Ingenuity (helicopter): Difference between revisions

{{Short description|NASA helicopter on the Mars 2020 mission}}

{{Use American English|date=May 2020}}

{{Italic title}}<!-- Use meters(feet) and mm/dd/yyyy, it's part of NASA's space conventions -->

| other_names = {{unbulleted list|Mars 2020 helicopter|''Ginny''}}

| alt = A robotic helicopter on the Mars surface in 2021

| caption = ''Ingenuity'' on Mars at Wright Brothers Field, photographed by [[Perseverance rover|''Perseverance'']] on {{nowrap|April 7, 2021 ([[Sol (day on Mars)|sol]] 46)}}

| image_size =

| mission = [[Mars 2020]]

| type = [[Extraterrestrial sky|Extraterrestrial]] [[autonomous robot|autonomous]] [[Unmanned aerial vehicle|UAV]] [[helicopter]]

| manufacturer = [[Jet Propulsion Laboratory]] ([[NASA]])

| launch_date = 30 July 2020, 11:50:00 [[Coordinated Universal Time|UTC]]

| launch_rocket = [[Atlas V]] 541 (AV-088)

| launch_site = [[Cape Canaveral Space Force Station|Cape Canaveral]], [[Cape Canaveral Space Launch Complex 41|SLC-41]]

| launch_contractor = [[United Launch Alliance]]

| landing_mass = {{Unbulleted list

| Total: {{cvt|1.8|kg}}<ref name="landing press kit">{{cite web|url=https://www.jpl.nasa.gov/news/press_kits/mars_2020/download/ingenuity_landing_press_kit.pdf|title=Ingenuity Mars Helicopter Landing Press Kit |publisher=NASA|date=January 2021|access-date=14 February 2021|archive-date=18 February 2021|archive-url=https://web.archive.org/web/20210218072916/https://www.jpl.nasa.gov/news/press_kits/mars_2020/download/ingenuity_landing_press_kit.pdf|url-status=live}} {{PD-notice}}</ref><ref name="fact sheet"/>

| Batteries: {{cvt|273|g}}

}}

| dimensions = {{Unbulleted list

| Fuselage (body): {{cvt|13.6|x|19.5|x|16.3|cm}}<ref name="landing press kit"/>

| Landing legs: {{cvt|0.384|m}}<ref name="landing press kit"/>

}}

| diameter = Rotors: {{cvt|4|ft|order=flip}}<ref name="landing press kit"/><ref name="Aung May2018"/><ref name="fact sheet"/>

| height = {{cvt|0.49|m}}<ref name="landing press kit"/>

| power = 350 [[watt]]s<ref name="landing press kit"/><ref name="official website">{{cite web|url=https://mars.nasa.gov/technology/helicopter/|title=Mars Helicopter|website=mars.nasa.gov |publisher=NASA|access-date=2 May 2020|archive-url=https://web.archive.org/web/20200416082901/https://mars.nasa.gov/technology/helicopter/|archive-date=16 April 2020|url-status=live}} {{PD-notice}}</ref>

| landing_date = 18 February 2021, 20:55 UTC

| landing_site = {{coord|18.4447|N|77.4508|E|globe:Mars}}<br />[[Jezero (crater)|Jezero crater]]<br />[[Octavia E. Butler Landing]]

| status = {{unbulleted list

|Operational [Deployed from ''Perseverance'' at the Wright Brothers Field ({{coord|18.44486|N|77.45102|E|globe:Mars|display=inline,title}})

on April 3 2021]<ref name="Today"/><ref name="NYT-20210323"/><ref name="NASA-20210323"/><ref name="NASA-20210404" />|Maiden flight — April 19 2021}}

| first_flight = 19 April 2021, 07:34 UTC

| last_flight = 5 September 2021 0:10 UTC

| flights = 13

| total_hours = 00:24:29 hours

| distance_flown_at_destination = {{cvt|2.83|km}}<ref>{{Citation|title=Distance Travelled By NASA's Ingenuity Helicopter (September 4, 2021)|url=https://perseverancerover.spatialstudieslab.org/|access-date=2021-09-04|website=Mars 2020 Mission Tracker|language=English|url-status=live}}</ref> <br/> {{as of|2021|09|04|lc=y}}

| vehicle_landing = Unknown

| instruments = {{Hlist|[[Inertial measurement unit|Inertial sensors]]|[[Lidar|Laser altimeter]]|Two video cameras}}

