NASA Ingenuity Mars Summary/Reader Response #Draft1

NASA Summary

On February 18, 2021, helicopter Ingenuity, landed on Jezero Crater, Mars, along with the rover, Perseverance (Gohd, 2021). Ingenuity is the first aircraft to have flown on Mars. According to Mimi Aung, Ingenuity’s project manager at NASA, Ingenuity had been fully tested on Earth before the Mars mission.

Ingenuity’s main responsibility was not to research but to test and prove that flight is possible on Mars. It is a small helicopter with carbon-fibre rotors measuring 1.2 meters across. Its blades can spin up to 2500 revolutions per minute. Ingenuity faced several challenges during its mission, such as attempting flight in Mars' thin atmosphere, dealing with wind and dust storms, and getting enough energy for survival.

 

Ingenuity succeeded the first three flights, flying to higher altitudes and for longer durations subsequently. However, on its fourth flight attempt, Ingenuity failed to shift to "flight mode" due to software issues, which were fixed with a software rewrite. However, even after the fix, there was still a chance of a repeat of the incident. As the flight mission was going better than expected, Ingenuity had been tasked with finding new flight locations and taking pictures, all without the support of Perseverance nearby.

The important thing about the Ingenuity experimental process is that it opens an aerial exploration of Mars. At the same time, Ingenuity helps to make a validation of aerodynamics, operations, control, as well as navigation ideas of flight on Mars. The flights of Ingenuity are critical for future developments of new Mars robotic helicopter designs on other missions (Balaram et al.,2021). With data from Ingenuity flights, future helicopters can be deployed to help search for better science targets and investigations.

Thesis Statement:

The Ingenuity helicopter is a creative robotic design system for the Mars mission that opens up a new future for engineering robotic designs on space missions.

Discussion and Analysis

The achievement of the first powered as well as controlled flight on the red planet with the ingenuity helicopter is historic and innovative. Ingenuity was designed as a small, lightweight robot that looks like a drone helicopter. The engineers who came up with this design aimed to prove the feasibility of a flight on another planet. This robotic design paves the way for humans to fly on another planet. It will also assist in future Mars missions with rovers and helicopters (Balaram et al., 2021). The ingenuity design system was able to overcome the challenge of the atmosphere on Mars. Creating a helicopter lift on Mars is a difficult task compared to Earth. This is because, in Mar, surface gravity is 40% of Earth. The thin Mars atmosphere was an extreme factor for the helicopter to lift due to less density. The conditions on Mars are very challenging, but Ingenuity engineers created a design that works perfectly on mars (Rogerson, 2021).

The advanced manufacturing that was used in designing Ingenuity was key to dealing with the atmosphere challenges on Mars. The robotic system design of the Mars helicopter was done using two rotors, which were created from carbon fibre (Withrow et al., 2020). The rotors were required to make very fast spins, more than any other known helicopter in the world. The rotors were designed to make at least 2400 rpm. Also, the blades of the Mars helicopter were made to be unique, as they were much bigger than the body (Grady, 2021).

Another technological advancement used in the design is the signal transmission. In communication, the commands for the Mars helicopter needed to be sent earlier. The engineering data from the Mars helicopter came to Earth long after a flight. Ingenuity was designed to make flight decisions on its own based on environmental concerns. This is due to the communication lags created by the distance between Mars and Earth, which make it impossible to fly the helicopter live. The system design for the robotic design also had creative solar cells and batteries (Withrow et al., 2020).

Conclusion

The design of Ingenuity and the achievement of a maiden flight on Mars planet is nothing short of an engineering marvel that opens a new engineering future for space missions. The Mars helicopter was a huge technological achievement, considering the harsh environmental conditions on Mars. Ingenuity is an engineering project that sought to experiment with new heights for the first time with its unique feature components. The robotic design of Ingenuity is a demonstration of the high levels in the field of engineering. The Mars helicopter is a statement from NASA engineers that it is possible to develop a lightweight aircraft that can make a lift on another planet with a thin atmosphere and other harsh conditions.

 

 

References

Balaram, J., Aung, M., & Golombek, M. P. (2021). The ingenuity helicopter on the perseverance rover. Space Science Reviews, 217(4), 1-11. Retrieved from https://sci-hub.se/10.1007/s11214-021-00815-w

Gohd, C. (2021, May 22). Mars helicopter Ingenuity: First aircraft to fly on the Red Planet. Space.com. Retrieved from https://www.space.com/ingenuity-mars-helicopter-perseverance-rover

Grady, M. (2021, April 19). Mars: how Ingenuity helicopter made the first flight on another planet. The Conversation. Retrieved from https://theconversation.com/mars-how-ingenuity-helicopter-made-the-first-flight-on-another-planet-159261

Rogerson, J. (2021, April 21). NASA’s Ingenuity helicopter flight on Mars opens up a new frontiers in space exploration. The Conversation. Retrieved from https://theconversation.com/nasas-ingenuity-helicopter-flight-on-mars-opens-up-new-frontiers-in-space-exploration-159401

Withrow, S., Johnson, W., Young, L. A., Cummings, H., Balaram, J., & Tzanetos, T. (2020). An advanced mars helicopter design. https://ntrs.nasa.gov/api/citations/20205008553/downloads/1441_Withrow_101220.pdf