Publications of H. D. Mittelmann

1. H. D. Mittelmann, Die Approximation der Lösungen gemischter Randwertprobleme quasilinearer elliptischer Differentialgleichungen, Computing 13, 253-265 (1974).

2. H. D. Mittelmann, Finite-Element Verfahren bei quasilinearen elliptischen Randwertproblemen, in "Numerische Behandlung nichtlinearer Integrodifferential- und Differential gleichungen", R. Ansorge, W. Törnig (eds.), Springer Lecture Notes in Mathematic s, vol. 395, 199-214, 1974.

3. H. D. Mittelmann, Stabilität bei der Methode der finiten Elemente für quasilineare elliptische Randwertprobleme, in "Numerische Behandlung von Differentialgleichungen", R. Ansorge, L. Collatz, G. Hämmerlin, W. Törnig (eds.), ISNM 27, 197-226, Birkhäuser-Verlag, Basel and Stuttgart, 1975.

4. H. D. Mittelmann, Existenz und Konvergenz von Lösungen diskreter Variationsprobleme, Z. Angew. Math. Mech. 55, T255-T257 (1975).

5. H. D. Mittelmann, Nichtlineare Dirichletprobleme und einfache finite-element Verfahren, Bonn. Math. Schr. 77, 46-61 (1975).

6. H. D. Mittelmann, Numerische Behandlung des Minimalflächenproblems mit finiten Elementen, in "Finite Elemente und Differenzenverfahren", J. Albrecht, L. Collatz (eds.), I SNM 28, 91-108, Birkhäuser-Verlag, Basel and Stuttgart, 1975.

7. H. D. Mittelmann, Zur gleichmässigen Konvergenz einer Finite-Elemente Lösung des Minimalflächen-problems, Z. Angew. Math. Mech. 56, T304-T306 (1976).

8. H. D. Mittelmann, Die Methode der finiten Elemente zur numerischen Lösung von Randwertproblemen quasilinearer elliptischer Differentialgleichungen. Habilitationsschrift, 99 pp., Technische Hochschule Darmstadt, 1976.

9. H. D. Mittelmann, Über die Methode der finiten Elemente zur numerischen Lösung elliptischer Randwertprobleme 2. Ordnung (with W. Törnig), Jahrbuch Überblicke Mathematik 1977, 89-105, Bibliographisches Institut, Mannheim.

10. H. D. Mittelmann, On pointwise estimates for a finite element solution of nonlinear boundary value problems, SIAM J. Num. Anal. 14, 773-778 (1977).

11. H. D. Mittelmann, Numerische Behandlung nichtlinearer Randwertprobleme mit finiten Elementen, Computing 18, 67-77 (1977).

12. H. D. Mittelmann, On the approximation of capillary surfaces in a gravitational field, Computing 18, 141-148 (1977).

13. H. D. Mittelmann, On the approximate solution of nonlinear variational inequalities, Numer. Math. 29, 451-462 (1978).

14. H. D. Mittelmann and H. Weber, Numerical methods for bifurcation problems - A survey and classification, in "Bifurcation Problems and their Numerical Solution", H. D. Mittelmann, H. Weber (eds.), ISNM 54, 1-45, Birkhäuser-Verlag, Basel and Stuttgart, 1980.

15. H. D. Mittelmann, On the efficient solution of nonlinear finite element equations I, Numer. Math. 35, 277-291 (1980).

16. H. D. Mittelmann, On the efficient solution of nonlinear finite element equations II. Bound-constrained problems, Numer. Math. 36, 375-387 (1981).

17. W. Höhn and H. D. Mittelmann, Some remarks on the discrete maximum-principle for finite elements of higher order, Computing 27, 145-154 (1981), PDF

18. H. D. Mittelmann, On the efficient solution of nonlinear finite element systems, in "Nonlinear Finite Element Analysis in Structural Mechanics", W. Wunderlich, E. Stein and K. J. Bathe (eds.), 621-636, Springer-Verlag, Berlin, 1981.

19. H. D. Mittelmann, On the numerical solution of contact problems, in "Numerical Solution of Nonlinear Equations", E. L. Allgower, K. Glashoff and H. O. Peitgen (eds.), Springer Lecture Notes in Mathematics, vol. 878, 259-274, 1981.

20. H. D. Mittelmann, Multi-grid methods for simple bifurcation problems, in "Multi-grid methods", W. Hackbusch, U. Trottenberg (eds.), Springer Lecture Notes in Mathematics, vol. 960, 558-575, 1982.

21. H. D. Mittelmann, Bifurcation problems for discrete variational inequalities, Math. Meth. in the Appl. Sci. 4, 243-258 (1982).