| insignia = File:Mars Helicopter JPL insignia.svg

| insignia_caption = JPL's Mars Helicopter insignia

| insignia_size = 200px

| civil_registration= IGY

| succession = [[NASA]] Mars helicopters

| previous_vehicle =

| next_vehicle = [https://spectrum.ieee.org/amp/the-next-mars-helicopter-2654506042 ''Mars Science Helicopter'']<ref name="Ingenuity's Successor">{{cite web|url=https://spacenews.com/nasa-studying-larger-mars-helicopters/|title=Mars Science Helicopter|website=spacenews.com |publisher=Space News|access-date=24 June 2020}}</ref><!-- make A page first like Europa Lander for Mars Science Helicopter-->

}}

'''''Ingenuity''''' is a small robotic [[helicopter]] operating on [[Mars]] as part of [[NASA]]'s [[Mars 2020]] mission. On April 19, 2021, it successfully completed the first powered controlled flight by an aircraft on a planet besides Earth, [[VTOL|taking off vertically]], hovering and landing for a flight duration of 39.1&nbsp;seconds).<ref name="MarsDaily_2021_04_19">{{cite web | last = AFP Staff Writers | title = Ingenuity helicopter successfully flew on Mars: NASA | work = Mars Daily | publisher = [[ScienceDaily]] | date = Apr 19, 2021 | url = https://www.marsdaily.com/reports/Ingenuity_helicopter_successfully_flew_on_Mars_NASA_999.html | accessdate = 2021-04-19 }}</ref><ref name=":0">{{Cite news|last=Palca|first=Joe|date=19 April 2021|title=Success! NASA's Ingenuity Makes First Powered Flight On Mars|work=[[National Public Radio]]|url=https://www.npr.org/2021/04/19/985588253/success-nasas-ingenuity-makes-first-powered-flight-on-mars|access-date=19 April 2021}}</ref><ref>{{Cite news|last=Hotz|first=Robert Lee|date=2021-04-19|title=NASA's Mars Helicopter Ingenuity Successfully Makes Historic First Flight|language=en-US|work=Wall Street Journal|url=https://www.wsj.com/articles/nasas-ingenuity-helicopter-successfully-makes-historic-first-flight-on-mars-11618830461|access-date=2021-04-19|issn=0099-9660}}</ref>

''Ingenuity'' was designed and built by NASA's [[Jet Propulsion Laboratory]] (JPL). Other contributors include NASA [[Ames Research Center]], NASA [[Langley Research Center]],<ref name="Witold 2018">[https://rotorcraft.arc.nasa.gov/Publications/files/Koning_2018_TechMx.pdf Generation of Mars Helicopter Rotor Model for Comprehensive Analyses] {{Webarchive|url=https://web.archive.org/web/20200101170950/https://rotorcraft.arc.nasa.gov/Publications/files/Koning_2018_TechMx.pdf|date=1 January 2020}}, Witold J. F. Koning, Wayne Johnson, Brian G. Allan; NASA 2018 {{PD-notice}}</ref> [[AeroVironment|AeroVironment, Inc.]], SolAero, and [[Lockheed Martin Space]].<ref>{{cite web |url=https://mars.nasa.gov/resources/26046 |title=Ingenuity Spots Rover Tracks During Ninth Flight |publisher=NASA |date=12 July 2021 |lang=en}}</ref> The helicopter had made 13 successful flights as of September 5, 2021.

''Ingenuity'' is operated by [[solar cell|solar-charged]] batteries that power [[coaxial rotors|dual counter-rotating rotors]] mounted one above the other. During its 30-day technology demonstration, ''Ingenuity'' was intended to fly up to five times at altitudes ranging {{cvt|3|-|5|m|0}} above the ground for up to 90 seconds each.<ref name="landing press kit" /><ref name="spacenews 20180504">[http://spacenews.com/decision-expected-soon-on-adding-helicopter-to-mars-2020/ Decision expected soon on adding helicopter to Mars 2020], Jeff Fout, ''SpaceNews'' 4 May 2018</ref>

The expected lateral range was exceeded in the third flight, and the flight duration was exceeded in the fourth flight. With those technical successes, ''Ingenuity'' achieved its original objectives. The flights proved the helicopter's ability to fly in the extremely thin atmosphere of another planet over a hundred million miles from Earth without direct human control. ''Ingenuity'' operates autonomously, performing maneuvers planned, scripted and transmitted to it by JPL.

