Modeling and simulation of hydrostatic transmission system with energy regeneration using hydraulic accumulator

D. Manring and G. Luecke, Modeling and Designing a Hydrostatic Transmission With a Fixed Displacement Motor, ASME, 120 (1998) 45–49.

A. Njabeleke, R. Pannett, P. Chawdhry and C. Burrows, Self Organising fuzzy logic control of a hydrostatic transmission, UKACC International Conference on control, UK. (1998).

Y. Jen and C. Lee, Robust speed control of a pump controlled motor system, IEE proceeding, 139(6) (1992) 503–510.

M. Martelli and L. Zarotti, Hydrostatic Transmission with a Traction Control, 22nd ISARC, (2005).

H. Schulte, Control Oriented Modeling of Hydrostatic Transmissions using Takagi Sugeno Fuzzy Systems, Fuzzy Systems Conference, FUZZ-IEEE 2007, IEEE International, (2007).

K. Dasgupta, Analysis of a hydrostatic transmission system using low speed high torque motor, Mechanism and machine theory, 35 (2000) 1481–1499.

R. Kordak, Hydrostatic Drives with Secondary Control, Bosch Rexroth AG, (2003).

A. Pourmovahed, N. Beachey and F. Fronczak, Modeling of a Hydraulic Energy Regeneration System — Part I: Analytical Treatment, ASME, 114 (1992) 155–159.

A. Pourmovahed, N. Beachey and F. Fronczak, Modeling of a Hydraulic Energy Regeneration System — Part II: Experimental Program, ASME, 114 (1992) 160–165.

J. Hao, S. Ikeo, Y. Sakurai and T. Takahashi, Energy Saving of a Hybrid Vehicle Using a Constant Pressure System, JFPS, 30(1) (1999) 20–27.

Y. Yen and C. Lee, Influence of an Accumulator on the Performance of a Hydrostatic Drive with Control of the Secondary Unit, IMechE., 207 (1993) 173–184.

J. Lumkes and F. Fronczak, Design, Simulation, and Validation of a bond graph model and controller to switch Between Pump and Motor Operation Using four ON/OFF Valves with a Hydraulic Axial Piston Pump/Motor, Proc of the American Control Conference, USA. (2000) 3605–3609.

H. Yang, W. Sun and B. Xu, New Investigation in Energy Regeneration of Hydraulic Elevators, IEEE/ASME transaction on mechatronics, 12(5) (2007) 519–526.

S. Yokota, T. Nishijima, Y. Kondoh and Y. Kita, A Flywheel Hybrid Vehicle Making Use of Constant Pressure System (Fabrication of Stationary Test Facility and Experiment of Urban Driving Schedule), JFPS, 68(7) (2002) 201–206.

T. H. Ho and K. K. Ahn, A Study on Energy Saving Potential of Hydraulic Control System Using Switching Type Closed Loop Constant Pressure System, 7th JFPS International Symposium on Fluid Power, Toyama, Japan, (2008) 317–322.

Y. R. Cho and K. K. Ahn, A Study on The Energy Saving Hydraulic System Using Constant Pressure System, KFPS, 4(1) (2007) 7–12.

K. K. Ahn and B. S. Oh, An Experimental Investigation of Energy Saving Hydraulic Control System using Switching Type Closed Loop CPS, ICFP, China, (2005) 153–157.

R. Rahmfeld, Development and Control of Energy Saving Hydraulic Servo Drives, Proceedings of 1 st FPNI-PhD Symposium, Hamburg, (2000) 167–180.

L. Guzzella and A. Sciarretta, Vehicle Propulsion Systems: Introduction to Modeling and Optimization, Springer, (2007).