22. H. D. Mittelmann, A Bibliography on Numerical Methods for Bifurcation Problems, Preprint 56, (Angewandte Mathematik), 32 pp., Universität Dortmund, 1982.

23. H. D. Mittelmann, A fast solver for nonlinear eigenvalue problems, in "Iterative Solution of Nonlinear Systems", A. R. Ansorge, T. Meis and W. Törnig (eds.), Springer Lec ture Notes in Mathematics, vol. 953, 46-67, 1982.

24. W. Hackbusch and H. D. Mittelmann, On multi-grid methods for variational inequalities, Numer. Math. 42, 65-76 (1983).

25. H. D. Mittelmann, An efficient algorithm for bifurcation problems of variational inequalities, Math. of Comp. 41, 473-485 (1983).

26. H. D. Mittelmann and H. Weber, Multi-grid solution of bifurcation problems, SIAM J. Sci. Stat. Comp. 6, 49-60 (1985).

27. H. D. Mittelmann, Continuation near symmetry-breaking bifurcation points, in "Numerical Methods for Bifurcation Problems", T. Küpper, H. D. Mittelmann and H. Weber (eds.) , ISNM 70, Birkhäuser-Verlag, 319-334, 1984.

28. E. Miersemann and H. D. Mittelmann, A free boundary problem and stability for the nonlinear beam, Math. Meth. in the Appl. Sci. 8, 516-532 (1986).

29. H. D. Mittelmann, Multi-level continuation techniques for nonlinear boundary value problems with parameter-dependence, Appl. Math. Comp. 19, 265-282 (1986).

30. H. D. Mittelmann and B. T. Thomson, An algorithm that exploits symmetries in bifurcation problems, Notes on Numer. Fluid Mech. 16, 52-68 (1987).

31. H. D. Mittelmann, A pseudo-arclength continuation method for nonlinear eigenvalue problems, SIAM J. Numer. Anal. 23, 1007-1016 (1986).

32. R. Bank and H. D. Mittelmann, Continuation and multi-grid for nonlinear elliptic systems, in "Multigrid Methods II", W. Hackbusch, U. Trottenberg (eds.), Springer Lecture Notes in Mathematics, vol. 1228, 24-37, 1986.

33. H. D. Mittelmann, Multi-grid continuation and spurious solutions for nonlinear boundary value problems, Rocky Mountain Math. J. 18, 387-401 (1988).

34. E. Miersemann and H. D. Mittelmann, A free boundary problem and stability for the circular plate, Math. Meth. in the Appl. Sci. 9, 240-250 (1987).

35. H. D. Mittelmann, On continuation for variational inequalities, SIAM J. Numer. Anal. 24, 1374-1381 (1987).

36. F. Conrad, R. Herbin, and H. D. Mittelmann, Approximation of obstacle problems by continuation methods, SIAM J. Numer. Anal. 25, 1409-1431 (1988).

37. J. A. Cadzow and H. D. Mittelmann, Continuity of closest rank-p approximations to matrices, IEEE Trans. Acoust., Speech, Signal Processing, Vol. ASSP-35, 1211-1212 (1987).

38. E. Miersemann and H. D. Mittelmann, On the continuation for variational inequalities depending on an eigenvalue parameter, Math. Meth. in the Appl. Sci. 11, 95-104 (1989).

39. H. D. Mittelmann, Continuation methods for parameter-dependent boundary value problems, AMS Lectures in Appl. Math. 25, 159-175 (1990).

40. R. H. W. Hoppe and H. D. Mittelmann, A multi-grid continuation strategy for parameter-dependent variational inequalities, J. Comput. Appl. Math. 26, 35-46 (1989).

41. E. Miersemann and H. D. Mittelmann, Extension of Beckert's continuation method to variational inequalities, Math. Nachr. 148, 183-195 (1990).

42. R. E. Bank and H. D. Mittelmann, Stepsize selection in continuation procedures and damped Newton's method, J. Comput. Appl. Math. 26, 67-77 (1989).

43. U. Hornung and H. D. Mittelmann, A finite element method for capillary surfaces with volume constraints, J. Comput. Phys. 87, 126-136 (1990).

44. E. Miersemann and H. D. Mittelmann, Continuation for parametrized nonlinear variational inequalities, J. Comput. Appl. Math. 26, 23-34 (1989).

45. U. Hornung and H. D. Mittelmann, The augmented skeleton method for parametrized surfaces of liquid drops, J. Colloid Interface Sci. 133, 409-417 (1989).

46. H. D. Mittelmann, Nonlinear parametrized equations: new results for variational problems and inequalities, AMS Lectures in Appl. Math. 26, 451-466 (1990).

47. E. Miersemann and H. D. Mittelmann, A free boundary problem and stability for the rectangular plate, Math. Meth. in the Appl. Sci. 12, 129-138 (1990).