After the brief demonstration phase, JPL then began more flights as operational demonstrations, to show how aerial scouting can benefit future exploration of Mars and other worlds.<ref name="NYT-20210430" /><ref>{{cite news|url=https://www.cnn.com/2021/04/30/world/mars-helicopter-future-flights-rover-scn-trnd/index.html|title=After fourth successful flight, Mars helicopter gets a new mission|first=Ashley|last=Strickland|publisher=CNN|date=30 April 2021|accessdate=1 May 2021}}</ref> In its operational role, ''Ingenuity'' is observing areas of interest for possible examination by the [[Perseverance (rover)|''Perseverance'' rover]].<ref name="NYT-20200623">{{cite news|last=Chang|first=Kenneth|date=23 June 2020|title=Mars Is About to Have Its "Wright Brothers Moment" – As part of its next Mars mission, NASA is sending an experimental helicopter to fly through the red planet's thin atmosphere.|newspaper=The New York Times|url=https://www.nytimes.com/2020/06/23/science/mars-helicopter-nasa.html|url-status=live|access-date=2021-03-07|archive-url=https://web.archive.org/web/20200623070602/https://www.nytimes.com/2020/06/23/science/mars-helicopter-nasa.html|archive-date=23 June 2020}}</ref><ref name="Leone heli">{{cite news|last=Leone|first=Dan|url=http://spacenews.com/elachi-touts-helicopter-scout-for-mars-sample-caching-rover/|title=Elachi Touts Helicopter Scout for Mars Sample-Caching Rover |publisher=SpaceNews|date=19 November 2015|access-date=20 November 2015|archive-date=21 January 2016|archive-url=https://archive.today/20160121214139/http://spacenews.com/elachi-touts-helicopter-scout-for-mars-sample-caching-rover/|url-status=live}}</ref><ref name="landing press kit"/><ref name="Balaram 2018">[https://rotorcraft.arc.nasa.gov/Publications/files/Balaram_AIAA2018_0023.pdf Mars Helicopter Technology Demonstrator] {{Webarchive|url=https://web.archive.org/web/20190401121747/https://rotorcraft.arc.nasa.gov/Publications/files/Balaram_AIAA2018_0023.pdf|date=1 April 2019}} J. (Bob) Balaram, Timothy Canham, Courtney Duncan, Matt Golombek, Håvard Fjær Grip, Wayne Johnson, Justin Maki, Amelia Quon, Ryan Stern, and David Zhu; American Institute of Aeronautics and Astronautics (AIAA) SciTech Forum Conference 8–12 January 2018 Kissimmee, Florida {{doi|10.2514/6.2018-0023}} {{PD-notice}}</ref>

