Modeling and simulation of rapid deployment system for stratospheric aerostat

Xiao Fei Chang; Ni Ni Shang; Wen Xing Fu; Jie Yan

doi:10.3873/j.issn.1000-1328.2014.10.005

Modeling and simulation of rapid deployment system for stratospheric aerostat

Xiao Fei Chang, Ni Ni Shang, Wen Xing Fu, Jie Yan

Northwestern Polytechnical University Xian

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

4 Scopus citations

Abstract

Aiming at the risks and disadvantages such as lots of restrictive conditions of aerostat takeoff, great risk in levitation, a long time of deployment, a new scheme of rapid deployment for the aerostat is presented in this paper. In the scheme, the aerostat is launched by a vehicle to an objective airspace. Then, the rapid deployment is completed through system separation, brake parachute deceleration, inflation in air, and aerostat expansion. The multi-body dynamics model of the brake parachute, aerostat and Inflation mechanism during the process of Inflation and expansion is established through analysis of the system structure and work process. The results show that this scheme can achieve the all-weather rapid deployment of stratosphere aerostat.

Original language	English
Pages (from-to)	1135-1140
Number of pages	6
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	35
Issue number	10
DOIs	https://doi.org/10.3873/j.issn.1000-1328.2014.10.005
State	Published - 30 Oct 2014

Keywords

Aerostat
Multi-body system modeling
Rapid deployment
Stratosphere

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10.3873/j.issn.1000-1328.2014.10.005

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title = "Modeling and simulation of rapid deployment system for stratospheric aerostat",

abstract = "Aiming at the risks and disadvantages such as lots of restrictive conditions of aerostat takeoff, great risk in levitation, a long time of deployment, a new scheme of rapid deployment for the aerostat is presented in this paper. In the scheme, the aerostat is launched by a vehicle to an objective airspace. Then, the rapid deployment is completed through system separation, brake parachute deceleration, inflation in air, and aerostat expansion. The multi-body dynamics model of the brake parachute, aerostat and Inflation mechanism during the process of Inflation and expansion is established through analysis of the system structure and work process. The results show that this scheme can achieve the all-weather rapid deployment of stratosphere aerostat.",

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T1 - Modeling and simulation of rapid deployment system for stratospheric aerostat

AU - Chang, Xiao Fei

AU - Shang, Ni Ni

AU - Fu, Wen Xing

AU - Yan, Jie

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Y1 - 2014/10/30

N2 - Aiming at the risks and disadvantages such as lots of restrictive conditions of aerostat takeoff, great risk in levitation, a long time of deployment, a new scheme of rapid deployment for the aerostat is presented in this paper. In the scheme, the aerostat is launched by a vehicle to an objective airspace. Then, the rapid deployment is completed through system separation, brake parachute deceleration, inflation in air, and aerostat expansion. The multi-body dynamics model of the brake parachute, aerostat and Inflation mechanism during the process of Inflation and expansion is established through analysis of the system structure and work process. The results show that this scheme can achieve the all-weather rapid deployment of stratosphere aerostat.

AB - Aiming at the risks and disadvantages such as lots of restrictive conditions of aerostat takeoff, great risk in levitation, a long time of deployment, a new scheme of rapid deployment for the aerostat is presented in this paper. In the scheme, the aerostat is launched by a vehicle to an objective airspace. Then, the rapid deployment is completed through system separation, brake parachute deceleration, inflation in air, and aerostat expansion. The multi-body dynamics model of the brake parachute, aerostat and Inflation mechanism during the process of Inflation and expansion is established through analysis of the system structure and work process. The results show that this scheme can achieve the all-weather rapid deployment of stratosphere aerostat.

KW - Aerostat

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Modeling and simulation of rapid deployment system for stratospheric aerostat

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