48. H. D. Mittelmann, The obstacle Bratu problem, AMS Lectures in Appl. Math. 26, 747-748 (1990).

49. H. D. Mittelmann, The augmented Skeleton method for parametrized capillary surfaces, in Proceedings of the Fifth International Symposium on Numerical Methods in Engineering Vol. 2, 227-234, R. Gruber, J. Periaux, and R. P. Shaw (eds.) Springer-Verlag, Berlin, 1989.

50. E. Miersemann and H. D. Mittelmann, On the stability in obstacle problems with applications to the beam and plate, Z. Angew. Math. Mech. 71, 311-321 (1991).

51. Y. Shen, G. P. Neitzel, D. F. Jankowski and H. D. Mittelmann, Energy stability of thermocapillary convection in a model of the float-zone, crystal-growth process, J. Fluid Mech. 217, 639-660 (1990).

52. H. D. Mittelmann, Computing stability bounds for thermocapillary convection in a crystal-growth free boundary problem, in "Free Boundary Problems," K.-H. Hoffmann, J. Sprekels (eds.), ISNM 95, 165-180, Birkhäuser-Verlag, Basel, 1990.

53. H. D. Mittelmann, Stability of Marangoni convection in a microgravity environment, in "Continuation and Bifurcations: Numerical Techniques and Applications," D. Roose, B. De Dier, and A. Spence (eds.), NATO ASI Series C, Vol. 313, 363-377, Kluwer, Dordrecht, 1990.

54. H. Maurer and H. D. Mittelmann, The nonlinear beam via optimal control with bounded state variables, Optimal Control Applications and Methods 12, 19-31 (1991).

55. H. D. Mittelmann, C. Law, D. F. Jankowski and G. P. Neitzel, A large sparse and indefinite generalized eigenvalue problem from fluid mechanics, SIAM J. Sci. Stat. Comp. 13, 411-424 (1992).

56. H. D. Mittelmann, Computation of parametrized capillary surfaces, in "Contributions to the Numerics of Partial Differential Equations," THD Schriftenreihe Wissenschaft und Technik, vol. 52, 187-202, Technical University of Darmstadt Press, Darmstadt, 1991.

57. E. Miersemann and H. D. Mittelmann, Stability and continuation of solutions to obstacle problems, J. Comp. Appl. Math. 35, 5-31 (1991).

58. E. Miersemann and H. D. Mittelmann, Stability in obstacle problems for the von Karman plate, SIAM J. Math. Anal. 23, 1099-1116 (1992).

59. H. D. Mittelmann, C. Law, D. F. Jankowski and G. P. Neitzel, Stability of thermocapillary convection in float-zone crystal growth, in "Numerical Methods for Free Boundary Problems," P. Neittaanmaki (ed.), ISNM99, 58-69, Birkhäuser-Verlag, Basel, 1991.

60. U. Hornung and H. D. Mittelmann, Bifurcation of axially symmetric capillary surfaces, J. Colloid Interface Sci. 146, 219-225 (1991).

61. G. P. Neitzel, C. C. Law, D. F. Jankowski and H. D. Mittelmann, Stability and instability of thermocapillary convection in models of float-zone crystal growth, in Proceedings of the AIAA/IKI Microgravity Sciences Symposium, Moscow, USSR, pp. 57-65, 13-17 May 1991.

62. G. P. Neitzel, C. C. Law, D. F. Jankowski and H. D. Mittelmann, Energy stability of thermocapillary convection in a model of the float-zone crystal-growth process. Part 2. Non-axisymmetric disturbances, Phys. Fluids A. 3, 2841-2846 (1991).

63. H. D. Mittelmann, K.-T. Chang, D. F. Jankowski and G. P. Neitzel, Linear stability of axisymmetric thermocapillary convection in crystal growth, in "Bifurcation and Symmetry," E. Allgower, K. Bohmer and M. Golubitsky (eds.), ISNM 104, 275-284, Birkhäuser-Verlag, Basel, 1992.

64. G. P. Neitzel, K.-T. Chang, D. F. Jankowski and H. D. Mittelmann, Linear-stability theory of thermocapillary convection in a model of float-zone crystal growth, Paper AIAA-92-0604, Proceedings of the AIAA 30th Aerospace Sciences Meeting, Reno, NV, January 6-9, 1992.

65. H. D. Mittelmann, Symmetric capillary surfaces in a cube, Math. Comp. Simulation 35, 139-152 (1993).

66. H. D. Mittelmann, G. P. Neitzel, K.-T. Chang and D. F. Jankowski, Iterative solution of the eigenvalue problem in Hopf bifurcation for the Boussinesq equations, SIAM J. Sci. Stat. Comp. 15, 704-712 (1994).

