General information about the DOI system can be found here and here. A DOI name is a digital object identifier for any object of intellectual property. A DOI name provides a means of persistently identifying a piece of intellectual property on a digital network and associating it with related current data in a structured extensible way. DOI was accepted as an ISO standard in 2010.
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If you have ever tried to follow an URL in an article older than 5-10 years, more often than not you will find that the URL is no longer active. The DOI system is an attempt to overcome this deficiency by providing stable and permanent references for intellectual property on the web.

The MIC journal has implemented the DOI system for every single article published in MIC since the foundation year in 1980. The DOI prefix for MIC is 10.4173 and an individual article has been assigned a DOI on the following format: 10.4173/ For example, the first article published in MIC by Oddvar Hallingstad has the following DOI: 10.4173/mic.1980.1.1 and the following permanent URL This permanent URL links back to the website. If the MIC website is moved in the future, the DOI information will be updated to point to the new address.

Another advantage of the DOI system, is the possibility to register all the references in an article in a structured manner. All the references made in MIC articles starting from 1980 have been submitted into the DOI system. The effect is an increased visibility of MIC articles, which again will lead to a wider audience. MIC also participates in the 'cited-by' system, which can be seen for this article. 'cited-by' shows which other papers have included the actual paper in the reference lists.

The MIC class files for pdfLaTeX found in the Author Information have commands for embedding DOI information in the PDF files. Prospective authors for future MIC articles will receive the DOI identification when the article is accepted. Authors are encouraged to embed the tag into the PDF file themselves using pdflatex prior to publication. Authors are also encouraged to embed DOI tags in their reference lists.

Click on the links below to see the external DOI forward links to MIC:
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DOI Forward Links to MIC for Year: 1989

 Total number of MIC articles in 1989  19
 Total number of DOI citations  63
 Average citations per article   3.32 

