DOI – MIC Journal

DOI INFORMATION FOR 10.4173:

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.
Crossref enabled

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have ever tried to follow an URL in an article older than 5-10 years, more often than not you will find that the URL is no longer active.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/mic.year.no.paperno. 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 http://dx.doi.org/10.4173/mic.1980.1.1. This permanent URL links back to the www.mic-journal.no 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:
1980    1981    1982    1983    1984    1985    1986    1987    1988    1989
1990    1991    1992    1993    1994    1995    1996    1997    1998    1999
2000    2001    2002    2003    2004    2005    2006    2007    2008    2009
2010    2011    2012    2013    2014    2015    2016    2017    2018    2019
2020    2021    2022    2023    2024

DOI Forward Links to MIC for Year: 2018

Total number of MIC articles in 2018	21
Total number of DOI citations	101
Average citations per article	4.81

2018, Vol. 39, No. 4:

Sindre Fossen and Thor I. Fossen, “eXogenous Kalman Filter (XKF) for Visualization and Motion Prediction of Ships using Live Automatic Identification System (AIS) Data”, pp. 233-244

DOI forward links to this article:

[1] Haitong Xu, Thor I. Fossen and C. Guedes Soares (2019), doi:10.1016/j.ejcon.2019.09.007

[2] Sindre Fossen, Robin T. Bye and Ottar L. Osen (2018), doi:10.1109/EECS.2018.00048

[3] Sindre Fossen and Thor I. Fossen (2021), doi:10.3390/s21237910

[4] Chin-Lin Pen, Wen-Jer Chang and Yann-Horng Lin (2021), doi:10.3390/pr10010033

[5] Tian Liu and Jianwen Ma (2022), doi:10.1109/ACCESS.2022.3172308

[6] Qizhe Lin, Xiaoqi Li, Bicheng Tu, Junwei Cao, Ming Zhang and Jiawei Xiang (2023), doi:10.3390/s23010467

[7] Chin-Lin Pen, Wen-Jer Chang and Yann-Horng Lin (2023), doi:10.3390/jmse11061181

[8] Chuiyi Deng, Shuangxin Wang, Jingyi Liu, Hongrui Li, Boce Chu and Jin zhu (2023), doi:10.1016/j.oceaneng.2023.115452

[9] Shuai Guo, Meng Sun, Huanqun Xue, Xiaodong Mao, Shuang Wang and Chao Liu (2023), doi:10.3389/fmars.2023.1199238

[10] Sergey Rozhkov, Lilia Voronova and Vyacheslav Voronov (2024), doi:10.1109/IEEECONF60226.2024.10496784

Niels Henrik Pedersen, Sören Christian Jensen, R.H. Hansen, Anders Hedegaard Hansen and Torben Ole Andersen, “Control of an Energy Efficient Hydraulic Cylinder Drive with Multiple Pressure Lines”, pp. 245-259

DOI forward links to this article:

[1] Oleksii Havrylenko and Serhii Kulinich (2019), doi:10.15587/1729-4061.2019.175033

[2] Mikko Huova and Matti Linjama (2021), doi:10.1177/09596518211027713

[3] Masud Rana, Syed Abu Nahian and Harun Chowdhury (2022), doi:10.1063/5.0117097

[4] Radu RADOI, Ionel PAVEL, Polifron CHIRITA, Bogdan TUDOR and Vasilica STEFAN (2022), doi:10.35633/inmateh-68-01

Asanthi Jinasena, Ali Ghaderi and Roshan Sharma, “Modeling and Analysis of Fluid Flow through A Non-Prismatic Open Channel with Application to Drilling”, pp. 261-272

DOI forward links to this article:

[1] Niels C. Bender, Torben Ole Andersen and Henrik C. Pedersen (2019), doi:10.4173/mic.2019.2.1

[2] Asanthi Jinasena, Glenn-Ole Kaasa and Roshan Sharma (2019), doi:10.1109/JSEN.2019.2923854

