Projects per year
Abstract
The second part of the thesis discusses optimal motion control applied to robot manipulators and road vehicles. A control architecture for online control of a robot manipulator in high-performance path tracking is developed, and the architecture is evaluated in extensive simulations. The main characteristic of the control strategy is that it combines coordinated feedback control along both the tangential and transversal directions of the path; this separation is achieved in the framework of natural coordinates. One motivation for research on optimal control of road vehicles in time-critical maneuvers is the desire to develop improved vehicle-safety systems. In this thesis, a method for solving optimal maneuvering problems using nonlinear optimization is discussed. More specifically, vehicle and tire modeling and the optimization formulations required to get useful solutions to these problems are investigated. The considered method is evaluated on different combinations of chassis and tire models, in maneuvers under different road conditions, and for investigation of optimal maneuvers in systems for electronic stability control. The obtained optimization results in simulations are evaluated and compared.
Original language | English |
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Qualification | Doctor |
Awarding Institution |
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Supervisors/Advisors |
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Award date | 2015 Sept 25 |
Publisher | |
ISBN (Print) | 978-91-7623-434-1 |
ISBN (electronic) | 978-91-7623-435-8 |
Publication status | Published - 2015 |
Bibliographical note
Defence detailsDate: 2015-09-25
Time: 10:15
Place: Lecture hall M:B, M-building, Ole Römers väg 1, Lund University Faculty of Engineering
External reviewer(s)
Name: Egeland, Olav
Title: [unknown]
Affiliation: Norwegian University of Science and Technology (NTNU), Trondheim, Norway
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Subject classification (UKÄ)
- Robotics
- Control Engineering
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RobotLab LTH
Bagge Carlson, F., Johansson, R., Karlsson, M., Olofsson, B., Robertsson, A., Robertz, S., Haage, M., Malec, J., Nilsson, K., Nugues, P., Stenmark, M., Topp, E. A., Krueger, V., Åström, H., Mayr, M., Salt Ducaju, J., Nishimura, M., Wisbrant, J., Dürr, A., Mayr, M., Nugues, P., Klang, M., Klöckner, M., Nardi, L., Ahmad, F., Oxenstierna, J., Rizwan, M., Reichenbach, C., Bergström, J., Dell'Unto, N., Maunsbach, L., Åström, K., Blomdell, A., Magnusson, M., Fransson, P., Karayiannidis, Y., Johansson, A. T., Jia, Z., Laban, L., Wingqvist, B., Guberina, M., Jena, A., Westin, E., Frick, C., Pisarevskiy, A., Nilsson, A., Reitmann, S., Hvarfner, C., Stoltenberg, P. & Fregnan, S.
1993/01/01 → …
Project: Research
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SMErobotics
Topp, E. A., Malec, J., Nilsson, K., Olofsson, B., Johansson, R., Haage, M., Robertsson, A., Berntorp, K., Sörnmo, O. & Ghazaei Ardakani, M.
2012/01/01 → 2016/06/30
Project: Research
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COMET
Robertsson, A., Olofsson, B., Sörnmo, O., Johansson, R. & Nilsson, K.
2010/09/01 → 2013/02/28
Project: Research
Equipment
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RobotLab LTH Infrastructure
Volker Krueger (Manager), Björn Olofsson (Manager), Yiannis Karayiannidis (Manager), Mathias Haage (Manager), Jacek Malec (Manager) & Elin A. Topp (Manager)
Faculty of Engineering, LTHInfrastructure