Bibliography for the Use of Matlab

unabridged

 

  1. Introduction to Matlab Programming
    Mathews, John; Fink, Kurtis
    Numerical Methods Using Matlab, 4th, 2004, Prentice-Hall Pub. Inc.
  2. Numerical computing with MATLAB  
    Moler, Cleve B.
    Society for Industrial and Applied Mathematics, Philadelphia, PA, 2004. xii+336 pp., MathSciNet.  
  3. Computer technology of Interval-Set Analysis in MATLAB
    Zelik, Ya.I.; Lichak, M.M.
    Kibernetika i Sistemnyj Analiz, n 1, 2004, p 122-134, Compendex.
  4. Iterative methods for image deblurring: a Matlab object-oriented approach.
    Nagy, James G.; Palmer, Katrina; Perrone, Lisa
    Numer. Algorithms 36 (2004), no. 1, 73--93, MathSciNet.  
  5. HEART: An automated beat-to-beat cardiovascular analysis package using Matlab [registered trademark]
    Schroeder, Mark J.; Perreault, Bill; Ewert, Daniel L.; Koenig, Steven C.; Perreault, William G.
    Computers in Biology and Medicine, v 34, n 5, July, 2004, p 371-388, Compendex.
  6. Development of Web-Based Engineering Numerical Software (WENS) Using Matlab: Applications to Linear Algebra
    Kim, A. S.; Park, C.; Park, S.-H.
    Computer Applications in Engineering Education, 2003, vol. 11, no. 2, pp. 67-74, Ingenta.  
  7. GloptiPoly: global optimization over polynomials with Matlab and SeDuMi.
    Henrion, Didier; Lasserre, Jean-Bernard
    ACM Trans. Math. Software 29 (2003), no. 2, 165--194, MathSciNet.  
  8. MATCONT: A MATLAB Package for Numerical Bifurcation Analysis of ODEs
    Dhooge, A.; Govaerts, W.; Kuznetsov, Y. A.
    ACM Transactions on Mathematical Software, 2003, vol. 29, no. 2, pp. 141-164, Ingenta.  
  9. Consistent initialization for nonlinear index-2 differential-algebraic equation: large sparse systems in MATLAB.
    Hanke, Michael; Lamour, René
    Numer. Algorithms 32 (2003), no. 1, 67--85, MathSciNet.  
  10. Algorithm 827: irbleigs: a MATLAB program for computing a few eigenpairs of a large sparse Hermitian matrix.
    Baglama, J.; Calvetti, D.; Reichel, L.
    ACM Trans. Math. Software 29 (2003), no. 3, 337--348, MathSciNet.  
  11. Method in spectrum analysis with artificial neural network based on MATLAB
    Bai, Li-Xin; Zhang, Yi-Yun; Xu, Jia-Yun; Wu, Li-Ping
    Hedianzixue Yu Tance Jishu/Nuclear Electronics and Detection Technology, v 23, n 5, September, 2003, p 404 Language: Chinese, Compendex.
  12. Solving  0 = F(t,y(t),y'(t))  in Matlab  
    Shampine, L. F.
    J. Numer. Math. 10 (2002), no. 4, 291--310, MathSciNet.  
  13. Teaching nonlinear modeling, simulation, and control of electronic power converters using MATLAB/SIMULINK
    Pires, Vitor Fernao; Silva, Jose Fernando A.
    IEEE Transactions on Education, v 45, n 3, August, 2002, p 253-261, Compendex.
  14. Development of matrix method based structural analysis toolbox in Matlab
    Arfiadi, Y.; Hadi, M.N.S.
    International Conference on Computational Structures Technology - Proceedings, 2002, p 13-14, Compendex.
  15. GniCodes---Matlab programs for geometric numerical integration.
    Hairer, Ernst; Hairer, Martin
    Frontiers in numerical analysis (Durham, 2002), 199--240, Universitext, Springer, Berlin, 2003. 65-04, MathSciNet.  
  16. Matlab implementation of the finite element method in elasticity.
    Alberty, J.; Carstensen, C.; Funken, S. A.; Klose, R.