[3] Kenneth Olsvik, Morten Hansen Jondahl, Kjell Rune Toftevåg, Remi Kippersund, Geir Elseth and Ivar Kjøsnes (2019), doi:10.2118/195624-MS

[4] Asanthi Jinasena and Roshan Sharma (2020), doi:10.4173/mic.2020.2.4

[5] Asanthi Jinasena and Roshan Sharma (2020), doi:10.2118/201230-PA

Christer Dalen and David Di Ruscio, “A Novel Process-Reaction Curve Method for Tuning PID Controllers”, pp. 273-291

DOI forward links to this article:

[1] Christer Dalen and David Di Ruscio (2019), doi:10.4173/mic.2019.4.2

2018, Vol. 39, No. 3:

Jan Kucera and Geir Hovland, “Tail Removal Block Validation: Implementation and Analysis”, pp. 151-156

Lars Grimstad and Pål J. From, “Software Components of the Thorvald II Modular Robot”, pp. 157-165

DOI forward links to this article:

[1] Jawad Iqbal, Rui Xu, Shangpeng Sun and Changying Li (2020), doi:10.3390/robotics9020046

[2] Sariah Mghames, Marc Hanheide and Amir Ghalamzan E. (2020), doi:10.1109/IROS45743.2020.9341728

[3] K. D. Krestovnikov, A. A. Erashov, Yu. G. Vasyunina and A. I. Savel'ev (2022), doi:10.22314/2073-7599-2022-16-1-78-88

[4] Rui Xu and Changying Li (2022), doi:10.34133/2022/9760269

[5] Leonardo Guevara, Marc Hanheide and Simon Parsons (2023), doi:10.1002/rob.22227

[6] Zhijun Zhang, An Pan, Xingru Li and Yamei Luo (2023), doi:10.1109/CSIS-IAC60628.2023.10363912

Niels Henrik Pedersen, Per Johansen, Anders Hedegaard Hansen and Torben Ole Andersen, “Model Predictive Control of Low-Speed Partial Stroke Operated Digital Displacement Pump Unit”, pp. 167-177

DOI forward links to this article:

[1] Sondre Nordås, Michael M. Beck, Morten K. Ebbesen and Torben O. Andersen (2019), doi:10.3390/en12091737

[2] Ioannis Manganas, Torben Ole Andersen, Per Johansen and Lasse Schmidt (2019), doi:10.4173/mic.2019.2.4

[3] Anders H. Hansen, Magnus F. Asmussen and Michael M. Bech (2019), doi:10.3390/en12193668

[4] Xigui Wang, Jian Zhang, Yongmei Wang and Chen Li (2022), doi:10.3390/app12147264

[5] Lixin Zhang, Jiafu Ruan, Zongliang Jiang and Xigui Wang (2022), doi:10.21595/jve.2022.22764

Dag Fritzson, Robert Braun and Jan Hartford, “Composite modelling in 3-D mechanics utilizing Transmission Line Modelling (TLM) and Functional Mock-up Interface (FMI)”, pp. 179-190

DOI forward links to this article:

[1] Peter Fritzson, Adrian Pop, Karim Abdelhak, Adeel Ashgar, Bernhard Bachmann, Willi Braun, Daniel Bouskela, Robert Braun, Lena Buffoni, Francesco Casella, Rodrigo Castro, Rudiger Franke, Dag Fritzson, (2020), doi:10.4173/mic.2020.4.1

[2] Qing Li, Hailong Wei, Chao Yu and Shuangshuang Wang (2021), doi:10.1080/17517575.2020.1867900

[3] Robert Braun, Robert Hallqvist and Dag Fritzson (2023), doi:10.1007/s00366-023-01791-1

Sondre Sanden Tørdal, Jan Thomas Olsen and Geir Hovland, “The Norwegian Motion-Laboratory”, pp. 191-208

Dag Fritzson “Transient conformal TEHL algorithms for multibody simulation”, pp. 209-232

DOI forward links to this article:

2018, Vol. 39, No. 2:

Geir Ole Tysse and Olav Egeland, “Dynamic Interaction of a Heavy Crane and a Ship in Wave Motion”, pp. 45-60