1989, Vol. 10, No. 4:
1.Tahir I. MalikEffective use of full scale simulators for training”, pp. 185-202
DOI forward links to this article:
[1] Tahir I. Malik (1995), doi:10.1177/002029409502801004
2.G. Endrestøl, Terje Sira, Monica Østenstad, Tahir I. Malik, M. Meeg and J. Thrane, “Simultaneous computation within a sequential process simulation tool”, pp. 203-211
DOI forward links to this article:
[1] Ingunn Olsen, Guttorm Olav Endrestøl and Terje Sira (1997), doi:10.1016/S0098-1354(97)87501-1
[2] D. Cameron, C. Clausen and W. Morton (2002), doi:10.1016/S1570-7946(02)80019-0
[3] H.C. Riksheim and T. Hertzberg (1998), doi:10.1016/S0098-1354(98)00153-7
[4] Petter Lundstrøm, Terje Sira and Tor Ausen (1997), doi:10.1016/S0098-1354(97)87651-X
3.Rolv Rommetveit and Anette Blyberg, “Simulation of gas kicks during oil well drilling”, pp. 213-225
DOI forward links to this article:
[1] Marcellinus A. Ojinnaka and Joseph J. Beaman (2018), doi:10.1016/j.petrol.2018.03.012
[2] Z. Ma, A. Karimi Vajargah, D. Chen, E. van Oort, R. May, J. D. MacPherson, G. Becker and D. Curry (2018), doi:10.2118/189606-MS
[3] Zhengming Xu, Xuejiao Chen, Xianzhi Song, Zhaopeng Zhu and Wenping Zhang (2021), doi:10.2118/206717-PA
[4] E. H. Vefring, R. Rommetveit and E. Borge (1991), doi:10.2118/22314-MS
[5] R. Rommetveit and E. H. Vefring (1991), doi:10.2118/22558-MS
4.Bjørn H. HjertagerSimulation of gas explosions”, pp. 227-247
DOI forward links to this article:
[1] L.J. Clifford, A.M. Milne and B.A. Murray (1996), doi:10.1016/0010-2180(95)00131-X
[2] A.G. Venetsanos, D. Baraldi, P. Adams, P.S. Heggem and H. Wilkening (2008), doi:10.1016/j.jlp.2007.06.016
[3] Rolf K. Eckhoff (1994), doi:10.1016/0025-326X(94)90644-0
[4] Daniele Baraldi, Matthias Heitsch and Heinz Wilkening (2007), doi:10.1016/j.nucengdes.2007.02.026
[5] Francesco Tamanini and John V. Valiulis (1996), doi:10.1016/0950-4230(95)00053-4
[6] (2010), doi:10.1002/9780470640449.refs
[7] Bjørn H. Hjertager, Tron Solberg and Kjell O. Nymoen (1992), doi:10.1016/0950-4230(92)80020-9
[8] (1993), doi:10.2514/5.9781600866272.0075.0094
[9] D. Baraldi, A.G. Venetsanos, E. Papanikolaou, M. Heitsch and V. Dallas (2009), doi:10.1016/j.jlp.2008.10.004
[10] (2010), doi:10.1002/9780470938157.app6
[11] Almerinda Di Benedetto and Valeria Di Sarli (2010), doi:10.1002/9783527628148.hoc042
[12] A.C. van den Berg and A. Lannoy (1993), doi:10.1016/0304-3894(93)85003-W
[13] Bjørn H. Hjertager (1993), doi:10.1016/0304-3894(93)85004-X
[14] I.O. Moen (1993), doi:10.1016/0304-3894(93)85052-G
[15] A.G Venetsanos, T Huld, P Adams and J.G Bartzis (2003), doi:10.1016/j.jhazmat.2003.05.001
[16] Emmanuel Stamatakis, Andreas Yiotis, Stella Giannissi, Ilias Tolias and Athanassios Stubos (2018), doi:10.1016/j.jocs.2018.05.003
[17] Neil Westley (2012), doi:10.2118/154713-MS
[18] R.S. Cant, W.N. Dawes and A.M. Savill (2004), doi:10.1146/annurev.fluid.36.050802.121948
1989, Vol. 10, No. 3:
1.Simona Muratori, Sergio Rinaldi and Bruno Trinchera, “Performance evaluation of positive regulators for population control”, pp. 125-134
DOI forward links to this article:
[1] L. Benvenuti and L. Farina (2004), doi:10.1109/TAC.2004.826715
[2] Simona Muratori and Sergio Rinaldi (1991), doi:10.1016/0096-3003(91)90069-Y
[3] O.L.R. Jacobs, D.J. Ballance and J.W. Horwood (1991), doi:10.1016/0005-1098(91)90054-6
[4] S. Muratori and S. Rinaldi (1990), doi:10.1109/9.58539
[5] Roberto Guidorzi (2014), doi:10.1109/ECC.2014.6862488
[6] Roberto Guidorzi (2016), doi:10.1016/j.automatica.2016.04.024
[7] O. L. R. Jacobs (1991), doi:10.1007/BFb0003823
2.Kurt Strand, Håvard Nordhus, Peter Singstad and Magne Hillestad, “Role of computational efficiency in process simulation”, pp. 135-141
3.Harald K. Drager, Helge Soma and Roy Gulliksen, “SIMLAB. A training simulator for emergency preparedness decisions”, pp. 143-157
