phd-thesis/phd-thesis.bib

@phdthesis{li01_simul_fault_vibrat_isolat_point,
  author          = {Li, Xiaochun},
  keywords        = {parallel robot},
  school          = {University of Wyoming},
  title           = {Simultaneous, Fault-tolerant Vibration Isolation and
                  Pointing Control of Flexure Jointed Hexapods},
  year            = 2001,
}


@phdthesis{bishop02_devel_precis_point_contr_vibrat,
  author          = {Bishop Jr, Ronald M},
  school          = {Naval Postgraduate School, Monterey, California},
  title           = {Development of Precision Pointing Controllers with and
                  without Vibration Suppression for the {NPS} Precision Pointing
                  Hexapod},
  year            = 2002,
  keywords        = {parallel robot},
}


@phdthesis{hanieh03_activ_stewar,
  author          = {Hanieh, Ahmed Abu},
  keywords        = {parallel robot},
  school          = {Universit{\'e} Libre de Bruxelles, Brussels, Belgium},
  title           = {Active isolation and damping of vibrations via Stewart
                  platform},
  year            = 2003,
}


@phdthesis{afzali-far16_vibrat_dynam_isotr_hexap_analy_studies,
  author          = {Afzali-Far, Behrouz},
  school          = {Lund University},
  title           = {Vibrations and Dynamic Isotropy in Hexapods-Analytical
                  Studies},
  year            = 2016,
  keywords        = {parallel robot},
}


@phdthesis{naves20_desig,
  author          = {Mark Naves},
  school          = {Univeristy of Twente},
  title           = {Design and optimization of large stroke flexure mechanisms},
  year            = 2020,
  keywords        = {flexure},
}


@phdthesis{rankers98_machin,
  author          = {Rankers, Adrian Mathias},
  keywords        = {favorite},
  school          = {University of Twente},
  title           = {Machine dynamics in mechatronic systems: An engineering
                  approach.},
  year            = 1998,
}


@phdthesis{monkhorst04_dynam_error_budget,
  author          = {Wouter Monkhorst},
  school          = {Delft University},
  title           = {Dynamic Error Budgeting, a design approach},
  year            = 2004,
}


@phdthesis{jabben07_mechat,
  author          = {Jabben, Leon},
  school          = {Delft University},
  title           = {Mechatronic design of a magnetically suspended rotating
                  platform},
  year            = 2007,
  keywords        = {maglev},
}


@inproceedings{dehaeze20_activ_dampin_rotat_platf_integ_force_feedb,
  author          = {Dehaeze, T. and Collette, C.},
  title           = {Active Damping of Rotating Platforms using Integral Force
                  Feedback},
  booktitle       = {Proceedings of the International Conference on Modal
                  Analysis Noise and Vibration Engineering (ISMA)},
  year            = 2020,
}


@article{dehaeze21_activ_dampin_rotat_platf_using,
  author          = {Thomas Dehaeze and Christophe Collette},
  title           = {Active Damping of Rotating Platforms Using Integral Force
                  Feedback},
  journal         = {Engineering Research Express},
  year            = 2021,
  doi             = {10.1088/2631-8695/abe803},
  url             = {https://doi.org/10.1088/2631-8695/abe803},
  month           = {Feb},
  keywords        = {nass, esrf},
}


@inproceedings{brumund21_multib_simul_reduc_order_flexib_bodies_fea,
  author          = {Philipp Brumund and Thomas Dehaeze},
  title           = {Multibody Simulations with Reduced Order Flexible Bodies
                  obtained by FEA},
  booktitle       = {MEDSI'20},
  year            = 2021,
  language        = {english},
  publisher       = {JACoW Publishing},
  series          = {Mechanical Engineering Design of Synchrotron Radiation
                  Equipment and Instrumentation},
  venue           = {Chicago, USA},
  keywords        = {nass, esrf},
}


@inproceedings{dehaeze21_mechat_approac_devel_nano_activ_stabil_system,
  author          = {Dehaeze, T. and Bonnefoy, J. and Collette, C.},
  title           = {Mechatronics Approach for the Development of a
                  Nano-Active-Stabilization-System},
  booktitle       = {MEDSI'20},
  year            = 2021,
  language        = {english},
  publisher       = {JACoW Publishing},
  series          = {Mechanical Engineering Design of Synchrotron Radiation
                  Equipment and Instrumentation},
  venue           = {Chicago, USA},
  keywords        = {nass, esrf},
}
Use luatex, verify glossary 2024-04-12 09:32:02 +02:00			`@phdthesis{li01_simul_fault_vibrat_isolat_point,`
			`author = {Li, Xiaochun},`
			`keywords = {parallel robot},`
			`school = {University of Wyoming},`
			`title = {Simultaneous, Fault-tolerant Vibration Isolation and`
			`Pointing Control of Flexure Jointed Hexapods},`
			`year = 2001,`
			`}`



