Christos Alexopoulos, David Goldsman, Anup C. Mokashi, Kai-Wen Tien, James R. Wilson:
Sequest: A Sequential Procedure for Estimating Quantiles in Steady-State Simulations. Oper. Res. 67(4): 1162-1183 (2019) - [j29]Spencer Wilson, Abdullah A. Alabdulkarim, David Goldsman:
Green Simulation of Pandemic Disease Propagation. Symmetry 11(4): 580 (2019) - [c85]Abdullah A. Alabdulkarim, Ibrahim M. Alharkan, David Goldsman:
Using Discrete Event Simulation to Analyze Pricing Strategies for Same-Location Car Rentals. WSC 2019: 1625-1636 - [c84]Christos Alexopoulos, David Goldsman, Anup C. Mokashi, James R. Wilson:
Sequential Estimation of Steady-State Quantiles: Some New Developments in Methods and Software. WSC 2019: 3774-3785 - 2018
- [c83]Kemal Dinçer Dingeç, Christos Alexopoulos, David Goldsman, Melike Meterelliyoz, James R. Wilson:
Multiply reflected variance estimators for simulation. WSC 2018: 1670-1681 - [c82]Christos Alexopoulos, David Goldsman, Anup C. Mokashi, James R. Wilson:
Sequential estimation of steady-State quantiles: Lessons Learned and Future Directions. WSC 2018: 1814-1825 - 2017
- [j28]Huifen Chen, David Goldsman, Bruce W. Schmeiser, Kwok-Leung Tsui:
Symmetric -charts: Sensitivity to nonnormality and control-limit estimation. Commun. Stat. Simul. Comput. 46(1): 358-378 (2017) - [j27]Xiaobei Shen, Zoie Shui-Yee Wong, Man Ho Ling, David Goldsman, Kwok-Leung Tsui:
Comparison of algorithms to simulate disease transmission. J. Simulation 11(3): 285-294 (2017) - [j26]Christos Alexopoulos, David Goldsman, Anup C. Mokashi, James R. Wilson:
Automated Estimation of Extreme Steady-State Quantiles via the Maximum Transformation. ACM Trans. Model. Comput. Simul. 27(4): 22 (2017) - [c81]David Goldsman, Mariana de Almeida Costa, Paul Goldsman, James R. Wilson:
History of the winter simulation conference: Overview and notable facts and figures. WSC 2017: 16-39 - [c80]David Goldsman, Mariana de Almeida Costa, Paul Goldsman:
The countries of the participants in the winter simulation conference. WSC 2017: 75-81 - [c79]Osman Balci, Richard M. Fujimoto, David Goldsman, Richard E. Nance, Bernard P. Zeigler:
The state of innovation in modeling and simulation: The last 50 years. WSC 2017: 821-836 - 2016
- [c78]Robert G. Sargent, David M. Goldsman, Tony Yaacoub:
A tutorial on the operational validation of simulation models. WSC 2016: 163-177 - 2015
- [c77]Robert G. Sargent, David M. Goldsman, Tony Yaacoub:
Use of the interval statistical procedure for simulation model validation. WSC 2015: 60-72 - [c76]Kemal Dinçer Dingeç, Christos Alexopoulos, David Goldsman, James R. Wilson, Wenchi Chiu, Tûba Aktaran-Kalayci:
Jackknifed variance estimators for simulation output analysis. WSC 2015: 459-471 - [c75]Christos Alexopoulos, David Goldsman, Anup C. Mokashi, Kai-Wen Tien, James R. Wilson:
Sequem: estimating extreme steady-state quantiles via the maximum transformation. WSC 2015: 562-574 - [c74]Zoie Shui-Yee Wong, David Goldsman, Kwok-Leung Tsui:
School closure strategies for the 2009 Hong Kong H1N1 influenza pandemic. WSC 2015: 3961-3972 - 2014
- [j25]Vivek Gupta, Sigrún Andradóttir, David Goldsman:
Variance estimation and sequential stopping in steady-state simulations using linear regression. ACM Trans. Model. Comput. Simul. 24(2): 7:1-7:25 (2014) - [c73]Eric S. Tollefson, David Goldsman, Anton J. Kleywegt, Craig A. Tovey:
A Comparative Study of Procedures for the Multinomial Selection Problem. Essays in Production, Project Planning and Scheduling 2014: 123-160 - [c72]Christos Alexopoulos, David Goldsman, Anup C. Mokashi, Rong Nie, Qing Sun, Kai-Wen Tien, James R. Wilson:
Sequest: a sequential procedure for estimating steady-state quantiles. WSC 2014: 662-673 - 2013
- [j24]Kwok-Leung Tsui, Zoie Shui-Yee Wong, David Goldsman, Michael Edesess:
Tracking Infectious Disease Spread for Global Pandemic Containment. IEEE Intell. Syst. 28(6): 60-64 (2013) - [j23]Nilay Tanik Argon, Sigrún Andradóttir, Christos Alexopoulos, David Goldsman:
Steady-State Simulation with Replication-Dependent Initial Transients: Analysis and Examples. INFORMS J. Comput. 25(1): 177-191 (2013) - [c71]Christos Alexopoulos, David Goldsman, Peng Tang, James R. Wilson:
A sequential procedure for estimating the steady-state mean using standardized time series. WSC 2013: 613-622 - 2012
- [j22]Ray Popovic, David Goldsman:
On valuing and hedging European options when volatility is estimated directly. Eur. J. Oper. Res. 218(1): 124-131 (2012) - [j21]Melike Meterelliyoz, Christos Alexopoulos, David Goldsman:
Folded overlapping variance estimators for simulation. Eur. J. Oper. Res. 220(1): 135-146 (2012) - [c70]Christos Alexopoulos, David Goldsman, James R. Wilson:
A new perspective on batched quantile estimation. WSC 2012: 16:1-16:11 - 2011
- [c69]Christos Alexopoulos, David Goldsman, James R. Wilson:
Overlapping batch means: something more for nothing? WSC 2011: 401-411 - [c68]Tûba Aktaran-Kalayci, David Goldsman, Christos Alexopoulos, James R. Wilson:
On the mean-squared error of variance estimators for computer simulations. WSC 2011: 549-555 - 2010
- [j20]Christos Alexopoulos, Claudia Antonini, David Goldsman, Melike Meterelliyoz:
Performance of folded variance estimators for simulation. ACM Trans. Model. Comput. Simul. 20(3): 11:1-11:36 (2010) - [c67]David Goldsman, Richard E. Nance, James R. Wilson:
A brief history of simulation revisited. WSC 2010: 567-574 - [c66]Melike Meterelliyoz, Christos Alexopoulos, David Goldsman:
Reflected variance estimators for simulation. WSC 2010: 1275-1282 - [c65]Sigrún Andradóttir, Wenchi Chiu, David Goldsman, Mi Lim Lee, Kwok-Leung Tsui, David N. Fisman, Beate Sander, Azhar Nizam:
Simulation of strategies for containing pandemic influenza. WSC 2010: 2221-2229
2000 – 2009
- 2009
- [j19]Demet Batur, David Goldsman, Seong-Hee Kim:
An improved standardized time series Durbin-Watson variance estimator for steady-state simulation. Oper. Res. Lett. 37(4): 285-289 (2009) - [c64]David Goldsman, Richard E. Nance, James R. Wilson:
A Brief History of Simulation. WSC 2009: 310-313 - 2008
- [j18]Christos Alexopoulos, Byeong-Yun Chang, David Goldsman, Sungjoo Lee, William S. Marshall:
Overcoming negativity problems for Cramer-von Mises variance estimators. Int. J. Simul. Process. Model. 4(1): 1-6 (2008) - [c63]Joongsup Lee, Christos Alexopoulos, David Goldsman, Seong-Hee Kim, Kwok-Leung Tsui, James R. Wilson:
A distribution-free tabular CUSUM chart for correlated data with automated variance estimation. WSC 2008: 417-425 - 2007
- [j17]Christos Alexopoulos, Nilay Tanik Argon, David Goldsman, Natalie M. Steiger, Gamze Tokol, James R. Wilson:
Efficient Computation of Overlapping Variance Estimators for Simulation. INFORMS J. Comput. 19(3): 314-327 (2007) - [j16]Christos Alexopoulos, Nilay Tanik Argon, David Goldsman, Gamze Tokol, James R. Wilson:
Overlapping Variance Estimators for Simulation. Oper. Res. 55(6): 1090-1103 (2007) - [j15]Tûba Aktaran-Kalayci, David Goldsman, James R. Wilson:
Linear combinations of overlapping variance estimators for simulation. Oper. Res. Lett. 35(4): 439-447 (2007) - [c62]David Goldsman, James O. Henriksen, Pierre L'Ecuyer, Barry L. Nelson, David H. Withers, Nilay Tanik Argon:
Fortieth anniversary special panel: Landmark papers. WSC 2007: 2-13 - [c61]David Goldsman, Barry L. Nelson, Bruce W. Schmeiser:
Methods for selecting the best system (1991). WSC 2007: 7 - [c60]David Goldsman, James O. Henriksen, Pierre L'Ecuyer, Barry L. Nelson, David H. Withers, Nilay Tanik Argon:
Fortieth anniversary special panel: Landmark papers. WSC 2007: 14-25 - [c59]David Goldsman:
Introduction to simulation. WSC 2007: 26-37 - [c58]Christos Alexopoulos, Sigrún Andradóttir, Nilay Tanik Argon, David Goldsman:
Replicated batch means for steady-state simulations with initial transients. WSC 2007: 308-312 - [c57]Tûba Aktaran-Kalayci, David Goldsman, James R. Wilson:
Confidence interval estimation using linear combinations of overlapping variance estimators. WSC 2007: 448-454 - [c56]Claudia Antonini, Christos Alexopoulos, David Goldsman, James R. Wilson:
Folded standardized time series area variance estimators for simulation. WSC 2007: 455-462 - [c55]Christopher M. Healey, David Goldsman, Seong-Hee Kim:
Ranking and selection techniques with overlapping variance estimators. WSC 2007: 522-529 - [c54]David Goldsman:
A simulation course for high school students. WSC 2007: 2353-2356 - 2006
- [j14]Christos Alexopoulos, Sigrún Andradóttir, Nilay Tanik Argon, David Goldsman:
Replicated batch means variance estimators in the presence of an initial transient. ACM Trans. Model. Comput. Simul. 16(4): 317-328 (2006) - [c53]Sungjoo Lee, Denise F. Giles, David Goldsman, Douglas A. Cook, Ninad K. Mishra, Brian McCarthy:
Reproductive Health Services Discrete-Event Simulation. AMIA 2006 - [c52]Kirk C. Benson, David Goldsman, Amy R. Pritchett:
Ranking and selection procedures for simulation. WSC 2006: 179-185 - [p1]David Goldsman, Barry L. Nelson:
Chapter 15 Correlation-Based Methods for Output Analysis. Simulation 2006: 455-475 - 2005
- [j13]Natalie M. Steiger, Emily K. Lada, James R. Wilson, Jeffrey A. Joines, Christos Alexopoulos, David Goldsman:
ASAP3: a batch means procedure for steady-state simulation analysis. ACM Trans. Model. Comput. Simul. 15(1): 39-73 (2005) - [c51]David Goldsman, Seong-Hee Kim, Barry L. Nelson:
Statistical selection of the best system. WSC 2005: 178-187 - [c50]Sigrún Andradóttir, David Goldsman, Seong-Hee Kim:
Finding the best in the presence of a stochastic constraint. WSC 2005: 732-738 - [c49]Tûba Aktaran-Kalayci, David Goldsman:
Linear combinations of overlapping variance estimators for simulations. WSC 2005: 756-762 - [c48]Sigrún Andradóttir, David Goldsman, Lee W. Schruben, Bruce W. Schmeiser, Enver Yücesan:
Analysis methodology: are we done? WSC 2005: 790-796 - [c47]Gwendolyn J. Malone, Seong-Hee Kim, David Goldsman, Demet Batur:
Performance of variance updating ranking and selection procedures. WSC 2005: 825-832 - [c46]Wheyming Tina Song, Wenchi Chiu, David Goldsman:
Importance sampling techniques for estimating the bit error rate in digital communication systems. WSC 2005: 2710-2717 - 2004
- [j12]Christos Alexopoulos, David Goldsman:
To batch or not to batch? ACM Trans. Model. Comput. Simul. 14(1): 76-114 (2004) - [c45]Loo Hay Lee, Ek Peng Chew, Suyan Teng, David Goldsman:
Optimal Computing Budget Allocation for Multi-Objective Simulation Models. WSC 2004: 586-594 - [c44]Natalie M. Steiger, Emily K. Lada, James R. Wilson, Jeffrey A. Joines, Christos Alexopoulos, David Goldsman:
Steady-State Simulation Analysis Using Asap3. WSC 2004: 672-680 - [c43]Christos Alexopoulos, David Goldsman, Nilay Tanik Argon, Gamze Tokol:
Overlapping Variance Estimators for Simulations. WSC 2004: 737-745 - [c42]Mary C. Court, Jennifer L. Pittman, Christos Alexopoulos, David Goldsman, Seong-Hee Kim, Margaret L. Loper, Amy R. Pritchett, Jorge Haddock:
A Framework for Simulating Human Cognitive Behavior and Movement When Predicting Impacts of Catastrophic Events. WSC 2004: 830-828 - [c41]Kirk C. Benson, David Goldsman, Amy R. Pritchett:
Applying Statistical Control Techniques to Air Traffic Simulations. WSC 2004: 1330-1338 - [c40]Ray Popovic, David Goldsman:
An Examination of Forward Volatility. WSC 2004: 1602-1606 - 2003
- [c39]Christos Alexopoulos, David Goldsman:
Special topics on simulation analysis: to batch or not to batch. WSC 2003: 481-489 - 2002
