A General Theory of Rotorcraft Trim

David A. Peters; Dinesh Barwey

doi:10.1155/S1024123X9600021X

A General Theory of Rotorcraft Trim

David A. Peters
, Dinesh Barwey

Department of Mechanical Engineering & Materials Science

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

In this paper we offer a general theory of rotorcraft trim. The theory is set in the context of control theory. It allows for completely arbitrary trim controls and trim settings for multi-rotor aircraft with tests to ensure that a system is trimmable. In addition, the theory allows for "optimal trim" in which some variable is minimized or maximized rather than set to a specified value. The theory shows that sequential trim cannot work for free flight. The theory is not tied to any particular trim algorithm; but, in this paper, it is exercised with periodic shooting to show how free-flying rotorcraft can be trimmed in a variety of ways (zero yaw, zero pitch, zero roll, minimum power, etc.) by use of the general theory. The paper also discusses applications to harmonic balance and auto-pilot trim techniques.

Original language	English
Pages (from-to)	1-34
Number of pages	34
Journal	Mathematical Problems in Engineering
Volume	2
Issue number	1
DOIs	https://doi.org/10.1155/S1024123X9600021X
State	Published - 1996

Keywords

Rotorcraft
trim

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10.1155/S1024123X9600021X

Cite this

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title = "A General Theory of Rotorcraft Trim",

abstract = "In this paper we offer a general theory of rotorcraft trim. The theory is set in the context of control theory. It allows for completely arbitrary trim controls and trim settings for multi-rotor aircraft with tests to ensure that a system is trimmable. In addition, the theory allows for {"}optimal trim{"} in which some variable is minimized or maximized rather than set to a specified value. The theory shows that sequential trim cannot work for free flight. The theory is not tied to any particular trim algorithm; but, in this paper, it is exercised with periodic shooting to show how free-flying rotorcraft can be trimmed in a variety of ways (zero yaw, zero pitch, zero roll, minimum power, etc.) by use of the general theory. The paper also discusses applications to harmonic balance and auto-pilot trim techniques.",

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year = "1996",

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language = "English",

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N2 - In this paper we offer a general theory of rotorcraft trim. The theory is set in the context of control theory. It allows for completely arbitrary trim controls and trim settings for multi-rotor aircraft with tests to ensure that a system is trimmable. In addition, the theory allows for "optimal trim" in which some variable is minimized or maximized rather than set to a specified value. The theory shows that sequential trim cannot work for free flight. The theory is not tied to any particular trim algorithm; but, in this paper, it is exercised with periodic shooting to show how free-flying rotorcraft can be trimmed in a variety of ways (zero yaw, zero pitch, zero roll, minimum power, etc.) by use of the general theory. The paper also discusses applications to harmonic balance and auto-pilot trim techniques.

AB - In this paper we offer a general theory of rotorcraft trim. The theory is set in the context of control theory. It allows for completely arbitrary trim controls and trim settings for multi-rotor aircraft with tests to ensure that a system is trimmable. In addition, the theory allows for "optimal trim" in which some variable is minimized or maximized rather than set to a specified value. The theory shows that sequential trim cannot work for free flight. The theory is not tied to any particular trim algorithm; but, in this paper, it is exercised with periodic shooting to show how free-flying rotorcraft can be trimmed in a variety of ways (zero yaw, zero pitch, zero roll, minimum power, etc.) by use of the general theory. The paper also discusses applications to harmonic balance and auto-pilot trim techniques.

KW - Rotorcraft

KW - trim

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DO - 10.1155/S1024123X9600021X

M3 - Article

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VL - 2

SP - 1

EP - 34

JO - Mathematical Problems in Engineering

JF - Mathematical Problems in Engineering

IS - 1

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A General Theory of Rotorcraft Trim

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Keywords

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