Font Size: a A A
Keyword [Inverse Model]
Result: 41 - 60 | Page: 3 of 4
41. A Driving Power With Dynamic Hysteresis Model For Piezoelectric Ceramics
42. Research In Hysteresis Nonlinear Modeling And Compensation Control Of Piezoelectric Ceramics
43. Hysteresis Modeling And Control Of Precision Reluctance Actuators
44. Research On Suspension Control Of Electric Vehicle With In-wheel Motor Based On Magnetorheological Damper Inverse Model
45. Shimmy Damping Control Research Of Aircraft’s Nose Wheel Based On Magnetorheological Shimmy Damper
46. Dynamic Modeling Of Magnetorheological Damper And Its Application In Building Shock Absorption
47. Study On High Precision Motion Control Method Of Piezoelectric Materials In Incompletely Repeated Environment
48. Study On Layout Parameters Optimization And Trajectory Tracking Control Of Driverless Vehicle Based On Inverse Dynamics
49. Research On Autonomous Control Of Unmanned Combat Aircraft High Attack-angle Flying
50. A Magnetorheological Damper Model And Its Inverse Characteristics Investigation For Control
51. Analysis And Application Of Magnetorheological Adaptive Inverse Model
52. Design And Simulation Of ADRC For Fourrotor Aircraft System Based On Dynamic Inversion
53. Dynamic backcalculation of pavement properties using optimization in nondestructive evaluation
54. A protocol-based, inverse-model-driven methodology for building auditing and forward energy model formulation
55. Research On Control Strategy Of Vehicle Magnetorheological Semi Active Suspension System
56. Study On Generalized Cross-Correlation Based Localization Algorithms For Broadband Acoustic Source
57. Research On Control Of Automotive Semi-active Suspension System Based On Magnetorheological Damper
58. Speed Stability Analysis And Control Study Of Underwater Gliders
59. Design And Implementation Of Hand Rehabilitation System Based On Functional Electrical Stimulation
60. A Pre-set Control Method For Magnetorheological Buffer System Based On Neural Network Inverse Model
  <<First  <Prev  Next>  Last>>  Jump to