Proceedings Article10.23919/ACC.2004.1383719
Model predictive control based trajectory optimization for nap-of-the-earth (NOE) flight including obstacle avoidance
TL;DR: In this article, a model predictive control based trajectory optimization method for nap-of-the-earth (NOE) flight including obstacle avoidance, emphasizing the mission objective of low altitude at high speed, is presented.
read more
Abstract: This work presents a model predictive control based trajectory optimization method for nap-of-the-earth (NOE) flight including obstacle avoidance, emphasizing the mission objective of low altitude at high speed. A NOE trajectory reference is generated over a subspace of the terrain. It is then inserted into the cost function and the resulting trajectory tracking error term is weighted for more precise longitudinal tracking than lateral tracking through the introduction of the TF/TA ratio. Obstacle avoidance including preclusion of ground collision is accomplished through the establishment of hard state constraints. These state constraints create a 'safe envelope' within which the optimal trajectory can be found. Steps are taken to reduce complexity in the optimization problem including perturbational linearization in the prediction model generation and the use of control basis functions. Preliminary results over a variety of sample terrains are provided to show the mission objective of low altitude and high speed was met satisfactorily without terrain or obstacle collision, however, methods to preclude or deal with infeasibility must be investigated as speed is increased to and past 30 knots.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Robust hybrid controllers for continuous-time systems with applications to obstacle avoidance and regulation to disconnected set of points
Ricardo G. Sanfelice,M.J. Messina,S. Emre Tuna,Andrew R. Teel +3 more
- 14 Jun 2006
TL;DR: For continuous-time systems, this article showed that it is impossible to use pure state feedback to achieve robust global asymptotic stabilization of a disconnected set of points or robust global regulation to a target while avoiding an obstacle.
105
Patent
Device, system and method for controlling speed of a vehicle using a positional information device
Leigh M. Rothschild
- 10 Jan 2013
TL;DR: In this article, a device, system and method for controlling speed of a vehicle are provided. And the system can be used for communicating a subject vehicle's speed to a central server where it can be utilized to analyze traffic congestion patterns or notify selected companies or individuals.
67
Estimation and control of lateral tire forces using steering torque
Yung-Hsiang Judy Hsu
- 01 Jan 2009
TL;DR: In this paper, a nonlinear observer is developed that utilizes pneumatic trail information in steering torque to identify both vehicle sideslip angle and the lateral force limits, and an envelope controller is developed to keep the vehicle in a safe operating region using the estimated handling limit information from GPS.
61
Offline motion libraries and online MPC for advanced mobility skills
Marko Bjelonic,Ruben Grandia,Moritz Geilinger,Oliver Harley,Vivian Suzano Medeiros,Vuk Pajovic,Edo Jelavic,Stelian Coros,Marco Hutter +8 more
TL;DR: In this paper , an optimization-based framework is proposed to perform complex locomotion skills for robots with legs and wheels, by combining offline motion libraries and online model predictive control (MPC), uniting a complex, long-time horizon plan with reactive, short time horizon solutions.
51
Robust hybrid control systems
Ricardo G. Sanfelice
- 01 Jan 2007
TL;DR: Robust Hybrid Control Systems (RBCS) as mentioned in this paper is a hybrid control system for robust hybrid control systems, which is based on hybrid power control systems and can be found here.
28
References
Survey Constrained model predictive control: Stability and optimality
TL;DR: This review focuses on model predictive control of constrained systems, both linear and nonlinear, and distill from an extensive literature essential principles that ensure stability to present a concise characterization of most of the model predictive controllers that have been proposed in the literature.
8.9K
•Book
Predictive Control With Constraints
Jan M. Maciejowski
- 01 Dec 2001
TL;DR: A standard formulation of Predictive Control is presented, with examples of step response and transfer function formulations, and a case study of robust predictive control in the context of MATLAB.
5.7K
Model predictive control: theory and practice—a survey
TL;DR: The flexible constraint handling capabilities of MPC are shown to be a significant advantage in the context of the overall operating objectives of the process industries and the 1-, 2-, and ∞-norm formulations of the performance objective are discussed.
5.6K
Nonlinear model predictive tracking control for rotorcraft-based unmanned aerial vehicles
H.J. Kim,David Hyunchul Shim,S. Shankar Sastry +2 more
- 08 May 2002
TL;DR: In this paper, the authors investigate the feasibility of a nonlinear model predictive tracking control (NMPTC) for autonomous helicopters, and formulate a NMPTC algorithm for planning paths under input and state constraints and tracking the generated position and heading trajectories.
232
Trajectory generation for a UAV in urban terrain, using nonlinear MPC
TL;DR: A Model Predictive Control scheme is described here that navigates a vehicle with nonlinear dynamics through a vector of known way-points to a goal, and manages constraints, in a receding-horizon optimal control scheme for autonomous trajectory generation and flight control of an unmanned air vehicle in urban terrain.
162