Enhanced Space Habitat: Multi Sensor Climate Control for Long Duration Missions
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Enhanced Space Habitat: Multi Sensor Climate Control for Long Duration Missions
Mrs. K. Swetha Sailaja1, Bugga Sai Teja2, Bingi Kumara Swamy3, Madasu Vijay Bhaskar4
Assistant Professor of Department of CSE(AI&ML) of ACE Engineering College 1 Students of Department CSE(AI&ML) of ACE Engineering College 2,3,4
Abstract
This innovation introduces a next-generation autonomous space shuttle equipped with an advanced environmental regulation system, designed to maintain optimal living conditions in the extreme environment of space. At the core of this innovation lies an Arduino Uno microcontroller, which processes real-time data from a diverse array of sensors. These include the DHT11 for temperature and humidity, an LDR for light intensity, and newly integrated CO2, pressure, and radiation sensors. This expanded sensor network enables comprehensive monitoring of the shuttle’s internal environment, ensuring precise detection of critical parameters. An intelligent bot algorithm dynamically manages climate control by activating heating or cooling mechanisms as needed while also responding to CO2 concentrations, atmospheric pressure changes, and radiation levels. This autonomous system reduces the need for human intervention, fostering a self-sustaining habitat capable of adapting to internal fluctuations and external challenges. By enhancing sensor integration and employing adaptive control strategies, the shuttle ensures the safety of astronauts and the protection of sensitive equipment during long-duration space missions. This research represents a major advancement in space travel technology, offering a more resilient and responsive system for maintaining stable environmental conditions. The proposed solution not only improves the reliability of space missions but also marks a significant step toward future autonomous space exploration.
Keywords: Autonomous Space Shuttle, Environmental Regulation System, Arduino Uno, Sensor Integration, Temperature and Humidity Monitoring, CO2 Detection, Pressure Sensing, Radiation Monitoring, Intelligent Bot Algorithm, Adaptive Climate Control, Self-Sustaining Habitat, Space Mission Reliability, Autonomous System, Long-Duration Spaceflight, Space Exploration, Real-Time Data Processing, Space Travel Safety, Dynamic Environmental Adjustment
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