DOI forward links to this article:

[1] Andrej Cibicik and Olav Egeland (2019), doi:10.1016/j.mechmachtheory.2018.10.019

[2] Andrej Cibicik, Geir O. Tysse and Olav Egeland (2019), doi:10.1115/1.4043701

[3] Iain A. Martin and Rishad A. Irani (2021), doi:10.1016/j.ymssp.2020.107168

[4] Ronny Landsverk, Jing Zhou, Geir Hovland and Houxiang Zhang (2020), doi:10.1109/ICIEA48937.2020.9248110

[5] Iain A. Martin and Rishad A. Irani (2021), doi:10.1016/j.ymssp.2020.107441

[6] Andrej Cibicik and Olav Egeland (2021), doi:10.1109/TRO.2020.3014519

[7] Yingguang Chu, Guoyuan Li, Lars Ivar Hatledal, Finn Tore Holmeset and Houxiang Zhang (2021), doi:10.1080/17445302.2021.1907066

[8] Ryan A. McKenzie and Rishad A. Irani (2022), doi:10.1016/j.mechmachtheory.2021.104573

[9] Iain A. Martin and Rishad A. Irani (2022), doi:10.1016/j.oceaneng.2022.110957

[10] Bin He, Jiachi Wu, Xuanren Zhu, Dong Zhang and Jintao Cao (2023), doi:10.1115/1.4054486

[11] Zizheng Liu, Yingguang Chu, Guoyuan Li and Houxiang Zhang (2023), doi:10.1007/978-3-031-26236-4_20

[12] Ronny Landsverk, Jing Zhou and Daniel Hagen (2023), doi:10.1109/IECON51785.2023.10312101

[13] Tao Li and Yi Cai (2024), doi:10.1016/j.oceaneng.2023.116424

Lothar Wöll, Georg Jacobs and Achim Kramer, “Lifetime Calculation of Irregularly Oscillating Bearings in Offshore Winches”, pp. 61-72

DOI forward links to this article:

[1] Fabian Schwack, Fabian Halmos, Matthias Stammler, Gerhard Poll and Sergei Glavatskih (2021), doi:10.1002/we.2693

[2] Oliver Menck (2023), doi:10.1115/1.4055916

[3] Mohamed Yousri, Georg Jacobs and Stephan Neumann (2023), doi:10.4173/mic.2023.1.1

[4] Ashkan Rezaei, Yi Guo, Jonathan Keller and Amir R. Nejad (2023), doi:10.1007/s10010-023-00654-x

[5] Ashkan Rezaei and Amir R. Nejad (2023), doi:10.1088/1742-6596/2507/1/012021

[6] Yves Perremans, Bart Peremans, Branimir Mrak, Stephan Schlimpert and Zhenmin Tao (2024), doi:10.1016/j.triboint.2024.109479

[7] Oliver Menck and Matthias Stammler (2024), doi:10.5194/wes-9-777-2024

Søren Ketelsen, Lasse Schmidt, Viktor Hristov Donkov and Torben Ole Andersen, “Energy Saving Potential in Knuckle Boom Cranes using a Novel Pump Controlled Cylinder Drive”, pp. 73-89

DOI forward links to this article:

[1] Niels Henrik Pedersen, Sören Christian Jensen, R.H. Hansen, Anders Hedegaard Hansen and Torben Ole Andersen (2018), doi:10.4173/mic.2018.4.2

[2] Damiano Padovani, Søren Ketelsen, Daniel Hagen and Lasse Schmidt (2019), doi:10.3390/en12020292

[3] Søren Ketelsen, Damiano Padovani, Torben Andersen, Morten Ebbesen and Lasse Schmidt (2019), doi:10.3390/en12071293

[4] Lasse Schmidt, Søren Ketelsen, Morten Helms Brask and Kasper Aastrup Mortensen (2019), doi:10.3390/en12101866

[5] Daniel Hagen, Damiano Padovani, Martin Choux, Daniel Hagen, Damiano Padovani and Martin Choux (2019), doi:10.4173/mic.2019.2.2