    Computing 69 (2002), no. 3, 239--263, MathSciNet.  
  17. Linear unidimensional scaling in the L2-norm: basic optimization methods using MATLAB.
    Hubert, L. J.; Arabie, P.; Meulman, J. J.
    J. Classification 19 (2002), no. 2, 303--328, MathSciNet.  
  18. Nine ways to implement the binomial method for option valuation in MATLAB.
    Higham, Desmond J.
    SIAM Rev. 44 (2002), no. 4, 661--677, MathSciNet.  
  19. Elastoviscoplastic finite element analysis in 100 lines of Matlab.  
    Carstensen, C.; Klose, R.
    J. Numer. Math.  10  (2002),  no. 3, 157--192, MathSciNet.  
  20. Matlab code for sorting real Schur forms.
    Brandts, J. H.
    Numer. Linear Algebra Appl. 9 (2002), no. 3, 249--261, MathSciNet.  
  21. Solving DDEs in MATLAB  
    Shampine, L. F.; Thompson, S.
    Appl. Numer. Math. 37 (2001), no. 4, 441--458, MathSciNet.  
  22. Stokes flow around an asymmetric channel divider; a computational approach using MATLAB.
    Fehribach, Joseph D.; Davis, Anthony M. J.
    Special issue on practical asymptotics. J. Engrg. Math. 39 (2001), no. 1-4, 207--220, MathSciNet.  
  23. Development of a MATLAB toolbox for a class of 2D linear systems
    Galkowski, Krzysztof; Rogers, Eric; Gramacki, Jaroslaw; Gramacki, Artur; Owens, David H.
    Systems Analysis Modelling Simulation, v 39, n 4, 2001, p 507-519, Compendex.
  24. A BVP solver based on residual control and the MATLAB PSE.
    Kierzenka, Jacek; Shampine, Lawrence F.
    ACM Trans. Math. Software 27 (2001), no. 3, 299--316, MathSciNet.  
  25. A 99 line topology optimization code written in matlab
    Sigmund, O.  
    Structural and Multidisciplinary Optimization, v 21, n 2, April, 2001, p 120-127, Compendex.
  26. DiffMan: an object-oriented MATLAB toolbox for solving differential equations on manifolds.
    Engø, Kenth; Marthinsen, Arne; Munthe-Kaas, Hans Z.
    Special issue: Themes in geometric integration. Appl. Numer. Math. 39 (2001), no. 3-4, 323--347, MathSciNet.  
  27. Describing function analysis using MATLAB and simulink
    Schwartz, C.; Gran, R.
    IEEE Control Systems Magazine, v 21, n 4, August, 2001, p 19-26, Compendex.
  28. Computing optimal control on MATLAB---the SCOM package and economic growth models.
    Craven, B. D.; Islam, S. M. N.
    Optimization and related topics (Ballarat/Melbourne, 1999), 61--70, Appl. Optim., 47, Kluwer Acad. Publ., Dordrecht, 2001, MathSciNet.  
  29. The making of GABLE: a geometric algebra learning environment in Matlab.
    Mann, Stephen; Dorst, Leo; Bouma, Tim
    Geometric algebra with applications in science and engineering (Ixtapa-Zihuatanejo, 1999), 491--511, Birkhäuser Boston, Boston, MA, 2001, MathSciNet.  
  30. Fast verification algorithms in Matlab.
    Rump, Siegfried M.
    Symbolic algebraic methods and verification methods (Dagstuhl, 1999), 209--226, Springer, Vienna, 2001, MathSciNet.  
  31. Development of a MATLAB toolbox for a class of 2D linear systems
    Galkowski, Krzysztof; Rogers, Eric; Gramacki, Artur; Gramacki, Jaroslaw; Owens, David H.
    Systems Analysis Modelling Simulation, v 38, n 2, 2000, p 313-324, Compendex.
  32. A MATLAB differentiation matrix suite
    Weideman, J.A.C.; Reddy, S.C.