''Ingenuity'' travelled to Mars attached to the underside of ''Perseverance'', which touched down at the [[Octavia E. Butler Landing]] site in [[Jezero (crater)|Jezero]] crater on February 18, 2021.<ref name="Today">{{cite AV media|url=https://www.youtube.com/watch?v=2ceFiynmNB0&ab_channel=TODAY|title=Mars Rover Perseverance Set To Launch Drone|publisher=[[Today (American TV program)]]|via=YouTube |date=24 March 2021|access-date=2021-03-27}}</ref><ref name="NYT-20210323">{{cite news |last=hang |first=Kenneth |title=Get Ready for the First Flight of NASA's Mars Helicopter - The experimental vehicle named Ingenuity traveled to the red planet with the Perseverance rover, which is also preparing for its main science mission. |url=https://www.nytimes.com/2021/03/23/science/nasa-mars-helicopter.html |date=23 March 2021 |work=[[The New York Times]] |access-date=23 March 2021 }}</ref><ref name="NASA-20210323">{{cite news |last1=Johnson |first1=Alana |last2=Hautaluoma |first2=Grey |last3=Agle |first3=DC |title=NASA Ingenuity Mars Helicopter Prepares for First Flight |url=https://mars.nasa.gov/news/8896 |date=23 March 2021 |work=[[NASA]] |access-date=23 March 2021 }}</ref> The helicopter was deployed to the surface on April 3, 2021,<ref name="ibtimes.com">[http://www.ibtimes.com/nasas-mars-helicopter-small-autonomous-rotorcraft-fly-red-planet-2680575 "NASA's Mars Helicopter: Small, Autonomous Rotorcraft To Fly On Red Planet"] {{Webarchive|url=https://web.archive.org/web/20180710011219/http://www.ibtimes.com/nasas-mars-helicopter-small-autonomous-rotorcraft-fly-red-planet-2680575|date=10 July 2018}}, Shubham Sharma, ''International Business Times'', 14 May 2018</ref><ref name="Universe2018">{{cite web|date=July 2018|title=Mars Helicopter a new challenge for flight |url=https://www.jpl.nasa.gov/universe/archive/universe1807.pdf|url-status=live|archive-url=https://web.archive.org/web/20200101170951/https://www.jpl.nasa.gov/universe/archive/universe1807.pdf|archive-date=1 January 2020|access-date=20 July 2018|publisher=NASA}} {{PD-notice}}</ref> and ''Perseverance'' drove approximately {{cvt|100|m}} away to allow the drone a safe "buffer zone" in which it made its first flight.<ref name="NYT-20210419">{{cite news |last=Chang |first=Kenneth |title=NASA's Mars Helicopter Achieves First Flight on Another World - The experimental Ingenuity vehicle completed the short but historic up-and-down flight on Monday morning.|url=https://www.nytimes.com/2021/04/19/science/nasa-mars-helicopter.html |date=19 April 2021 |work=[[The New York Times]] |accessdate=19 April 2021 }}</ref>{{sfn|Status 290}} Success was confirmed three hours later in a [[livestreaming]] TV feed of JPL mission control.<ref name="Ginny-flight">{{cite AV media|url=https://www.youtube.com/watch?v=p1KolyCqICI|title=First Flight of the Ingenuity Mars Helicopter: Live from Mission Control|publisher=NASA|via=YouTube |date=19 April 2021|access-date=19 April 2021}}</ref><ref name="Ingenuity passes full speed test">{{cite web|date=17 April 2021|title=Mars Helicopter completed full-speed spin test|url=https://twitter.com/NASA/status/1383221042504638464|access-date=17 April 2021|website=Twitter|publisher=NASA}}</ref><ref name="MarsDaily_2021_04_17">{{cite web | last = Mccurdy | first = Christen | title = Mars Ingenuity flight scheduled for Monday, NASA says | work = Mars Daily | publisher = [[ScienceDaily]] | date = Apr 17, 2021 | url = https://www.marsdaily.com/reports/Mars_Ingenuity_flight_scheduled_for_Monday_NASA_says_999.html | accessdate = 2021-04-18 }}</ref> On its fourth flight, April 30, 2021, ''Ingenuity'' became the first interplanetary spacecraft whose sound was recorded by another interplanetary spacecraft, ''Perseverance''.<ref>{{Cite web|last=mars.nasa.gov|title=NASA's Perseverance Captures Video, Audio of Fourth Ingenuity Flight|url=https://mars.nasa.gov/news/8941 |access-date=2021-05-07|website=NASA’s Mars Exploration Program|language=en}}</ref>

''Ingenuity'' carries a piece of fabric from the wing of the 1903 ''[[Wright Flyer]]'', the [[Wright Brothers]]' airplane used in the first controlled powered heavier-than-air flight on Earth. The initial take-off and landing area for ''Ingenuity'' is named Wright Brothers Field as a tribute.<ref name=":4" /> Before ''Ingenuity'', the first flight of any kind on a planet beyond Earth was an unpowered [[Balloon (aeronautics)|balloon flight]] on [[Venus]], by the Soviet [[Vega 1]] spacecraft in 1985.<ref name="ASM-20210420">{{cite news |last=Gallentine |first=Jay |title=The First Flight On Another World Wasn't on Mars. It Was on Venus, 36 Years Ago - Cool as it is, Ingenuity does not mark the dawn of extraterrestrial aviation. |url=https://www.airspacemag.com/daily-planet/ireali-first-flight-another-world-180977540/ |date=20 April 2021 |work=[[Air & Space/Smithsonian]] |accessdate=21 April 2021 }}</ref>

== Design ==

[[File:Anatomy of the Mars Helicopter.png|thumb|upright=1.2|The main components of ''Ingenuity''|left]]