[6] Daniel Hagen, Damiano Padovani and Martin Choux (2019), doi:10.3390/act8040078

[7] Tianbo Yu, Xin Chen and Wei Liu (2020), doi:10.1088/1755-1315/514/4/042015

[8] Yunfei Wang, Jiyun Zhao, Haigang Ding and Jiaxiang Man (2020), doi:10.1155/2020/5423487

[9] Soren Ketelsen, Torben Ole Andersen, Morten K. Ebbesen and Lasse Schmidt (2020), doi:10.4173/mic.2020.3.4

[10] Shuzhong Zhang, Su Li and Tatiana Minav (2020), doi:10.3390/act9040123

[11] Soren Ketelsen, Sebastian Michel, Torben O. Andersen, Morten Kjeld Ebbesen, Jurgen Weber and Lasse Schmidt (2021), doi:10.3390/en14092375

[12] David Fassbender, Viacheslav Zakharov and Tatiana Minav (2021), doi:10.1016/j.autcon.2021.103964

[13] Lasse Schmidt and Kenneth Vorbol Hansen (2022), doi:10.3390/en15031228

Niels Henrik Pedersen, Per Johansen and Torben Ole Andersen, “Challenges with Respect to Control of Digital Displacement Hydraulic Units”, pp. 91-105

DOI forward links to this article:

[1] Niels Henrik Pedersen, Per Johansen, Anders Hedegaard Hansen and Torben Ole Andersen (2018), doi:10.4173/mic.2018.3.3

[2] Sondre Nordås, Michael M. Beck, Morten K. Ebbesen and Torben O. Andersen (2019), doi:10.3390/en12091737

[3] V. Lakshmi Narayanan and R. Ramakrishnan (2020), doi:10.1080/15435075.2020.1814300

[4] Pedro La Hera, Daniel Ortiz Morales and Omar Mendoza-Trejo (2021), doi:10.1016/j.compag.2021.106037

[5] Ruichuan Li, Qiyou Sun, Xinkai Ding, Yisheng Zhang, Wentao Yuan and Tong Wu (2022), doi:10.3390/pr10122482

[6] Thomas Farsakoglou, Henrik C. Pedersen, Morten K. Ebbesen and Torben Ole Andersen (2023), doi:10.4173/mic.2023.3.2

[7] Thomas Farsakoglou, Henrik C. Pedersen, Morten K. Ebbesen and Torben O. Andersen (2023), doi:10.3390/en16217371

Geir-Arne Moslått, Michael R. Hansen and Nicolai Sand Karlsen, “A model for torque losses in variable displacement axial piston motors”, pp. 107-114

DOI forward links to this article:

[1] Geir-Arne Moslatt and Michael R. Hansen (2020), doi:10.4173/mic.2020.2.6

[2] Jiansong Li and Jiyun Zhao (2021), doi:10.1016/j.autcon.2021.103648

[3] Ying Li, Xing Chen, Hao Luo and Jin Zhang (2021), doi:10.3390/mi12040398

[4] Geir-Arne Moslatt and Michael R. Hansen (2018), doi:10.1109/GFPS.2018.8472316

[5] Geir-Arne Moslatt, Damiano Padovani and Michael Rygaard Hansen (2021), doi:10.1115/1.4048881

[6] Qun Chao, Jianfeng Tao, Chengliang Liu and Zhengliang Li (2022), doi:10.1007/s11465-021-0671-1

[7] Thomas Farsakoglou, Henrik C. Pedersen, Morten K. Ebbesen and Torben O. Andersen (2023), doi:10.3390/en16217371

Jan Einar Gravdal, H.B. Siahaan and Knut Steinar Bjørkevoll, “Limiting Factors for the Ability to Achieve Accurate Pressure Control in Long Wells”, pp. 115-129

DOI forward links to this article:

[1] Njal Tengesdal and Christian Holden (2020), doi:10.4173/mic.2020.3.3

[2] Baochang Xu, Zhuoran Meng, Wei Liu, Xionglin Luo and Yiqi Chen (2023), doi:10.2118/214292-PA

