Overview and Introduction of the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) Project

Haley Cummings; B. Natalia Perez Perez; Witold Koning; Wayne Johnson; Larry Young; Farid Haddad; Ethan Romander; J. Balaram; Theodore Tzanetos; Joshua Bowman; Lauren Wagner; Shannah Withrow-Maser; Eb Isaacs; Savannah Toney; Dorsa Shirazi; Sarah Conley; Benjamin Pipenberg; Anubhav Datta; Ravi Lumba; Cheng Chi; J. Ken Smith; Charles Cornelison; Alfredo Perez; Taku Nonomura; Keisuke Asai

Overview and Introduction of the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) Project

Haley Cummings, B. Natalia Perez Perez, Witold Koning, Wayne Johnson, Larry Young, Farid Haddad, Ethan Romander, J. Balaram, Theodore Tzanetos, Joshua Bowman, Lauren Wagner, Shannah Withrow-Maser, Eb Isaacs, Savannah Toney, Dorsa Shirazi, Sarah Conley, Benjamin Pipenberg, Anubhav Datta, Ravi Lumba, Cheng ChiJ. Ken Smith, Charles Cornelison, Alfredo Perez, Taku Nonomura, Keisuke Asai

ENG - Aerospace Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Citations (Scopus)

Abstract

Research in pursuit of rotorcraft flight on Mars has been ongoing since the late 1990s at NASA Ames Research Center. Since then, many other organizations have also begun researching rotary-wing flight on Mars. In 2014, the project that led to the first helicopter to fly on Mars began at the Jet Propulsion Laboratory. Ingenuity was developed as a joint effort between JPL, NASA Ames, NASA Langley, and AeroVironment. The Ingenuity Mars Helicopter made history in April 2021 as the first vehicle demonstrating controlled, powered flight on another planet and, in doing so, it has opened a new era of planetary aviation. Future, more capable Mars rotorcraft will be able to fly even further and carry significant science payload. At NASA Ames, through NASA Space Technology Mission Directorate funding, the research necessary to help develop the next generation of Mars rotorcraft has begun with the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) project. The ROAMX project involves computationally and experimentally investigating aerodynamically efficient, compressible, low-Reynolds number airfoils for rotor blades and, further, new high-performance rotor designs. ROAMX is also developing and validating a rotor design methodology to optimize blades given specific mission requirements. The primary experimental effort of the ROAMX project is focused on rotor hover performance, but subsequent airfoil and rotor design advances are anticipated to carry over into improvements in forward flight efficiency. ROAMX is a collaboration between NASA Ames, JPL, the University of Maryland, AeroVironment, and Tohoku University.

Original language	English
Title of host publication	Aeromechanics for Advanced Vertical Flight Technical Meeting 2022
Publisher	Vertical Flight Society
ISBN (Electronic)	9781713859253
Publication status	Published - 2022
Event	Aeromechanics for Advanced Vertical Flight Technical Meeting 2022 - San Jose, United States Duration: 2022 Jan 25 → 2022 Jan 27

Publication series

Name	Aeromechanics for Advanced Vertical Flight Technical Meeting 2022

Conference

Conference	Aeromechanics for Advanced Vertical Flight Technical Meeting 2022
Country/Territory	United States
City	San Jose
Period	22/1/25 → 22/1/27

ASJC Scopus subject areas

Aerospace Engineering
Control and Systems Engineering
Electrical and Electronic Engineering

Cite this

Cummings, H., Perez, B. N. P., Koning, W., Johnson, W., Young, L., Haddad, F., Romander, E., Balaram, J., Tzanetos, T., Bowman, J., Wagner, L., Withrow-Maser, S., Isaacs, E., Toney, S., Shirazi, D., Conley, S., Pipenberg, B., Datta, A., Lumba, R., ... Asai, K. (2022). Overview and Introduction of the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) Project. In Aeromechanics for Advanced Vertical Flight Technical Meeting 2022 (Aeromechanics for Advanced Vertical Flight Technical Meeting 2022). Vertical Flight Society.