    ACM Transactions on Mathematical Software, v 26, n 4, December, 2000, p 465-519, Compendex.
  33. Behind and beyond the MATLAB ODE suite.
    Ashino, R.; Nagase, M.; Vaillancourt, R.
    Comput. Math. Appl. 40 (2000), no. 4-5, 491--512, MathSciNet.  
  34. ADMIT-1: Automatic differentiation and MATLAB interface toolbox
    Coleman, Thomas F.; Verma, Arun
    ACM Transactions on Mathematical Software, v 26, n 1, March, 2000, p 150-175, Compendex.
  35. Using dynamical system tools in Matlab.
    Choe, Won Gyu; Guckenheimer, J.
    Numerical methods for bifurcation problems and large-scale dynamical systems (Minneapolis, MN, 1997), 85--113, IMA Vol. Math. Appl., 119, Springer, New York, 2000. 65-04, MathSciNet.  
  36. Application of MATLAB in seismic analysis of structures
    Lai, Wei; Zhou, Zhihao
    Chengdu Kejidaxue Xuebao/Journal of Chengdu University of Science and Technology, v 32, n 5, Sep 20, 2000, p 14-17 Language: Chinese, Compendex.
  37. MATLAB for beginners
    Doerr, Christopher R.
    Optics and Photonics News, v 10, n 7, July, 1999, p 41-42, Compendex.
  38. Using SeDuMi 1.02, a MATLAB toolbox for optimization over symmetric cones.
    Sturm, Jos F.
    Interior point methods. Optim. Methods Softw. 11/12 (1999), no. 1-4, 625--653, MathSciNet.  
  39. Teaching DSP concepts using MATLAB and the TMS320C31 DSK
    Wright, Cameron H.G.; Welch, Thad B.; Gomes, Walter J. III
    ICASSP, IEEE International Conference on Acoustics, Speech and Signal Processing - Proceedings, v 6, 1999, p 3573-3576, Compendex.
  40. SDPHA: a MATLAB implementation of homogeneous interior-point algorithms for semidefinite programming.
    Brixius, Nathan; Potra, Florian A.; Sheng, Rongqin
    Interior point methods. Optim. Methods Softw. 11/12 (1999), no. 1-4, 583--596, MathSciNet.
  41. SDPT3---a MATLAB software package for semidefinite programming, version 1.3. Interior point methods.
    Toh, K. C.; Todd, M. J.; Tütüncü, R. H.
    Optim. Methods Softw. 11/12 (1999), no. 1-4, 545--581, MathSciNet.
  42. Solving index-1 DAEs in MATLAB and Simulink.
    Shampine, Lawrence; Reichelt, Mark W.; Kierzenka, Jacek A.
    SIAM Rev. 41 (1999), no. 3, 538--552 (electronic), MathSciNet.
  43. Remarks around 50 lines of Matlab: short finite element implementation.
    Alberty, Jochen; Carstensen, Carsten; Funken, Stefan A.
    Numer. Algorithms 20 (1999), no. 2-3, 117--137, MathSciNet.
  44. UTV tools: Matlab templates for rank-revealing UTV decompositions.
    Fierro, Ricardo D.; Hansen, Per Christian; Hansen, Peter Søren Kirk
    Numer. Algorithms 20 (1999), no. 2-3, 165--194, MathSciNet.
  45. QPECgen, a MATLAB generator for mathematical programs with quadratic objectives and affine variational inequality constraints.
    Jiang, Houyuan; Ralph, Daniel
    Computational optimization---a tribute to Olvi Mangasarian, Part II. Comput. Optim. Appl. 13 (1999), no. 1-3, 25--59, MathSciNet.
  46. Modeling and solution environments for MPEC: GAMS & MATLAB.
    Dirkse, Steven P.; Ferris, Michael C.
    Reformulation: nonsmooth, piecewise smooth, semismooth and smoothing methods (Lausanne, 1997), 127--147, Appl. Optim., 22, Kluwer Acad. Publ., Dordrecht, 1999, MathSciNet.