4.Morten Heintz, Vojislav Novakovic, Ommund Øgård and Georg Brustad, “HVAC-DYNAMIC: a training simulator for dynamic analysis of HVAC plants”, pp. 159-164
DOI forward links to this article:
[1] P.G. Rousseau and E.H. Mathews (1993), doi:10.1016/0360-1323(93)90021-T
5.Torleif IversenControl elements in mechanism simulation”, pp. 165-172
DOI forward links to this article:
[1] T. Rølvåg, Hans P. Hildre, O.I. Sivertsen and Å.O. Waløen (1992), doi:10.4173/mic.1992.4.3
6.Bjarne A. Foss, J.E. Haug, J. Alne and Sverre Aam, “User experience with on-line predictive river flow regulation”, pp. 173-184
1989, Vol. 10, No. 2:
1.Jens G. Balchen, Dag Ljungquist and Stig Strand, “Predictive Control Based upon State Space Models”, pp. 65-76
DOI forward links to this article:
[1] MICHAEL A. HENSON and DALE E. SEBORG (1993), doi:10.1080/00207179308923043
2.Olav Egeland, Jan R. Sagli and Bård Jansen, “Optimal continuous-path control for manipulators with redundant degrees of freedom”, pp. 77-89
DOI forward links to this article:
[1] J.R. Sagli and O. Egeland (1990), doi:10.1109/IMC.1990.687376
[2] O. Egeland, J.R. Sagli, S. Hendseth and F. Wilhelmsen (1989), doi:10.1109/ROBOT.1989.99978
[3] J.R. Sagli and O. Egeland (1991), doi:10.1109/ROBOT.1991.131773
[4] W. Miksch and D. Schroeder (1992), doi:10.1109/ROBOT.1992.220258
[5] O. Egeland and J.R. Sagli (1990), doi:10.1109/CDC.1990.203360
[6] T. C. Yih and Kun Ji (1995), doi:10.1007/978-3-642-79654-8_433
3.Simona Muratori and Sergio Rinaldi, “Limit cycles and Hopf bifurcations in a Kolmogorov type system”, pp. 91-99
DOI forward links to this article:
[1] Simona Muratori and Sergio Rinaldi (1989), doi:10.1016/0307-904X(89)90160-1
[2] S. Rinaldi and S. Muratori (1992), doi:10.1016/0040-5809(92)90048-X
[3] Simona Muratori (1991), doi:10.1016/0096-3003(91)90091-Z
[4] Florian Rupp and Jürgen Scheurle (2015), doi:10.1002/mma.3347
[5] Djamila Djedid, Jaume Llibre and Amar Makhlouf (2020), doi:10.1016/j.chaos.2020.110489
[6] Giuseppe Orlando and Mario Sportelli (2021), doi:10.1007/978-3-030-70982-2_14
[7] Guido Occhipinti, Cosimo Solidoro, Roberto Grimaudo, Davide Valenti and Paolo Lazzari (2023), doi:10.1016/j.chaos.2023.113961
4.Kesheng WangEfficient inverse position transformation for TR 4000S robot manipulator”, pp. 101-113
5.Olav Egeland and Erling Lunde, “Trajectory generation for manipulators using linear quadratic optimal tracking”, pp. 115-124
1989, Vol. 10, No. 1:
1.Jens G. Balchen, Kåre Telnes and David Di Ruscio, “Frequency Response Adaptive Control of a Refrigeration Cycle”, pp. 3-11
DOI forward links to this article:
[1] David Di Ruscio (1992), doi:10.4173/mic.1992.4.1
2.Rolf HenriksenConvergence analysis of some decentralized parameter estimators”, pp. 13-34
DOI forward links to this article:
[1] Rolf Henriksen (1992), doi:10.4173/mic.1992.3.2
[2] Rolf Henriksen and Erik Weyer (1990), doi:10.4173/mic.1990.4.4
[3] Rolf Henriksen (2000), doi:10.4173/mic.2000.2.3
[4] R. Henriksen (1991), doi:10.1016/S1474-6670(17)52460-X
[5] R. Henriksen and E. Weyer (1990), doi:10.1016/S1474-6670(17)52001-7
[6] E. Weyer (1991), doi:10.1016/S1474-6670(17)52472-6
3.Jens G. Balchen, Dag Ljungquist and Stig Strand, “State Space Model Predictive Control of a Multi Stage Electro-metallurgical Process”, pp. 35-51
DOI forward links to this article:
[1] N.L. Ricker and J.H. Lee (1995), doi:10.1016/0098-1354(94)00105-W
[2] Jens G. Balchen, Dag Ljungquist and Stig Strand (1989), doi:10.4173/mic.1989.2.1
[3] S. Strand and J.G. Balchen (1991), doi:10.1016/B978-0-08-041263-4.50076-2
[4] S. Strand and J.G. Balchen (1990), doi:10.1016/S1474-6670(17)51955-2
[5] S. E. Benattia, S. Tebbani and D. Dumur (2019), doi:10.1002/rnc.4754
4.Johan H. Aas, Karsten Brathen, Erik Nordo and Ole Ø. Ørpen, “Man-machine interface in a submarine command and weapon control system: features and design experience”, pp. 53-63