{| class="wikitable floatright" style="font-size:85%; margin:0.2em 0em 1em 1.5em;"

|+ Flight characteristics of ''Ingenuity''

|-

| {{rh}} class="table-rh" | Rotor speed

| 2400 [[Revolutions per minute|rpm]]<ref name="landing press kit"/><ref name="fact sheet">{{cite web|title=Mars Helicopter Fact Sheet|publisher=NASA|date=February 2020 |url=https://mars.nasa.gov/files/mars2020/Mars2020_Helicopter_Fact_Sheet.pdf|access-date=2 May 2020|archive-url=https://web.archive.org/web/20200322202751/https://mars.nasa.gov/files/mars2020/Mars2020_Helicopter_Fact_Sheet.pdf|archive-date=22 March 2020|url-status=live}} {{PD-notice}}</ref>

|-

| {{rh}} class="table-rh" | Blade tip speed

| <0.7 [[Mach number|Mach]]<ref name="distance">[https://www.uasvision.com/2016/09/06/nasa-chooses-helicopter-for-mars-drone/ Mars Helicopter Scout]. video presentation at Caltech {{PD-notice}}</ref>

|-

| {{rh}} class="table-rh" | Originally planned operational time

| 1 to 5 flights within 30 sols<ref name="landing press kit"/><ref name="official website"/>

|-

| {{rh}} class="table-rh" | Flight time

| Up to 167 seconds per flight<ref name=":2">{{Cite web|title=#MarsHelicopter pushes its Red Planet limits.|url=https://mobile.twitter.com/nasajpl/status/1412092497552019458|access-date=2021-07-05|website=Twitter|language=en}}</ref>

|-

| {{rh}} class="table-rh" | Maximum range, flight

| {{cvt|625|m|4=-1}}<ref name=":2" />

|-

| {{rh}} class="table-rh" | Maximum range, radio

| {{cvt|1000|m}}<ref name="Balaram 2018"/>

|-

| {{rh}} class="table-rh" | Maximum altitude<!-- this is NOT a MaxAltitude for the helicopter in the martian atmosphere; it is merely the greatest distance above the ground that the helicopter has achieved-->

| {{cvt|12|m}}

|-

| {{rh}} class="table-rh" | Maximum possible speed

| {{Unbulleted list

| Horizontal: {{cvt|10|m/s}}<ref name="Witold 2018"/>

| Vertical: {{cvt|3|m/s}}<ref name="Witold 2018"/>

}}

|-

| {{rh}} class="table-rh" | Battery capacity

| {{cvt|35|-|40|Wh}}<ref name="veritasium20190810"/>

|}

The lower [[gravity of Mars]] (about a third of Earth's) only partially offsets the thinness of the 95% [[carbon dioxide]] [[atmosphere of Mars]]<ref>{{Cite web|last=September 2017|first=Tim Sharp 12|title=Mars' Atmosphere: Composition, Climate & Weather|url=https://www.space.com/16903-mars-atmosphere-climate-weather.html|access-date=2021-03-10|website=Space.com|language=en}}</ref> thus making it much harder for an aircraft to generate adequate [[Lift (force)|lift]]. The [[atmospheric density]] of the Red Planet is about {{frac|1|100}} as that of Earth at sea level, or approximately the same as {{cvt|87000|ft|m}}, an altitude never reached by existing helicopters. To keep ''Ingenuity'' aloft, its specially shaped blades of enlarged size must rotate at a speed at least 2400 and up to 2900 rpm, or about 10 times faster<ref name="Aung May2018" /> than what is needed on Earth.<ref>{{cite web |last1=Bachman |first1=Justin |title=Why flying a helicopter on Mars is a big deal |url=https://phys.org/news/2021-04-helicopter-mars-big.html |website=phys.org |access-date=21 April 2021 |date=April 19, 2021 |quote=Indeed, flying close to the surface of Mars is the equivalent of flying at more than 87,000 feet on Earth, essentially three times the height of Mount Everest, NASA engineers said. The altitude record for a helicopter flight on Earth is 41,000 feet.}}</ref><ref name=6Things/> The helicopter uses [[contra-rotating]] [[coaxial rotors]] about {{cvt|4|ft|order=flip}} in diameter. Each rotor is controlled by a separate [[swashplate]] that can affect both [[Helicopter flight controls|collective and cyclic pitch]].<ref>{{cite web |url=https://rotorcraft.arc.nasa.gov/Publications/files/GripAIAA.6.2019-1289.pdf |title=Flight Control System for NASA’s Mars Helicopter | author=Håvard Fjær Grip, Johnny N. Lam |publisher=NASA/JPL |date=2019|lang=en| format=pdf |accessdate=2021-04-16}}</ref>