67. G. P. Neitzel, K.-T. Chang, D. F. Jankowski and H. D. Mittelmann, Linear-stability theory of thermocapillary convection in a model of the float-zone crystal growth process, Phys. Fluids A. 5, 108-114 (1993).

68. H. D. Mittelmann, Symmetric capillary surfaces in a cube, part II: Near the limit angle, AMS Lectures in Appl. Math. 29, 339-361 (1993).

69. H. D. Mittelmann, Stability analysis of thermocapillary convection in semiconductor crystal growth, in "Mathematical Modeling and Simulation of Electrical Circuits and Semiconductor Devices," R. E. Bank, R. Bulirsch, H. Gajewski and K. Merten (eds.), ISNM 117, 237-249, Birkhäuser-Verlag, Basel, 1994.

70. G. P. Neitzel, D. F. Jankowski, K.-T. Chang and H. D. Mittelmann, Thermocapillary convection instability in microgravity crystal growth, in Proceedings of the VIIIth European Symposium on Materials and Fluid Sciences in Microgravity, European Space Agency, ESA SP-333, 463-467, Paris, France, 1992.

71. H. D. Mittelmann, Hydrodynamic stability of thermocapillary convection in cylindrical liquid bridges, Math. Comp. Modelling 20, 175-188 (1994).

72. H. D. Mittelmann, Symmetric capillary surfaces in a cube, part III: More exotic surfaces, gravity, in "Advances in Geometric Analysis and Continuum Mechanics", P. Concus and K. Lancaster (eds.), 199-208, International Press, Boston, 1995. PS, PDF

73. R. A. Renaut and H. D. Mittelmann, Parallel multisplittings for optimization, Parallel Algor. Appl. 7, 17-27 (1995). PS, PDF

74. R. A. Renaut, H. D. Mittelmann and Q. He, Parallel multisplittings: overview and extensions, in "Proceedings of the Fifth SIAM Conference on Applied Linear Algebra," J. G. Lewis, editor, 34-38, SIAM Press, Philadelphia, 1994. PS, PDF

75. J.-P. Berrut and H. D. Mittelmann, Lebesgue constant minimizing linear rational interpolation of continuous functions over the interval, Computers Math. Applic. 33, 77-86 (1997). PS, PDF

76. H. D. Mittelmann, Parallel multisplittings for constrained optimization, Parallel Algor. Appl. 9, 91-99 (1996). PS, PDF

77. J.-P. Berrut and H. D. Mittelmann, Exponentially convergent linear rational interpolation between equidistant and other points, Meth. Appl. Anal. 4, 67-76 (1997). PS, PDF

78. H. D. Mittelmann and A. Zhu, Capillary surfaces with different contact angles in a corner, Microgravity Sci. Technol. 9, 22-27 (1996) PS, PDF

79. J.-P. Berrut and H. D. Mittelmann, Matrices for the direct determination of the barycentric weights of rational interpolation, J. Comp. Appl. Math. 78, 355-370 (1997). PS, PDF

80. H. D. Mittelmann, Stability of thermocapillary convection in the float-zone process for the manufacturing of semiconductors, pp. 371-388 in Proceedings of Recent Advances in Applied Mathematics, May 4-7, 1996, Kuwait University, Kuwait. PS, PDF

81. J. C. Butcher, Z. Jackiewicz, and H. D. Mittelmann, A nonlinear optimization approach to the construction of general linear methods of high order, J. Comp. Appl. Math. 81, 181-196 (1997). PS, PDF

82. F. C. Hoppensteadt and H. D. Mittelmann, Wave propagation in striated mathematical models of cortex, J. Math. Biol. 35, 988-994 (1997). PS, PDF, HTML

83. Z. Jackiewicz and H. D. Mittelmann, Exploiting structure in the construction of DIMSIMs, J. Comp. Appl. Math. 107, 233-239 (1999) PS, PDF

84. H. Maurer and H. D. Mittelmann, Optimization Techniques for Solving Elliptic Control Problems with Control and State Constraints. Part 1: Boundary Control, Comp. Optim. Applic. 16, 29-55 (2000) PS, PDF, HTML

85. H. D. Mittelmann, Benchmarking Interior Point LP/QP Solvers, Opt. Meth. Software 12, 655-670 (1999). PS, PDF

86. J.-P. Berrut and H. D. Mittelmann, Rational Interpolation Through the Optimal Attachment of Poles to the Interpolating Polynomial, Numer. Algor. 23, 315-328 (2000). PS, PDF, HTML

87. H. D. Mittelmann and H. Maurer, Solving Elliptic Control Problems with Interior Point and SQP Methods: Control and State Constraints, J. Comp. Appl. Math. 120, 175-195 (2000). PS, PDF, HTML

