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High-Altitude Balloon-Based Sensor System Design and Implementation.

Zhanchao Wang1,2,3, Min Huang1,2,3, Lulu Qian2,3

  • 1Aerospace Information Research Institude, Chinese Academy of Sciences, Beijing 100094, China.

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Summary
This summary is machine-generated.

A high-altitude balloon sensor system was developed for near-space atmospheric detection. This system successfully monitored environmental data during a long-duration flight, proving its reliability in harsh conditions.

Keywords:
Honghu Projecthigh-altitude balloonnear spacesensor system

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Area of Science:

  • Atmospheric Science
  • Aerospace Engineering
  • Sensor Technology

Background:

  • High-altitude balloons offer a unique platform for long-duration near-space atmospheric detection.
  • Existing detection methods require robust sensor systems capable of withstanding extreme environmental conditions.

Purpose of the Study:

  • To design and validate a sensor system for high-altitude balloons.
  • To provide essential environmental data, including temperature, altitude, attitude, and power status, along with video surveillance.

Main Methods:

  • Development of a specialized sensor system integrated onto a high-altitude balloon platform.
  • Deployment and testing of the system during a near-space flight experiment.

Main Results:

  • The sensor system completed a total flight time of 30 hours and 53 minutes, with 28 hours and 58 minutes of horizontal flight.
  • The system accurately measured temperature, acquired real-time altitude and attitude data, monitored current, and provided video surveillance.
  • The system demonstrated resilience in the severe near-space environment during both day and night operations.

Conclusions:

  • The designed high-altitude balloon sensor system is reliable and effective for near-space atmospheric detection.
  • The system provides crucial support for various detection payloads in extreme environments.
  • Future participation in experiments is planned to further support near-space research.