  47. Towards the integration of computer-based instruction with Matlab
    Al-Holou, Nizar; Mohankrishnan, N.
    ASEE Annual Conference Proceedings, 1998, 8pp, Compendex.
  48. Solving large-scale linear programs by interior-point methods under the MATLAB environment.
    Zhang, Yin
    Optim. Methods Softw. 10 (1998), no. 1, 1--31, MathSciNet.
  49. Solving large-scale linear programs by interior-point methods under the MATLAB environment
    Zhang, Yin (Rice Univ)
    Optimization Methods and Software, v 10, n 1, 1998, p 1-31, Compendex.
  50. Convergence results for the MATLAB ODE23 routine.
    Lamba, H.; Stuart, A. M.
    BIT 38 (1998), no. 4, 751--780, MathSciNet.
  51. MATLAB educational software tool for teaching complex analysis in engineering
    Carreras, Francisco; Snider, Arthur D.
    Conference Proceedings - IEEE SOUTHEASTCON, 1998, p 204-207, Compendex.
  52. Fast algorithms of Fourier and Hartley transform and their implementation in MATLAB.
    Vesel\'y, Vítezslav
    Summer School DATASTAT 97, Proceedings (Hodocirc unka), 185--232, Folia Fac. Sci. Natur. Univ. Masaryk. Brun. Math., 7, Masaryk Univ., Brno, 1998, MathSciNet.
  53. On Solving Generalized Eigenvalue Problems Using MATLAB
    Faber, K.
    Journal of Chemometrics, v 11, n 1, 1997, p 87, Compendex.
  54. Analysis and simulation of nonlinear systems using students version of Matlab
    Moose, R.L.; Vanlandingham, H.F.; Mclellan, Neil
    Conference Proceedings - IEEE SOUTHEASTCON, Engineering the New Century, 1997, p 58-62, Compendex.
  55. Quadratic and quartic splines in MATLAB.
    Kobza, Jirí
    Summer Schools MATLAB 94, 95 Proceedings (Velké Karlovice, 1994;  Cerínek, 1995), 47--65, Folia Fac. Sci. Natur. Univ. Masaryk. Brun. Math., 5, Masaryk Univ., Brno, 1997, MathSciNet.
  56. Speech signal analysis, synthesis and recognition exercises using MATLAB
    King, Robin W.  
    International Journal of Electrical Engineering Education, v 34, n 2, Apr, 1997, p 161-172, Compendex.
  57. Spline toolbox in MATLAB.
    Kobza, J.; Kucera, R.
    Summer Schools MATLAB 94, 95 Proceedings (Velké Karlovice, 1994;  Cerínek, 1995), 25--46, Folia Fac. Sci. Natur. Univ. Masaryk. Brun. Math., 5, Masaryk Univ., Brno, 1997, MathSciNet.
  58. The MATLAB ODE suite. Dedicated to C. William Gear on the occasion of his 60th birthday.
    Shampine, Lawrence F.; Reichelt, Mark W.
    SIAM J. Sci. Comput. 18 (1997), no. 1, 1--22, MathSciNet.
  59. Software for Modeling Kinetic Phenomena (in Statistical Computing; Statistical Computing Software Reviews)  
    John C. Nash; Tony K. Quon  
    The American Statistician, Vol. 50, No. 4. (Nov., 1996), pp. 368-378, Jstor.  
  60. Turbocharging MATLAB for the classroom
    Kmiecik, Chris; Hartnett, Richard
    Proceedings - Frontiers in Education Conference, v 2, Technology-Based Re-Engineering Engineering Education, 1996, p 620-623, Compendex.
  61. Development of a MATLAB toolbox for trajectory optimization and planning
    Psiaki, Mark L.  
    NASA Conference Publication, n 10187, 1996, p 85, Compendex.
  62. Using MATLAB to teach mathematical modeling and simulation to associate in applied science in electrical engineering technology students
    Conant, Christopher J.  
    ASEE Annual Conference Proceedings, v 2, Investing in the Future, 1995, p 2311-2315, Compendex.