88. H. Maurer and H. D. Mittelmann, Optimization Techniques for Solving Elliptic Control Problems with Control and State Constraints. Part 2: Distributed Control, Comp. Optim. Applic. 18, 141-160 (2001). PS, PDF, HTML

89. J.-P. Berrut and H. D. Mittelmann, The Linear Rational Collocation Method with Iteratively Optimized Poles for Two-Point Boundary Value Problems, SIAM J. Sci. Comp. 23, 961-975 (2001). PS, PDF

90. H. D. Mittelmann, Verification of Second-Order Sufficient Optimality Conditions for Semilinear Elliptic and Parabolic Control Problems, Comp. Optim. Applic. 20, 93-110 (2001). PS, PDF, HTML

91. H. D. Mittelmann, Sufficient Optimality for Discretized Parabolic and Elliptic Control Problems, in Fast solution of discretized optimization problems, K.-H. Hoffmann, R.H.W. Hoppe, and V. Schulz (eds.), ISNM 138, Birkhäuser, Basel, 2001 PS, PDF, HTML

92. J.-P. Berrut and H. D. Mittelmann, Linear Rational Interpolation and its Application in Approximation and Boundary Value Problems, Rocky Mt. J. Math. 32, 527-544 (2002) PDF

93. H. D. Mittelmann, An Independent Benchmarking of SDP and SOCP solvers, Math. Progr. 95, 407-430 (2003) PS, PDF, HTML

94. H. D. Mittelmann and F. Tröltzsch, Sufficient Optimality in a Parabolic Control Problem, in: Trends in Industrial Mathematics, Applied Optimization, vol. 72, A.H. Siddiqi and M. Kocvara (eds), Kluwer, Dordrecht, The Netherlands, 2002 PS, PDF, HTML

95. J.-P. Berrut and H. D. Mittelmann, Point Shifts in Rational Interpolation with Optimized Denominator, in Proceedings of Algorithms for Approximation IV, University of Huddersfield, July 2001 PS, PDF

96. D. E. Rivera, M. W. Braun, and H. D. Mittelmann, Constrained Multisine Inputs for Plant-Friendly Identification of Chemical Processes, in Proceedings of IFAC World Congress, 21-27 July 2002, Barcelona, Spain PDF

97. Yu-Ju Kuo and H. D. Mittelmann, Interior Point Methods for Second Order Cone Programming and OR Applications, Comp. Optim. Applic. 28, 255-285 (2004) PS, PDF, HTML

98. J.-P. Berrut and H. D. Mittelmann, Adaptive point shifts in rational approximation with optimized denominator, J. Comp. Appl. Math. 164, 81-92 (2004) PS, PDF

99. H. D. Mittelmann and A. Pruessner, A Server for Automated Performance Analysis and Benchmarking of Optimization Software, Optim. Meth. Software 21, 105-120 (2006) PDF

100. H. Lee, D. E. Rivera, and H. D. Mittelmann, Constrained Minimum Crest Factor Multisine Signals for "Plant-Friendly" Identification of Highly Interactive Systems, in Proceedings of 13th IFAC Symposium on System Identification, 27-29 August 2003, Rotterdam, The Netherlands PDF

101. D. E. Rivera, H. Lee, M. W. Braun, and H. D. Mittelmann, "Plant-Friendly" System Identification: A Challenge for the Process Industries, in Proceedings of 13th IFAC Symposium on System Identification, 27-29 August 2003, Rotterdam, The Netherlands PDF

102. D. E. Rivera, H. Lee, H. D. Mittelmann, and M. W. Braun, Constrained Multisine Input Signals for Plant-Friendly Identification of Chemical Process Systems. J. Proc. Control 19, 623-635 (2009) PDF

103. H. Lee, D. E. Rivera, and H. D. Mittelmann, A Novel Approach to Plant-Friendly Multivariable Identification of Highly Interactive Systems, paper 436a at Annual AIChE Meeting , San Francisco, CA, November 16-21, 2003 PDF

104. J.-P. Berrut and H. D. Mittelmann, Optimized point shifts and poles in the linear rational pseudospectral method for boundary value problems, J. Comp. Phys. 204, 292-301 (2005) PDF

105. J.-P. Berrut, R. Baltensperger, and H. D. Mittelmann, Recent developments in barycentric rational interpolation, in Trends and Applications in Constructive Approximation, D. H. Mache, J. Szabados, and M. G. de Bruin (eds.), ISNM 151, Birkhaeuser, Basel, 2005 PDF

106. H. D. Mittelmann, G. Pendse, D. E. Rivera, and H. Lee, Optimization-based Design of Plant-Friendly Multisine Signals using Geometric Discrepancy Criteria, Comp. Optim. Applic. 38, 173-190 (2007) PDF