There are two cameras on board: the downward-looking black-and-white navigation camera (NAV) and the color camera to make terrain images for return to Earth (RTE).<ref name="Balaram 2018" /> Although it is an aircraft, it was constructed to spacecraft specifications in order to endure the acceleration and vibrations during launch.<ref name=6Things>{{Cite web|last=https://jpl.nasa.gov|title=6 Things to Know About NASA's Mars Helicopter on Its Way to Mars|url=https://www.jpl.nasa.gov/news/6-things-to-know-about-nasas-mars-helicopter-on-its-way-to-mars|access-date=2021-01-21|website=NASA Jet Propulsion Laboratory (JPL)|language=en}}</ref> It also includes [[Radiation-resistant|radiation-resistant systems]] capable of operating in the environment of Mars. The inconsistent Mars magnetic field precludes the use of a [[compass]] for navigation, so ''Ingenuity'' relies upon different sensors grouped in two assemblies. All sensors are commercial off-the-shelf units.

The ''Upper Sensor Assembly'' with associated vibration isolation elements is mounted on the mast close to the center-of-mass of the vehicle to minimize the effects of angular rates and accelerations. It consists of a cellphone grade Bosch BMI-160 [[Inertial measurement unit]] (''IMU'') and an [[inclinometer]] ([[Murata Manufacturing|Murata]] SCA100T-D02), which is used only on the ground prior to flight to calibrate the IMU accelerometers biases. The ''Lower Sensor Assembly'' consists of an [[altimeter]] ([[Garmin]] [[Lidar|LIDAR]] Lite v3), both of the cameras and a secondary IMU, all mounted directly onto the Electronics Core Module and not onto the mast. The down-facing [[Omnivision]] OV7251 camera supports [[visual odometry]], in which images are processed to produce navigation solutions that calculate helicopter position, velocity, [[attitude control|attitude]], and other variables.<ref name="Balaram 2018" />

The helicopter uses [[solar panels on spacecraft|solar panels]] to recharge its [[Electric battery|batteries]], which are six Sony [[Lithium-ion battery|Li-ion]] cells with {{cvt|35|-|40|Wh}} of [[Energy density|energy capacity]]<ref name="veritasium20190810" /> (nameplate capacity of 2 [[Ampere hour|Ah]]).<ref name="Balaram 2018" /> Flight duration is not constrained by the available power, but by the motors heating up one degree centigrade every second.<ref name="NextStepsMediaBriefing">{{cite AV media|url=https://www.youtube.com/watch?v=BAlXe-U0ws4|title=NASA's Ingenuity Mars Helicopter's Next Steps|work=Media briefing|publisher=NASA/JPL|via=YouTube |date=30 April 2021|access-date=2021-04-30}}</ref>

The helicopter uses a [[Qualcomm Snapdragon]] 801 processor with a [[Linux]] operating system.<ref name="ieee-linux">{{cite news|url=https://spectrum.ieee.org/automaton/aerospace/robotic-exploration/nasa-designed-perseverance-helicopter-rover-fly-autonomously-mars|title=How NASA Designed a Helicopter That Could Fly Autonomously on Mars|date=17 February 2021|work=IEEE Spectrum|access-date=19 February 2021 |archive-date=19 February 2021|archive-url=https://web.archive.org/web/20210219054558/https://spectrum.ieee.org/automaton/aerospace/robotic-exploration/nasa-designed-perseverance-helicopter-rover-fly-autonomously-mars|url-status=live}}</ref> Among other functions, this processor controls the visual navigation algorithm via a velocity estimate derived from terrain features tracked with the navigation camera.<ref>{{cite journal|last1=Matthies|first1=Bayard|last2=Delaune|first2=Conway|title=Vision-Based Navigation for the NASA Mars Helicopter|journal=AIAA Scitech 2019 Forum |issue=1411|year=2019|pages=3|doi=10.2514/6.2019-1411|isbn=978-1-62410-578-4}}</ref> The Qualcomm processor is connected to two flight-control [[microcontroller]] units (MCUs) to perform the necessary [[Helicopter flight controls|flight-control]] functions.<ref name="Balaram 2018" />

The telecommunication system consists of two identical radios with [[monopole antenna|monopole antennae]] which support the data exchange between the helicopter and the rover. The radio link is built upon the low-power [[Zigbee]] [[communication protocol]]s, implemented via 914 [[Hertz|MHz]] SiFlex 02 [[chipset]]s mounted in both the rover and helicopter. The communication system is designed to relay data at 250 [[Data-rate units#Kilobit per second|kbit/s]] over distances of up to {{cvt|1000|m}}. Antenna located on the solar panel of the helicopter weights 4 grams and may communicate equally in all directions.<ref name="Chahat" />

