On-Off Control With Specified Fuel Usage

Singhose, William; Singh, Tarunraj; Seering, Warren P.

doi:10.1115/1.2802456

Cited by 28 publications

(20 citation statements)

References 23 publications

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“…100 Other methods use a weighting function between move speed and fuel usage, [101][102][103][104] or simply allow the command designer to specify the amount of fuel that is to be used for any particular move. 105 All of these methods can be formulated by simply changing the impulses magnitudes in the input shaper. For example, Figure 14 shows how an input shaper with amplitudes of ±1 can generate a command profile that has periods of coasting.…”

Section: Input Shaping For Time-optimal Controlmentioning

confidence: 99%

Command shaping for flexible systems: A review of the first 50 years

Singhose

2009

Int. J. Precis. Eng. Manuf.

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378

183

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Section: Input Shaping For Time-optimal Controlmentioning

confidence: 99%

Command shaping for flexible systems: A review of the first 50 years

Singhose

2009

Int. J. Precis. Eng. Manuf.

Self Cite

378

183

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“…The simplest Input Shapers for linear systems have been derived in closed form [1], however, nonlinear programming is necessary for solving the multi-hump input shaper and switching controllers which minimize maneuver time, fuel consumed etc. [2]- [4]. Recently, Driessen [5] proposed a technique which used linear programming to design Fuel constrained time-optimal control profiles for linear systems, which are close to the globally optimal solution.…”

Section: Introductionmentioning

confidence: 98%

Input shaping design using sequential linear programming (SLP) for non-linear systems

Singla

Singh

Manyam

2008

2008 American Control Conference

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This paper presents a sequential optimization technique for the design of optimal controllers. Linearizing the system model about nominal trajectories results in a linear programming problem which is used to select a perturbation to the nominal control to satisfy the boundary conditions and the state and control constraints. Sequential solution of linear programming problem where the linearized system and control influence matrices are time varying results in the optimal control. Two approaches wherein the perturbation control is constant and linearly varying within a sampling interval are tested on benchmark problems and the results are compared to illustrate the performance of the proposed technique.

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“…Furthermore, the optimized solutions may use a significant amount of actuator fuel that is expensive to carry into space. To reduce fuel consumption, previous methods have produced fuel-minimum profiles [9], fuel efficient [10], specified-fuel [11], and fuel/time optimal commands [12]- [14].…”

Section: Introductionmentioning

confidence: 99%

Closed-Form Specified-Fuel Commands for Two-Mode Systems

Sung

Singhose

2007

2007 IEEE International Conference on Control and Automation

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A method is proposed for generating on-off commands for rest-to-rest slewing of two-mode systems. When the on-off actuators are thruster jets, the command profiles can be designed to use any specified amount of fuel. A beneficial merit of the presented procedure is that the on-off commands are expressed by closed-form functions of the system parameters and desired maneuver. The command performances are evaluated with respect to slewing speed, maximum transient deflection, and robustness to system uncertainty. The performance measures are compared to those of bang-coast-bang commands. The proposed method is illustrated using a numerical simulation of a benchmark system with two flexible modes.

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On-Off Control With Specified Fuel Usage

Cited by 28 publications

References 23 publications

Command shaping for flexible systems: A review of the first 50 years

Command shaping for flexible systems: A review of the first 50 years

Input shaping design using sequential linear programming (SLP) for non-linear systems

Closed-Form Specified-Fuel Commands for Two-Mode Systems

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