107. H. D. Mittelmann and G. Pendse, Optimal Input Signal Design in Data-Centric System Identification, in Modern Mathematical Models, Methods and Algorithms for Real World Systems, A.H. Siddiqi, I.Duff, and O.Christensen (eds.), Anamaya Publishers, New Delhi-London, 2006, pp. 14-59. PDF

108. D. E. Rivera, H. Lee, H. D. Mittelmann, and G. Pendse, Optimization-based Design of Plant-Friendly Multisine Signals using Geometric Discrepancy Criteria, 14th IFAC Symposium on System Identification (SYSID 2006), Newcastle, Australia, March 29-31, 2006 PDF

109. H.S. Sarjoughian, D. Huang, G.W. Godding, K.G. Kempf, W. Wang, D.E. Rivera, and H.D. Mittelmann, Hybrid Discrete Event Simulation with Model Predictive Control for Semiconductor Supply-Chain Manufacturing, Proceedings of the 2005 Winter Simulation Conference PDF

110. D. E. Rivera, H. Lee, H. D. Mittelmann, and G. Pendse, Optimization-based Design of Plant-Friendly Input Signals for Data-Centric Estimation and Control, Annual AIChE Meeting, paper 242k, Cincinnati, OH, October 31 - November 4, 2005 PDF

111. H. Mittelmann, J. Peng, and X. Wu, Graph Modeling for Quadratic Assignment Problems Associated with the Hypercube. AIP Conference Proceedings 1146, 65-79 (2009) PDF

112. H. Lee, D. E. Rivera, H. D. Mittelmann, and G. Pendse, Optimization-based Design of Plant-Friendly Input Signals for Model-On-Demand Estimation and Model Predictive Control, in Proceedings of 2007 American Control Conference PDF

113. D. E. Rivera, H. Lee, H. D. Mittelmann, and M. W. Braun. High-Purity Distillation - Using plant-friendly multisine signals to identify a strongly interactive process. IEEE Control Systems Magazine 27 no.5, 72-89 (2007) PDF

114. H. D. Mittelmann, DTOS - A Service for the Optimization Community, SIAG/OPT Views-and-News, 18, 17-20 (2007) PDF

115. H. D. Mittelmann, State-of-the-Art in the Solution of Control-Related Nonlinear Optimization Problems. Indian J Ind&Appl Math 1, 24-41 (2007) PDF

116. W. Wang, D. E, Rivera, and H. D. Mittelmann. Inner And Outer Loop Optimization In Semiconductor Manufacturing Supply Chain Management. Comput. Managmt. Sci. 6, 411-434 (2009) PDF

117. R. Saxena, A. Gelb, and H. D. Mittelmann. A High Order Method for Determining Edges in the Gradient of a Function, Comm. Comp. Phys. 5, 694-711 (2009) PDF

118. D. Huang, H. Sarjoughian, W. Wang, G. Godding, D. Rivera, K. Kempf, and H. Mittelmann, Simulation of Semiconductor Supply-Chain Systems with DEVS, KIB, and MPC, IEEE Transactions on Semiconductor Manufacturing 22, 164-174 (2009) PDF

119. H. D. Mittelmann, J. Peng, Estimating Bounds for Quadratic Assignment Problems Associated with the Hamming and Manhattan Distance Matrices based on Semidefinite Programming, SIAM J. Optim. 20, 3408-3426 (2010) PDF

120. J. Peng, H. D. Mittelmann, X. Li, A New Relaxation Framework for Quadratic Assignment Problems based on Matrix Splitting, Math. Prog. Comp. 2, 59-77 (2010) PDF

121. H. D. Mittelmann and F. Vallentin, High Accuracy Semidefinite Programming Bounds for Kissing Numbers, Exper. Math. 19, 174-179 (2010) PDFor PDF

122. A. Bordner, H. D. Mittelmann, Prediction of the binding affinities of peptides to class II MHC using a regularized thermodynamic model. BMC Bioinformatics 2010, 11:41. PDF

123. X, Wu, H. D. Mittelmann, X. Wang, and J. Wang, On Computation of Performance Bounds of Optimal Index Assignment, Data Compression Conference (DCC) 2010, IEEE, DOI 10.1109/DCC.2010.24, 189-198 PDF

124. D. C. Gijswijt, H. D. Mittelmann, and A. Schrijver, Semidefinite code bounds based on quadruple distances, IEEE Transactions on Information Theory 58(5), 2697-2705 (2012), DOI 10.1109/TIT.2012.2184845 PDF

125. H. D. Mittelmann, The state-of-the-art in conic optimization software, Handbook of Semidefinite, Cone and Polynomial Optimization (M. Anjos and J. Lasserre eds), Springer International Series in Operations Research and Management Science, Volume 166, DOI: 10.1007/978-1-4614-0769-0, 671-686 (2012) PDF

