Ladakh Human Analogue Mission

Hab-1 from Ladakh Human Analogue Mission

Ladakh Human Analogue Mission (LHAM) is a human analog mission by Indian Space Research Organisation's Human Space Flight Centre. AAKA Space Studio, University of Ladakh, IIT Bombay, and the Ladakh Autonomous Hill Development Council have collaborated with ISRO. The mission kicked off on 1 November 2024. Mission aims to make suitable interplanetary conditions for astronaut training. This is India's first human analogue mission.^[1][2]

It will make it easier to comprehend the difficulties that astronauts of the future would face when traveling beyond Earth.^[3]

Mission planning

Researchers from the Birbal Sahni Institute of Palaeosciences (BSIP) and Indian Institute of Science (IISc) determined that Ladakh is the best site for India's first Mars and Moon analogue research station. The study project was conducted by BSIP's Binita Phartiyal, IISc's Aloke Kumar who pioneered the idea of building space-bricks from biologically solidified lunar and Martian regolith, and Gaganyaan astronaut Shubhanshu Shukla. An analog research station is a location where plans and exercises intended for the Moon and Mars are made. The projected research station would be used for geological and astrobiological research, human studies, crew training, advancing Technology Readiness Levels (TRL), testing space technologies, and engineering integration.^[4]

Because of its distinct geological features that closely match Martian and lunar environments, Ladakh was selected as the mission's location. Its high altitude and cold, dry climate will make it the perfect place to test the tactics and technology required for extended space flights. The engineers and scientists will test robotic equipment, vehicles, habitats, communications during the expedition. They will also try to comprehend power generation, transportation, infrastructure, and storage.^[5]

In order to practice extravehicular activity and low-gravity duties necessary for upcoming missions to the Moon and Mars, the analog astronaut will capture biometric data every day, including body temperature, heart rate, oxygen levels, and other critical indications. A unique lighting system in the habitat will help control the astronaut's circadian rhythm, enhancing their well-being amid prolonged seclusion. The study will provide valuable data about how lighting might affect human health in space.^[6]

Mission

At Leh in Ladakh, AAKA Space Studio and ISRO will be leading a 21-day Mars and Moon analog mission.^[7][8] An important step forward in India's efforts to develop human spaceflight and analog research in support of the Gaganyaan program and future missions like Bharatiya Antariksha Station. It will replicate the harsh conditions of extraterrestrial environments. Mission is equipped with a compact, inflatable habitat named Hab-1. The expedition will test human health and endurance in isolation, acquire biometric data, simulate extraterrestrial landscape, investigate circadian lighting, and test life support technologies. The startup has experimented with technology, human endurance, and habitat design in Rann of Kutch in 2023, simulating lunar conditions.^[9][8][10]

The endeavor was supported by the Ladakh Autonomous Hill Development Council and was jointly carried out by the Human Spaceflight Center, University of Ladakh, and IIT Bombay.^[11] Hab-1 has all the necessities, including a kitchen, sanitary facilities, and a hydroponics garden. As India plans long-duration space missions to the Moon, Mars, and beyond, it offers a self-sustaining environment and useful data. Hab-1 will also investigate how confinement and isolation affect human performance and health. The results could aid ISRO in comprehending the benefits, drawbacks, and viability of human-robotic exploration missions.^[5]

With an emphasis on sustainability, resource efficiency, and adaptability to challenging space conditions, AAKA Space Studio will explore innovative habitat designs. In order to gather important data for upcoming Moon and Mars missions, a lightweight, foldable fabric framework will be evaluated for performance and endurance in harsh environments. The primary objective is to use origami-inspired space architecture concepts to create, construct, and test folding, living structures.^[6]

References

1. "India's first analog space mission to simulate extra-terrestrial conditions on Mars and Moon kicks off". The Hindu. 2024-11-01. ISSN 0971-751X. Retrieved 2024-11-03.
2. Choudhary, Puran (2024-11-01). "ISRO's analogue space mission kicks off at Ladakh's Leh". The Economic Times. ISSN 0013-0389. Retrieved 2024-11-03.
3. "Isro launches analogue mission in Ladakh to simulate life outside Earth". India Today. 2024-11-01. Retrieved 2024-11-03.
4. Kumar, Chethan (2024-08-01). "Scientists, Gaganyaan astronaut bat for Ladakh as Moon & Mars analogue research site". The Times of India. ISSN 0971-8257. Retrieved 2024-08-18.
5. "ISRO Launches India's First Analog Space Mission In Leh". NDTV.com. Retrieved 2024-11-03.
6. Singh, Abhinav (1 November 2024). "What makes Ladakh best suited for analog space mission of ISRO which simulates Mars and Moon conditions". The Week. Retrieved 2024-11-03.
7. Singh, Surendra (2024-11-03). "India gets its first analog space mission in Leh to plan its lunar mission experiments". The Times of India. ISSN 0971-8257. Retrieved 2024-11-04.
8. "Gujarat firm set to replicate conditions on Mars and Moon in Ladakh for India's mega space mission". English.Mathrubhumi. 2024-10-08. Retrieved 2024-10-08.
9. Dey, Victor (2021-10-20). "How This Indo-Canada Startup Is Foraying Into "Space Architecture", Prototype To Be Tested In Leh, India". AIM. Retrieved 2024-10-08.
10. "Isro launches analogue mission in Ladakh to simulate life outside Earth". India Today. 1 November 2024.
11. "ISRO's analogue space mission kicks off at Ladakh's Leh". The Hindu. 2024-11-01. ISSN 0971-751X. Retrieved 2024-11-03.