References
- Achten, P. and Palmberg, J. , 1999, What a difference a hole makes – the commercial value of the Innas hydraulic transformer. Proceedings of the sixth scandinavian international conference on fluid power , Tampere, 873–886.
- Çalışkan, H. , Balkan, T. , and Platin, B.E. , 2015. A complete analysis and a novel solution for instability in pump controlled asymmetric actuators. Journal of Dynamic Systems, Measurement, and Control , 137 (9), 091008.
- Costa, G.K. and Sepehri, N. , 2015. Hydrostatic transmissions and actuators: operation, modelling and applications . Chichester, UK: Wiley.
- Ellman, A. and Piché, R. , 1999. A two regime orifice flow formula for numerical simulation. Journal of dynamic systems, measurement, and control , 121 (4), 721–724.10.1115/1.2802541
- Fales, R. and Raab, F. , 2005, Hydraulic control system with energy recovery . US Patent US6854268 B2.
- Grabbel, J. and Ivantysynova, M. , 2005. An investigation of swash plate control concepts for displacement controlled actuators. International Journal of Fluid Power , 6 (2), 19–36.10.1080/14399776.2005.10781217
- Habibi, S. , and Goldenberg, A. , 1999, Design of a new high performance electrohydraulic actuator . Proceedings of the IEEE/ASME international conference on advanced intelligent mechatronics , IEEE, 227–232.
- Hindman, J. , 2006. Hydraulic cylinder with Integrated Accumulator . US Patent 7,104,052.
- Jalayeri, E. , et al. , 2015. A throttle-less single-rod hydraulic cylinder positioning system: design and experimental evaluation. Advances in Mechanical Engineering , 7 (5), 1–14.
- Jarboe, H. Richard , 1983. “Agricultural load-sensing hydraulic systems” ASAE Distinguished Lecture No 9 . Winter Meeting of American Society of Agricultural Engineering, Chicago, USA.
- Lei, X. , et al. , 2011. Study on simulation of digital pump-control cylinder position control system. Procedia Engineering , 16, 729–736.10.1016/j.proeng.2011.08.1148
- Lux, J. and Murrenhoff, H. , 2016. Experimental loss analysis of displacement controlled pumps . In: 10th international fluid power conference, dresden group I , March, 441–452.
- McCullough, K.R. , 2011. Design and characterization of a dual electro-hydrostatic actuator . Hamilton: Department of Mechanical Engineering McMaster University.
- Merritt, H.E. , 1967. Hydraulic control systems . New York: Wiley.
- Rahmfield, R. and Ivantysynova, M. , 2001. Displacement controlled linear actuator with differential cylinder – a way to save primary energy in mobile machines. Proceedings of the fifth international conference on fluid power transmission and control , Hangzhou, 296–301.
- van der Burgt, J.A.H. , 1994. A new approach to saving energy in cyclic loaded hydraulic systems: Learning hydraulic systems . Eindhoven University of Technology, Eindhoven, Netherlands.
- Vukovic, M. , Leifeld, R. and Murrenhoff, H. , 2017. Reducing fuel consumption in hydraulic excavators—a comprehensive analysis. Energies , 10 (5), 1–25.
- Wang, L. , Book, W.J. , and Huggins, J.D. , 2011. A hydraulic circuit for single rod cylinders. Journal of Dynamic Systems, Measurement, and Control , 134 (1), 011019.10.1115/1.4004777
- Weng, C.K. , 1966. Transmission of fluid power by pulsating-flow (P-F) concept in hydraulic systems. Transactions of the ASME Journal of Basic Engineering , 88 (2), 316–321.
- Wiens, T. and Bitner, D. , 2016 An efficient, high performance and low-cost energy recovering hydrostatic linear actuator concept. Proceedings of the ASME/BATH 2016 symposium on fluid power & motion control , Bath, UK.
- Williamson, C. , and Ivantysynova, M. , 2008. Pump mode prediction for fourquadrant velocity control of valveless hydraulic actuators. In: Proceedings of the 7th JFPS international symposium on fluid power , Toyama, Japan, 323–328.
- Williamson, C. and Ivantysynova, M. , 2010. Stability and motion control of inertial loads with displacement controlled hydraulic actuators. In Proceedings of the 6th FPNI PhD Symposium , June, West Lafayette, USA, 499–514.
- Williamson, C. , Zimmerman, J. , and Ivantysynova, M. , 2008. Efficiency study of an excavator hydraulic system based on displacement-controlled actuators. Bath/ASME symposium on fluid power and motion control , Bath, UK.