Actuation development and evaluation for INSTAR: inertially stabilized rifle

Brei, Diann; Vendlinski, James; Frecker, Mary; Bharti, Smita

doi:10.1117/12.483458

Cited by 2 publications

(1 citation statement)

References 68 publications

(65 reference statements)

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“…In order to demonstrate the effectiveness of the method described above, an example problem is solved and compared with a single actuator problem. This problem has been taken from the authors' previous work, which had been described in detail in Frecker (2002, 2004) and Brei et al (2003). A brief overview of the problem definition is now given.…”

Section: Examplesmentioning

confidence: 99%

Compliant Mechanical Amplifier Design using Multiple Optimally Placed Actuators

Bharti

Frecker

2007

Journal of Intelligent Material Systems and Structures

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This article discusses a methodology for designing compliant mechanisms with piezoelectric actuation to obtain maximum deflection and force at the output point. The focus is on design of compliant mechanisms with multiple piezoelectric actuators. The number, size, and position of the actuators within the compliant mechanism are optimized for the maximum output deflection. Predicted results demonstrate that compliant mechanisms with multiple, optimally placed actuators outperform those with a single actuator placed at a predetermined location.

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Section: Examplesmentioning

confidence: 99%

Compliant Mechanical Amplifier Design using Multiple Optimally Placed Actuators

Bharti

Frecker

2007

Journal of Intelligent Material Systems and Structures

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Development of an Antagonistic SMA Actuator for Instar Rifle Stabilization System

et al. 2005

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Shape memory alloys are notoriously slow and suffer from creep and controllability issues [1,2]. This paper presents three methods to address these issues: a high-stress cyclic conditioning regime to reduce creep to operationally insignificant levels, an unconventional pulse-width-modulated duty cycle with heatsink to increase frequency to the ten hertz range, and simple position feedback control strategy for motion control. These methods are discussed within the context of a simple antagonistic leveraged SMA actuation system developed for an INertially STAbilized Rifle (INSTAR). An overview of design and basic parameter models for the L-Lever is provided along with benchtop experimental characterization of the quasistatic and dynamic behavior. The actuator was integrated into a one degree of freedom INSTAR platform to demonstrate the insitu methods via barrel control. The methods discussed in this paper led to a fast, low-creep, controllable actuator with outstanding authority resulting in precise barrel control with capabilities to greatly increase shooter accuracy.

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Actuation development and evaluation for INSTAR: inertially stabilized rifle

Cited by 2 publications

References 68 publications

Compliant Mechanical Amplifier Design using Multiple Optimally Placed Actuators

Compliant Mechanical Amplifier Design using Multiple Optimally Placed Actuators

Development of an Antagonistic SMA Actuator for Instar Rifle Stabilization System

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