{{clear}}

{{multiple image| align = right| direction = vertical| width = 270

| image1 = Mars Helicopter Team (2018).jpg

| caption1 = The Mars Helicopter Team in 2018.<br><small>See the full list of employees in the photo description at Wikipedia Commons</small>

| image2 = PIA23317-Mars2020Helicopter-Team-20190730.jpg

| caption2 = Some of the ''Ingenuity'' team in 2019

}}

=== The team ===

The history of the Mars Helicopter team dates back to 2012, when MiMi Aung was leading then JPL director [[Charles Elachi]] on a tour of the Autonomous Systems Division. Looking at the drones demonstrating onboard navigation algorithms in one of the labs, Elachi asked, "Hey, why don’t we do that on Mars?" Engineer Bob Balaram briefed Elachi about feasibility, and a week later Elachi told him, "Okay, I’ve got some study money for you". By January 2015 NASA agreed to fund the development of a full-size model, which came to be known as the “risk reduction” vehicle. As project manager, Aung assembled a multidisciplinary team of scientists, engineers, and technicians leveraging all of NASA’s expertise.<ref name="Lerner">{{cite news |author=Preston Lerner |title=A Helicopter Dreams of Mars |url=https://www.airspacemag.com/space/helicopter-dreams-of-mars-180971739/ |date=April 2019 |work=[[Air & Space/Smithsonian]] |accessdate=16 August 2021 }}</ref>

The JPL team was never larger than 65 full-time-equivalent employees, but program workers at AeroVironment and NASA AMES and Langley research centers brought the total to 150.<ref name="Lerner" /> Team members include:

* [[MiMi Aung]] — Ingenuity Mars Helicopter Project Manager at NASA’s Jet Propulsion Laboratory,{{sfn|Status 293}}{{sfn|Status 294}}{{sfn|Status 297}} «the Mars Helicopter Scout proposal lead»<ref name="Lerner" />

* [[Bob Balaram]] — Chief Engineer{{sfn|Status 287}}{{sfn|Status 288}}{{sfn|Status 301}}{{sfn|Status 313}}

* Teddy Tzanetos — Operations Lead{{sfn|Status 308}}{{sfn|Status 316}}{{sfn|Status 321}}

* [[Håvard Fjær Grip]] — Chief Pilot{{sfn|Status 295}}{{sfn|Status 298}}{{sfn|Status 305}}{{sfn|Status 313}}{{sfn|Status 314}}{{sfn|Status 321}}

* Josh Ravich — Mechanical Engineering Lead{{sfn|Status 299}}{{sfn|Status 318}}

* Nacer Chahat — Senior antenna/microwave engineer (designed the antennae supporting the radio link on both Ingenuity and Perseverance)<ref name="Chahat">{{cite AV media|url=https://youtube.com/watch?v=GzteogKj5d8| title=On Mars, the amazing design of the radio link between Ingenuity and the Perseverance rover| publisher=Université de Rennes|via=YouTube |date=April 10, 2021 |lang=fr |time=00:07:27}}</ref>

On June 15, 2021, the team behind ''Ingenuity'' was named the 2021 winner of the John L. “Jack” Swigert, Jr. Award for Space Exploration from the Space Foundation.<ref>{{Cite web|date=2021-06-09|title=Space Foundation Selects NASA JPL Ingenuity Mars Helicopter Flight Team To Receive 2021 John L. ’Jack’ Swigert Jr. Award for Space Exploration|url=https://www.spacefoundation.org/2021/06/09/space-foundation-selects-nasa-jpl-ingenuity-mars-helicopter-flight-team-to-receive-2021-john-l-jack-swigert-jr-award-for-space-exploration/|access-date=2021-06-16|website=Space Foundation|language=en-US}}</ref>