- [j11]David Goldsman, Seong-Hee Kim, William S. Marshall, Barry L. Nelson:
Ranking and Selection for Steady-State Simulation: Procedures and Perspectives. INFORMS J. Comput. 14(1): 2-19 (2002) - [j10]Michael Sherman, David Goldsman:
Large-sample normality of the batch-means variance estimator. Oper. Res. Lett. 30(5): 319-326 (2002) - [j9]Jay M. Rosenberger, Andrew J. Schaefer, David Goldsman, Ellis L. Johnson, Anton J. Kleywegt, George L. Nemhauser:
A Stochastic Model of Airline Operations. Transp. Sci. 36(4): 357-377 (2002) - [c38]Natalie M. Steiger, Christos Alexopoulos, David Goldsman, Emily K. Lada, James R. Wilson, Faker Zouaoui:
Output analysis: ASAP2: an improved batch means procedure for simulation output analysis. WSC 2002: 336-344 - [c37]David Goldsman, Sébastien Pernet, Keebom Kang:
Logistics 1: simulation of transportation logistics. WSC 2002: 901-904 - [c36]Matthew Rosenshine, Russell R. Barton, David Goldsman, Lawrence M. Leemis, Barry L. Nelson:
Panel discussion on using simulation to teach probability: words and deeds: panel: using simulation to teach probability, session 1: words, session 2: deeds. WSC 2002: 1815-1822 - [c35]Hank Grant, Scott A. Moses, David Goldsman:
Supply chain planning: using simulation to evaluate buffer adjustment methods in order promising. WSC 2002: 1838-1845 - 2001
- [j8]Christos Alexopoulos, David Goldsman, Gamze Tokol:
Properties of Batched Quadratic-Form Variance Parameter Estimators for Simulations. INFORMS J. Comput. 13(2): 149-156 (2001) - [j7]Barry L. Nelson, Julie L. Swann, David Goldsman, Wheyming Tina Song:
Simple Procedures for Selecting the Best Simulated System When the Number of Alternatives is Large. Oper. Res. 49(6): 950-963 (2001) - [j6]Barry L. Nelson, David Goldsman:
Comparisons with a Standard in Simulation Experiments. Manag. Sci. 47(3): 449-463 (2001) - [c34]David Goldsman, Barry L. Nelson:
Statistical selection of the best system. WSC 2001: 139-146 - [c33]Seungman Lee, Amy R. Pritchett, David Goldsman:
Hybrid agent-based simulation for analyzing the national airspace system. WSC 2001: 1029-1036 - [c32]Christos Alexopoulos, David Goldsman, John Fontanesi, Mark Sawyer, Michelle De Guire, David Kopald, Kathy Holcomb:
Healthcare I: a discrete-event simulation application for clinics serving the poor. WSC 2001: 1386-1391 - 2000
- [c31]David Goldsman, Gamze Tokol:
Output analysis: output analysis procedures for computer simulations. WSC 2000: 39-45 - [c30]David Goldsman, William S. Marshall, Seong-Hee Kim, Barry L. Nelson:
Ranking and selection for steady-state simulation. WSC 2000: 544-553 - [c29]Jay M. Rosenberger, Andrew J. Schaefer, David Goldsman, Ellis L. Johnson, Anton J. Kleywegt, George L. Nemhauser:
Air transportation simulation: SimAir: a stochastic model of airline operations. WSC 2000: 1118-1122 - [c28]Amy R. Pritchett, Seungman Lee, David Huang, David Goldsman:
Hybrid-system simulation for National Airspace System safety analysis. WSC 2000: 1132-1142
1990 – 1999
- 1999
- [j5]Daniel H. Ockerman, David Goldsman:
Student t-tests and compound tests to detect transients in simulated time series. Eur. J. Oper. Res. 116(3): 681-691 (1999) - [j4]David Goldsman, Keebom Kang, Andrew F. Seila:
Cramér-von Mises Variance Estimators for Simulations. Oper. Res. 47(2): 299-309 (1999) - [j3]Robert D. Foley, David Goldsman:
Confidence intervals using orthonormally weighted standardized time series. ACM Trans. Model. Comput. Simul. 9(4): 297-325 (1999) - [c27]David Goldsman, Barry L. Nelson, Tracy Opicka, A. Alan B. Pritsker:
A ranking and selection project: experiences from a university-industry collaboration. WSC 1999: 83-92 - [c26]David Goldsman, William S. Marshall:
Selection procedures with standardized time series variance estimators. WSC 1999: 382-388 - 1998
- [c25]David Goldsman, Barry L. Nelson:
Statistical Screening, Selection, and Nultiple Comparison Procedures in Computer Simulation. WSC 1998: 159-166 - [c24]Lei Rao, Larry E. Owen, David Goldsman:
Development and Application of a Validation Framework for Traffic Simulation Models. WSC 1998: 1079-1086 - 1997
- [c23]David Goldsman, Bruce W. Schmeiser:
Computational Efficiency of Batching Methods. WSC 1997: 202-207 - [c22]Daniel H. Ockerman, David Goldsman:
The Impact of Transients on Simulation Variance Estimators. WSC 1997: 234-239 - 1996
- [c21]Lee Schruben, David Goldsman, Douglas J. Morrice:
Using Null Effects Estimators in the Analysis of Simulation Output. WSC 1996: 367-371 - 1995
- [e1]William R. Lilegdon, David Goldsman, Christos Alexopoulos, Keebom Kang:
Proceedings of the 27th conference on Winter simulation, WSC 1995, Arlington, VA, USA, December 3-6, 1995. IEEE Computer Society 1995, ISBN 0-7803-3018-8 [contents] - 1994
- [c20]David Goldsman, Barry L. Nelson:
Ranking, selection and multiple comparisons in computer simulations. WSC 1994: 192-199 - [c19]Russell R. Barton, Lee Schruben, James C. Ford, David Hopkins, David Goldsman, Kevin J. Healy:
USMED: broadening the impact of simulation analysis methodology (panel). WSC 1994: 1382-1386 - 1993
- [c18]Daniel Adelman, David Goldsman, Paul F. Auclair, James J. Swain:
Multinomial selection procedures for use in simulations. WSC 1993: 378-385 - 1992
- [j2]Robert G. Sargent, Keebom Kang, David Goldsman:
An Investigation of Finite-Sample Behavior of Confidence Interval Estimators. Oper. Res. 40(5): 898-913 (1992) - [c17]David Goldsman:
Simulation Output Analysis. WSC 1992: 97-103 - [c16]Benjamin Melamed, Jon R. Hill, David Goldsman:
The TES Methodology: Modeling Empirical Stationary Time Series. WSC 1992: 135-144 - 1991
- [j1]Bennett L. Fox, David Goldsman, James J. Swain:
Spaced batch means. Oper. Res. Lett. 10(5): 255-263 (1991) - [c15]David Goldsman, Barry L. Nelson, Bruce W. Schmeiser:
Methods for selecting the best system. WSC 1991: 177-186 - [c14]David Goldsman, Keebom Kang, Andrew F. Seila:
Cramér-von Mises variance estimators for simulations. WSC 1991: 916-920 - 1990
- [c13]David Goldsman, James J. Swain, David H. Withers:
Single-replication simulation. WSC 1990: 387-391
1980 – 1989
- 1988
- [c12]Robert D. Foley, David Goldsman:
Confidence intervals and orthonormally weighted standardized time series. WSC 1988: 422-424 - [c11]Douglas Gray, David Goldsman:
Indifference-zone selection procedures for choosing the best airspace configuration. WSC 1988: 445-450 - 1987
- [c10]David Goldsman:
Ranking and selection tutorial: 2-factor normal means procedures. WSC 1987: 52-57 - 1986
- [c9]David Goldsman, Keebom Kang, Robert G. Sargent:
Large and small sample comparisons of various variance estimators. WSC 1986: 278-284 - [c8]David Goldsman:
Tutorial on indifference-zone normal means ranking and selection procedures. WSC 1986: 370-375 - 1985
- [c7]David Goldsman:
Ranking and selection procedures using standardized time series. WSC 1985: 120-124 - [c6]David Goldsman, Marc S. Meketon:
A comparison between standardized time series and overlapping batched means. WSC 1985: 208-210 - [c5]Keebom Kang, David Goldsman:
The correlation between mean and variance estimators. WSC 1985: 211-216 - 1984
- [c4]David Goldsman:
On selecting the best of K systems: An expository survey of indifference-zone multinomial procedures. WSC 1984: 106-112 - [c3]David Goldsman:
A multinomial ranking and selection procedure: Simulation and applications. WSC 1984: 258-264 - 1983
- [c2]David Goldsman:
Ranking and selection in simulation. WSC 1983: 387-394 - 1982
- [c1]Lee Schruben, David Goldsman:
Using process central limit theorems in analyzing simulation output. WSC 1982: 599-602
Coauthor Index
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