Overview and Introduction of the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) Project. / Cummings, Haley; Perez, B. Natalia Perez; Koning, Witold et al.

Aeromechanics for Advanced Vertical Flight Technical Meeting 2022. Vertical Flight Society, 2022. (Aeromechanics for Advanced Vertical Flight Technical Meeting 2022).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Cummings, H, Perez, BNP, Koning, W, Johnson, W, Young, L, Haddad, F, Romander, E, Balaram, J, Tzanetos, T, Bowman, J, Wagner, L, Withrow-Maser, S, Isaacs, E, Toney, S, Shirazi, D, Conley, S, Pipenberg, B, Datta, A, Lumba, R, Chi, C, Smith, JK, Cornelison, C, Perez, A, Nonomura, T & Asai, K 2022, Overview and Introduction of the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) Project. in Aeromechanics for Advanced Vertical Flight Technical Meeting 2022. Aeromechanics for Advanced Vertical Flight Technical Meeting 2022, Vertical Flight Society, Aeromechanics for Advanced Vertical Flight Technical Meeting 2022, San Jose, United States, 22/1/25.

@inproceedings{f47ccf5de215465fa5aa91315b79862e,

title = "Overview and Introduction of the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) Project",

abstract = "Research in pursuit of rotorcraft flight on Mars has been ongoing since the late 1990s at NASA Ames Research Center. Since then, many other organizations have also begun researching rotary-wing flight on Mars. In 2014, the project that led to the first helicopter to fly on Mars began at the Jet Propulsion Laboratory. Ingenuity was developed as a joint effort between JPL, NASA Ames, NASA Langley, and AeroVironment. The Ingenuity Mars Helicopter made history in April 2021 as the first vehicle demonstrating controlled, powered flight on another planet and, in doing so, it has opened a new era of planetary aviation. Future, more capable Mars rotorcraft will be able to fly even further and carry significant science payload. At NASA Ames, through NASA Space Technology Mission Directorate funding, the research necessary to help develop the next generation of Mars rotorcraft has begun with the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) project. The ROAMX project involves computationally and experimentally investigating aerodynamically efficient, compressible, low-Reynolds number airfoils for rotor blades and, further, new high-performance rotor designs. ROAMX is also developing and validating a rotor design methodology to optimize blades given specific mission requirements. The primary experimental effort of the ROAMX project is focused on rotor hover performance, but subsequent airfoil and rotor design advances are anticipated to carry over into improvements in forward flight efficiency. ROAMX is a collaboration between NASA Ames, JPL, the University of Maryland, AeroVironment, and Tohoku University.",

author = "Haley Cummings and Perez, {B. Natalia Perez} and Witold Koning and Wayne Johnson and Larry Young and Farid Haddad and Ethan Romander and J. Balaram and Theodore Tzanetos and Joshua Bowman and Lauren Wagner and Shannah Withrow-Maser and Eb Isaacs and Savannah Toney and Dorsa Shirazi and Sarah Conley and Benjamin Pipenberg and Anubhav Datta and Ravi Lumba and Cheng Chi and Smith, {J. Ken} and Charles Cornelison and Alfredo Perez and Taku Nonomura and Keisuke Asai",

note = "Funding Information: ROAMX is a NASA Space Technology Mission Directorate funded project through the Early Career Initiative (ECI) program. ROAMX is part of the ECI class of 2020 and has funding for two years through October 2022. Publisher Copyright: Copyright {\textcopyright} 2022 by the Vertical Flight Society. All rights reserved.; Aeromechanics for Advanced Vertical Flight Technical Meeting 2022 ; Conference date: 25-01-2022 Through 27-01-2022",

year = "2022",

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AU - Cummings, Haley

AU - Perez, B. Natalia Perez

AU - Koning, Witold

AU - Johnson, Wayne

AU - Young, Larry

AU - Haddad, Farid

AU - Romander, Ethan

AU - Balaram, J.