  63. MATLAB environment for teaching and research in adaptive signal processing and spectral estimation
    Chambers, Jonathon
    Engineering Science and Education Journal, v 4, n 5, Oct, 1995, p 217, Compendex.
  64. Using MATLAB as a programming language for numerical analysis.
    Mathews, J.H.; Fink, K.D.
    International journal of mathematical education in science and technology, 1994, vol. 25, no. 4, pp. 481-490, Ingenta.  
  65. Finite difference analysis with MATLAB and VMAP in undergraduate instruction
    Wheless, W.P.; Wheless, C.S.
    Annual Review of Progress in Applied Computational Electromagnetics, v 2, 1994, p 536, Compendex.
  66. Using MATLAB to Obtain both Numerical and Graphical Solutions to Hyperbolic P.D.E.'s
    John H. Mathews
    Computers in Education Division of the American Society of Engineering Education, January-March 1994, Vol. IV, No. 1, pp. 58-60, Ingenta.  
  67. Regularization tools: a Matlab package for analysis and solution of discrete ill-posed problems.
    Hansen, Per Christian
    Numer. Algorithms 6 (1994), no. 1-2, 1--35, MathSciNet.
  68. Teaching DSP using Matlab
    Burrus, C.S.  
    IEEE Digital Signal Processing Workshop, 1994, p 127-130, Compendex.
  69. MATLAB operators of left/right division and generalized inverse.
    Vesely, Vítezslav
    Summer School MATLAB 93 Proceedings (Blato, 1993), 25--40, Folia Fac. Sci. Natur. Univ. Masaryk. Brun. Math., 4, Masaryk Univ., Brno, 1994, MathSciNet.
  70. VSC MATLAB Toolbox for multivariable variable structure control systems.
    Zinober, A. S. I.; Woodham, C. A.
    Pure Math. Appl. 4 (1993), no. 1, 83--97, MathSciNet.
  71. MATLAB-software for parameter estimation in two-point boundary value problems.
    Kroller, M.; Kunisch, K.
    Identification and control in systems governed by partial differential equations (South Hadley, MA, 1992), 59--68, SIAM, Philadelphia, PA, 1993, MathSciNet.
  72. Automatic differentiation in MATLAB
    Rich, Lawrence C.; Hill, David R.
    Applied Numerical Mathematics, v 9, n 1, Jan, 1992, p 33-43, Compendex.
  73. Sparse matrices in MATLAB: design and implementation.  
    Gilbert, John R.; Moler, Cleve; Schreiber, Robert
    SIAM J. Matrix Anal. Appl.  13  (1992),  no. 1, 333--356, MathSciNet.
  74. Teaching signal analysis with MATLAB
    McGillem, Clare D.  
    Proceedings - Frontiers in Education Conference, Jan, 1991, p 763, Compendex.
  75. The development of programs for nonlinear control systems in MATLAB.
    Atherton, D. P.; Yang, T. C.
    Control '91, Vol. 1, 2 (Edinburgh, 1991), 1240--1245, IEE Conf. Publ. Ser., 332, IEE, London, 1991, MathSciNet.
  76. An optimization toolbox for MATLAB.
    Crummey, T. P.; Farshadnia, R.; Fleming, P. J.; Grace, A. C. W.; Hancock, S. D.
    Control '91, Vol. 1, 2 (Edinburgh, 1991), 744--749, IEE Conf. Publ. Ser., 332, IEE, London, 1991, MathSciNet.
  77. Optimal filtering and Kalman filtering using MATLAB.
    Smith, P. R.; Dailly, C.
    Control '91, Vol. 1, 2 (Edinburgh, 1991), 734--737, IEE Conf. Publ. Ser., 332, IEE, London, 1991, MathSciNet.
  78. A Tool for Teaching Linear Programming within MATLAB (in Classroom Computer Capsules)  
    David R. Hill  
    The College Mathematics Journal, Vol. 21, No. 1. (Jan., 1990), pp. 55-56, Jstor.  

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

(c) John H. Mathews 2004