126. A. J. Bordner and H. D. Mittelmann, MultiRTA: A simple yet reliable method for predicting peptide binding affinities for multiple class II MHC allotypes, BMC Bioinformatics 2010,11:482 PDF

127. X. Wu, H. D. Mittelmann, X. Wang, and J. Wang, On Computation of Performance Bounds of Optimal Index Assignment, IEEE Trans Comm 59(12), 3229-3233 (2011) DOI: 10.1109/TCOMM.2011.081111.100300 PDF

128. A. Cardone, Z. Jackiewicz, and H. D. Mittelmann, Optimization-based search for Nordsieck methods of high order with quadratic stability, Math Modeling and Analysis 17, 293-308 (2012) PDF

129. T. Koch et al, MIPLIB 2010: Mixed Integer Program Library version 5, Math Prog Comp 3, 103-163 (2011) PDF

130. M-H Kao and H. D. Mittelmann, A Fast Algorithm for Constructing Efficient Event-Related fMRI designs, J.Stat.Comput.Simul. 84(11) 2391-2407 (2014), DOI 10.1080/00949655.2013.804524 PDF

131. H. Zhang, G. Th. Heydt, V. Vittal, and H. D. Mittelmann, Transmission Expansion Planning Using an AC Model: Formulations and Possible Relaxations, in Proceedings of IEEE PESGM2012, DOI 10.1109/PESGM.2012.6345410 PDF

132. S. Ragi, H. D. Mittelmann, and E. K. P. Chong, Directional Sensor Control for Maximizing Information Gain, Proc. SPIE 8857, Signal and Data Processing of Small Targets 2013, 88570J (September 30, 2013); doi:10.1117/12.2022451 PDF

133. A. J. Bordner and H. D. Mittelmann, A new Formulation of Protein Evolutionary Models that Account for Structural Constraints, Molecular Biology and Evolution 31(3), 736-749 (2014) PDF

134. H. D. Mittelmann and D. Salvagnin, Exact and Heuristic Approaches for Directional Sensor Control, IEEE Sensors Journal, 15(11), 6633-6639 (2015) PDF

135. H. D. Mittelmann and D. Salvagnin, On Solving a Hard Quadratic 3-Dimensional Assignment Problem, Math Progr Comput 7(2), 219-234 (2015) PDF

136. S. Ragi, H. D. Mittelmann, and E. K. P. Chong, Directional Sensor Control: Heuristic Approaches, IEEE Sensors Journal, 15(1), 374-381 (2014) PDF

137. H. Abbas, G. Fainekos, and H.D. Mittelmann, Formal property verification in a conformance testing framework, Twelfth ACM/IEEE International Conference on Formal Methods and Models for Codesign (MEMOCODE), 2014, 155-164, doi=10.1109/MEMCOD.2014.6961854 PDF

138. W. Wu, H. D. Mittelmann, and Z. Ding, Modulation Design for Two-Way Amplify-and-Forward Relay HARQ, IEEE Wireless Communication Letters 5(3) pp. 244-247 (2016) PDF

139. Z. Jackiewicz and H. D. Mittelmann, Construction of IMEX DIMSIMs of high order and stage order, Appl. Numer. Math. 121 pp. 234-248 (2017) PDF

140. W. Wu, H. D. Mittelmann, and Z. Ding, Statistical Analysis of a Posteriori Channel and Noise Distribution Based on HARQ Feedback, arXiv:1601.04131 [cs.IT] PDF

141. W. Wu, H. D. Mittelmann, and Z. Ding, Modulation Design for MIMO-CoMP HARQ, IEEE Communic. Letters 21(2) pp. 290-293 (2017) PDF

142. S. Ragi, H. D. Mittelmann, and E.K.P. Chong, Heuristic Algorithms for Designing Unimodular Code Sequences with Performance Guarantees, ICASSP 2017 proceedings, pp. 3221-3225 PDF

143. S. Ragi and H. D. Mittelmann, Mixed-Integer Nonlinear Programming Formulation of a UAV Path Optimization Problem, ACC 2017 proceedings, pp. 406-411 PDF

144. C. D. Chapman, A. R. Margetts, H. D. Mittelmann, and D. W. Bliss, Achievable Rates for a LAN-Limited Distributed Receiver in Gaussian Interference, Entropy 2018, 20(4), 269 PDF

145. S. Ragi, H. D. Mittelmann, and E.K.P. Chong, Polynomial-time Methods to Solve Unimodular Quadratic Programs with Performance Guarantees, IEEE Trans. on Aerosp. and Electronic Syst. 55(5), 2118-2127 (2019) PDF