AU - Tzanetos, Theodore

AU - Bowman, Joshua

AU - Wagner, Lauren

AU - Withrow-Maser, Shannah

AU - Isaacs, Eb

AU - Toney, Savannah

AU - Shirazi, Dorsa

AU - Conley, Sarah

AU - Pipenberg, Benjamin

AU - Datta, Anubhav

AU - Lumba, Ravi

AU - Chi, Cheng

AU - Smith, J. Ken

AU - Cornelison, Charles

AU - Perez, Alfredo

AU - Nonomura, Taku

AU - Asai, Keisuke

N1 - Funding Information: ROAMX is a NASA Space Technology Mission Directorate funded project through the Early Career Initiative (ECI) program. ROAMX is part of the ECI class of 2020 and has funding for two years through October 2022. Publisher Copyright: Copyright © 2022 by the Vertical Flight Society. All rights reserved.

PY - 2022

Y1 - 2022

N2 - Research in pursuit of rotorcraft flight on Mars has been ongoing since the late 1990s at NASA Ames Research Center. Since then, many other organizations have also begun researching rotary-wing flight on Mars. In 2014, the project that led to the first helicopter to fly on Mars began at the Jet Propulsion Laboratory. Ingenuity was developed as a joint effort between JPL, NASA Ames, NASA Langley, and AeroVironment. The Ingenuity Mars Helicopter made history in April 2021 as the first vehicle demonstrating controlled, powered flight on another planet and, in doing so, it has opened a new era of planetary aviation. Future, more capable Mars rotorcraft will be able to fly even further and carry significant science payload. At NASA Ames, through NASA Space Technology Mission Directorate funding, the research necessary to help develop the next generation of Mars rotorcraft has begun with the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) project. The ROAMX project involves computationally and experimentally investigating aerodynamically efficient, compressible, low-Reynolds number airfoils for rotor blades and, further, new high-performance rotor designs. ROAMX is also developing and validating a rotor design methodology to optimize blades given specific mission requirements. The primary experimental effort of the ROAMX project is focused on rotor hover performance, but subsequent airfoil and rotor design advances are anticipated to carry over into improvements in forward flight efficiency. ROAMX is a collaboration between NASA Ames, JPL, the University of Maryland, AeroVironment, and Tohoku University.

AB - Research in pursuit of rotorcraft flight on Mars has been ongoing since the late 1990s at NASA Ames Research Center. Since then, many other organizations have also begun researching rotary-wing flight on Mars. In 2014, the project that led to the first helicopter to fly on Mars began at the Jet Propulsion Laboratory. Ingenuity was developed as a joint effort between JPL, NASA Ames, NASA Langley, and AeroVironment. The Ingenuity Mars Helicopter made history in April 2021 as the first vehicle demonstrating controlled, powered flight on another planet and, in doing so, it has opened a new era of planetary aviation. Future, more capable Mars rotorcraft will be able to fly even further and carry significant science payload. At NASA Ames, through NASA Space Technology Mission Directorate funding, the research necessary to help develop the next generation of Mars rotorcraft has begun with the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) project. The ROAMX project involves computationally and experimentally investigating aerodynamically efficient, compressible, low-Reynolds number airfoils for rotor blades and, further, new high-performance rotor designs. ROAMX is also developing and validating a rotor design methodology to optimize blades given specific mission requirements. The primary experimental effort of the ROAMX project is focused on rotor hover performance, but subsequent airfoil and rotor design advances are anticipated to carry over into improvements in forward flight efficiency. ROAMX is a collaboration between NASA Ames, JPL, the University of Maryland, AeroVironment, and Tohoku University.

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ER -

Overview and Introduction of the Rotor Optimization for the Advancement of Mars eXploration (ROAMX) Project

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