Dan Sui and Vebjørn Haraldstad Langåker, “Downhole Temperature Modeling for Non-Newtonian Fluids in ERD Wells”, pp. 131-149

DOI forward links to this article:

[1] EdvalJ.P. Santos (2020), doi:10.1016/j.petlm.2020.04.004

[2] Cornelius Borecho Bavoh, Janet Matuamu Adam and Bhajan Lal (2021), doi:10.1016/j.matpr.2021.08.028

[3] Dong Xiao, Yifan Hu, Yingfeng Meng, Gao Li, Tianduoyi Wang and Weixiong Chen (2021), doi:10.1016/j.petrol.2021.109814

[4] Dong Xiao, Yifan Hu, Yongyou Wang, Hu Deng, Jichuan Zhang, Bo Tang, Jingyang Xi, Sihong Tang and Gao Li (2022), doi:10.1016/j.applthermaleng.2022.118684

2018, Vol. 39, No. 1:

Petter H. Gøytil, Michael R. Hansen and Geir Hovland, “Iterative Learning Applied to Hydraulic Pressure Control”, pp. 1-14

DOI forward links to this article:

[1] Ignacio Trojaola, Iker Elorza, Eloy Irigoyen, Aron Pujana and Carlos Calleja (2020), doi:10.1007/978-3-030-20055-8_48

[2] Valentin Senchenkov, Damir Absalyamov, Dmitriy Avsyukevich, N. Vatin, P. Zunino and E. Vdovin (2019), doi:10.1051/e3sconf/201914005002

[3] Ignacio Trojaola, Iker Elorza, Eloy Irigoyen, Aron Pujana-Arrese and Carlos Calleja (2020), doi:10.1093/jigpal/jzaa056

[4] Ignacio Trojaola, Iker Elorza, Eloy Irigoyen, Aron Pujana-Arrese and Gorka Sorrosal (2021), doi:10.1109/ACCESS.2021.3123668

[5] Seungin Shin and Seibum B. Choi (2023), doi:10.1016/j.mechmachtheory.2022.105158

Morten Hovd and Sorin Olaru, “Parameter-dependent PWQ Lyapunov function stability criteria for uncertain piecewise linear systems”, pp. 15-21

DOI forward links to this article:

[1] Jose Renato Campos, Edvaldo Assuncao, Geraldo Nunes Silva, Weldon Alexander Lodwick and Ulcilea Alves Severino Leal (2022), doi:10.1007/s00500-022-06958-4

[2] Leila Gharavi, Bart De Schutter and Simone Baldi (2023), doi:10.1016/j.ifacol.2023.10.369

[3] L. Cabral, G. Valmorbida and J.M. Gomes da Silva (2023), doi:10.1016/j.ifacol.2023.10.1626

Christian Nørgård, Michael Møller Bech, Torben Ole Andersen and Jeppe Hals Christensen, “Flow Characteristics and Sizing of Annular Seat Valves for Digital Displacement Machines”, pp. 23-35

DOI forward links to this article:

[1] Niels C. Bender, Torben Ole Andersen and Henrik C. Pedersen (2019), doi:10.4173/mic.2019.2.1

[2] Christian Noergaard, Esben L. Madsen, Janus M. T. Joergensen, Jeppe H. Christensen and Michael M. Bech (2018), doi:10.1109/TMECH.2018.2866914

[3] Jianfeng Li, Mingqing Xiao, Yao Sun, Guangshu Nie, Yaojun Chen and Xilang Tang (2020), doi:10.1109/ACCESS.2020.2982941

Christer Dalen and David Di Ruscio, “A Semi-Heuristic Process-Reaction Curve PID Controller Tuning Method”, pp. 37-43

DOI forward links to this article:

[1] Christer Dalen and David Di Ruscio (2018), doi:10.4173/mic.2018.4.4

[2] Christer Dalen and David Di Ruscio (2019), doi:10.4173/mic.2019.4.2