146. F. Furini et al, QPLIB: A Library of Quadratic Programming Instances, Math Prog Comp 11(2), pp 237-265 (2019) PDF

147. H. D. Mittelmann, Combinatorial Optimization Problems in Engineering Applications, in Numerical Analysis and Optimization, NAO-IV, Muscat, Oman, January 2017 (Eds. M. Al-Baali, L. Grandinetti, and A. Purnama), pp 193-208, Springer Verlag, 2018 PDF

148. S. Bowly, K. Smith-Miles, D. Batar, H. Mittelmann, Generation techniques for linear and integer programming instances with controllable properties, Math Prog Comp 12, pp 389-415 (2020) PDF

149. A. R. Chiriath, S. Ragi, H. D. Mittelmann, D. W. Bliss, Novel Radar Waveform Optimization for a Cooperative Radar-Communications System, IEEE Trans. Aerospace and Electronic Systems 55(3), pp 1160-1173, 2019. DOI 10.1109/TAES.2019.2908739 PDF

150. A. R. Chiriath, S. Ragi, H. D. Mittelmann, D. W. Bliss, Radar Waveform Optimization for Joint Radar Communications Performance, Electronics 2019, 8(12), 1498 PDF

151. A. Gleixner et al, MIPLIB 2017: Data-Driven Compilation of the 6th Mixed-Integer Programming Library, Math Prog Comp 13, 443--490 (2021) PDF

152. A. Md Ali, S. Dey, H. D. Mittelmann, S. Ragi, Average Consensus-Based Data Fusion in Networked Sensor Systems for Target Tracking, in 10th Annual Computing and Communication Workshop and Conference (CCWC), Las Vegas, NV, Jan 06--08, 2020, pp. 964--969 PDF

153. S. Ragi, S. Dey, A. M. Ali, H. D. Mittelmann: Competing Objective Optimization in Networked Swarm Systems, Proceedings of IEEE National Aerospace and Electronics Conference, NAECON 2019, pp 88-91 PDF

154. S. Biswal, K. Elamvazhuthi, H. Mittelmann, S. Berman, Spectral Gap Optimization of Divergence Type Diffusion Operators, Proceedings of European Control Conference 2020, pp 1268 - 1273 PDF

155. H. D. Mittelmann, Benchmarking Optimization Software - a (Hi)Story, SpringerNature OR-Forum, issue 1, article 2, March 2020 PDF

G 156. S. Ragi and H. D. Mittelmann, Random-Sampling Multipath Hypothesis Propagation for Cost Approximation in Long-Horizon Optimal Control, Proceedings of the 2020 IEEE Conference on Control Technology and Applications (CCTA), Montreal, Canada, August 24--26, 2020, pp. 14--18. PDF

157. S. A. Doly, S. Ragi, A. Chiriyath, H. D. Mittelmann. D.W. Bliss, A decision theoretic approach for waveform design in joint radar communications applications, Proceedings of the 54th Asilomar Conference on Signals, Systems and Computers (Asilomar 2020), Pacific Grove, CA, Nov 01--04, 2020, pp. 6--11. PDF

158. S. Ragi and H. D. Mittelmann, Random-Sampling Multipath Hypothesis Propagation for Cost Approximation in Long-Horizon Optimal Control, IEEE Control Systems Letters, 5(5), pp 1759-1764 (2021) PDF

159. A. Md Ali, H. D. Mittelmann, S. Ragi, UAV Formation Shape Control via Decentralized Markov Decision Processes, Algorithms, special issue on Algorithms in Stochastic Models, vol. 14, no. 3, Mar 2021. PDF

160. S. A. Doly, A. Chiriyath, H. D. Mittelmann, D. W. Bliss, and S. Ragi, "Waveform codesign for radar-communications spectral coexistence via dynamic programming," IEEE Transactions on Aerospace and Electronic Systems 58(5), 4315-4326 (2022), doi: 10.1109/TAES.2022.3162567.

161. L. Alkhalifa and H. Mittelmann, New Algorithm to Solve Mixed Integer Quadratically Constrained Quadratic Programming Problems Using Piecewise Linear Approximation, Mathematics 2022, 10(2),198 PDF

162. F. Safdarian et al, Grid Optimization Competition on Synthetic and Industrial Power Systems, Proceedings of 54th North American Power Symposium NAPS 2022, DOI: 10.1109/NAPS56150.2022.10012138 PDF

163. K. Fuji, S. Kim, M. Kojima, H. D. Mittelmann, and Y. Shinano, An Exceptionally Difficult Binary Quadratic Optimization Problem with Symmetry: a Challenge for The Largest Unsolved QAP Instance Tai256c, submitted to Optimization Letters, PDF

Revised: December 2023