			`@phdthesis{bishop02_devel_precis_point_contr_vibrat,`
			`author = {Bishop Jr, Ronald M},`
			`school = {Naval Postgraduate School, Monterey, California},`
			`title = {Development of Precision Pointing Controllers with and`
			`without Vibration Suppression for the {NPS} Precision Pointing`
			`Hexapod},`
			`year = 2002,`
			`keywords = {parallel robot},`
			`}`



			`@phdthesis{hanieh03_activ_stewar,`
			`author = {Hanieh, Ahmed Abu},`
			`keywords = {parallel robot},`
			`school = {Universit{\'e} Libre de Bruxelles, Brussels, Belgium},`
			`title = {Active isolation and damping of vibrations via Stewart`
			`platform},`
			`year = 2003,`
			`}`



			`@phdthesis{afzali-far16_vibrat_dynam_isotr_hexap_analy_studies,`
			`author = {Afzali-Far, Behrouz},`
			`school = {Lund University},`
			`title = {Vibrations and Dynamic Isotropy in Hexapods-Analytical`
			`Studies},`
			`year = 2016,`
			`keywords = {parallel robot},`
			`}`



			`@phdthesis{naves20_desig,`
			`author = {Mark Naves},`
			`school = {Univeristy of Twente},`
			`title = {Design and optimization of large stroke flexure mechanisms},`
			`year = 2020,`
			`keywords = {flexure},`
			`}`



			`@phdthesis{rankers98_machin,`
			`author = {Rankers, Adrian Mathias},`
			`keywords = {favorite},`
			`school = {University of Twente},`
			`title = {Machine dynamics in mechatronic systems: An engineering`
			`approach.},`
			`year = 1998,`
			`}`



			`@phdthesis{monkhorst04_dynam_error_budget,`
			`author = {Wouter Monkhorst},`
			`school = {Delft University},`
			`title = {Dynamic Error Budgeting, a design approach},`
			`year = 2004,`
			`}`



			`@phdthesis{jabben07_mechat,`
			`author = {Jabben, Leon},`
			`school = {Delft University},`
			`title = {Mechatronic design of a magnetically suspended rotating`
			`platform},`
			`year = 2007,`
			`keywords = {maglev},`
			`}`



			`@inproceedings{dehaeze20_activ_dampin_rotat_platf_integ_force_feedb,`
			`author = {Dehaeze, T. and Collette, C.},`
			`title = {Active Damping of Rotating Platforms using Integral Force`
			`Feedback},`
			`booktitle = {Proceedings of the International Conference on Modal`
			`Analysis Noise and Vibration Engineering (ISMA)},`
			`year = 2020,`
			`}`



			`@article{dehaeze21_activ_dampin_rotat_platf_using,`
			`author = {Thomas Dehaeze and Christophe Collette},`
			`title = {Active Damping of Rotating Platforms Using Integral Force`
			`Feedback},`
			`journal = {Engineering Research Express},`
			`year = 2021,`
			`doi = {10.1088/2631-8695/abe803},`
			`url = {https://doi.org/10.1088/2631-8695/abe803},`
			`month = {Feb},`
			`keywords = {nass, esrf},`
			`}`



			`@inproceedings{brumund21_multib_simul_reduc_order_flexib_bodies_fea,`
			`author = {Philipp Brumund and Thomas Dehaeze},`
			`title = {Multibody Simulations with Reduced Order Flexible Bodies`
			`obtained by FEA},`
			`booktitle = {MEDSI'20},`
			`year = 2021,`
			`language = {english},`
			`publisher = {JACoW Publishing},`
			`series = {Mechanical Engineering Design of Synchrotron Radiation`
			`Equipment and Instrumentation},`
			`venue = {Chicago, USA},`
			`keywords = {nass, esrf},`
			`}`



			`@inproceedings{dehaeze21_mechat_approac_devel_nano_activ_stabil_system,`
			`author = {Dehaeze, T. and Bonnefoy, J. and Collette, C.},`
			`title = {Mechatronics Approach for the Development of a`
			`Nano-Active-Stabilization-System},`
			`booktitle = {MEDSI'20},`
			`year = 2021,`
			`language = {english},`
			`publisher = {JACoW Publishing},`
			`series = {Mechanical Engineering Design of Synchrotron Radiation`
			`Equipment and Instrumentation},`
			`venue = {Chicago, USA},`
			`keywords = {nass, esrf},`
			`}`