=== Conceptual design ===

NASA's JPL and [[AeroVironment]] published the conceptual design in 2014 for a scout helicopter to accompany a rover.<ref name="Witold 2018" /><ref>J. Balaram and P. T. Tokumaru, "Rotorcrafts for Mars Exploration", in 11th International Planetary Probe Workshop, 2014, Bibcode 2014LPICo1795.8087B https://ui.adsabs.harvard.edu/abs/2014LPICo1795.8087B/abstract {{Webarchive |url=https://web.archive.org/web/20210217180743/https://ui.adsabs.harvard.edu/abs/2014LPICo1795.8087B/abstract|date=17 February 2021}}</ref><ref>Benjamin T. Pipenberg, Matthew Keennon, Jeremy Tyler, Bart Hibbs, Sara Langberg, J. (Bob) Balaram, Håvard F. Grip and Jack Pempejian, "[https://doi.org/10.2514/6.2019-0620 Design and Fabrication of the Mars Helicopter Rotor, Airframe, and Landing Gear Systems] {{Webarchive |url=https://web.archive.org/web/20210221200015/https://arc.aiaa.org/doi/10.2514/6.2019-0620|date=21 February 2021}}", American Institute of Aeronautics and Astronautics (AIAA), SciTech Forum Conference; 7–11 January 2019, San Diego, California</ref> By mid-2016, $15 million was being requested to continue development of the helicopter.<ref>{{cite news|last=Berger|first=Eric |url=https://arstechnica.com/science/2016/05/four-wild-technologies-lawmakers-want-nasa-to-pursue/|title=Four wild technologies lawmakers want NASA to pursue|publisher=ARS Technica|date=24 May 2016|access-date=24 May 2016}}</ref> By December 2017, engineering models of the vehicle had been tested in a simulated [[Atmosphere of Mars|martian atmosphere]]<ref name="Balaram 2018"/><ref name="Aung May2018">{{cite news |url=https://spaceflightnow.com/2018/05/14/helicopter-to-accompany-nasas-next-mars-rover-to-red-planet/|title=Helicopter to accompany NASA's next Mars rover to Red Planet|first=Stephen|last=Clarke |publisher=Spaceflight Now|date=14 May 2018}}</ref> and models were undergoing testing in the [[Arctic]], but its inclusion in the mission had not yet been approved or funded.<ref>{{cite news |url=https://www.allaboutcircuits.com/news/nasa-projects-may-soon-use-drones-for-space-exploration-mars/|title=Drones on Mars? NASA Projects May Soon Use Drones for Space Exploration|publisher=All About Circuits|first=Chantelle|last=Dubois|date=29 November 2017|access-date=14 January 2018|archive-url=https://web.archive.org/web/20171207135954/https://www.allaboutcircuits.com/news/nasa-projects-may-soon-use-drones-for-space-exploration-mars/|archive-date=7 December 2017|url-status=live}}</ref> The [[United States federal budget]], announced in March 2018, provided $23 million for the helicopter for one year,<ref>[http://spacenews.com/nasa-mars-exploration-efforts-turn-to-operating-existing-missions-and-planning-sample-return/ NASA Mars exploration efforts turn to operating existing missions and planning sample return], Jeff Foust, ''SpaceNews'', 23 February 2018</ref><ref>[https://spaceflightnow.com/2018/03/15/nasa-to-decide-soon-whether-flying-drone-will-launch-with-mars-2020-rover/ NASA to decide soon whether flying drone will launch with Mars 2020 rover] {{Webarchive|url=https://web.archive.org/web/20210221200015/https://spaceflightnow.com/2018/03/15/nasa-to-decide-soon-whether-flying-drone-will-launch-with-mars-2020-rover/ |date=21 February 2021}} Stephen Clark ''Spaceflight Now'' 15 March 2018</ref> and it was announced on May 11, 2018 that the helicopter could be developed and tested in time to be included in the [[Mars 2020]] mission.<ref name="HMS approved">[https://www.nasa.gov/press-release/mars-helicopter-to-fly-on-nasa-s-next-red-planet-rover-mission Mars Helicopter to Fly on NASA's Next Red Planet Rover Mission] {{Webarchive|url=https://web.archive.org/web/20180511214706/https://www.nasa.gov/press-release/mars-helicopter-to-fly-on-nasa-s-next-red-planet-rover-mission/|date=11 May 2018}} Karen Northon, NASA, 11 May 2018 {{PD-notice}}</ref> The helicopter underwent extensive [[Flight dynamics|flight-dynamics]] and environment testing,<ref name="Balaram 2018"/><ref name="NASA-20190328">{{cite news|last1=Agle|first1=AG|last2=Johnson|first2=Alana |title=NASA's Mars Helicopter Completes Flight Tests|url=https://www.jpl.nasa.gov/news/news.php?feature=7361|date=28 March 2019|publisher=NASA|access-date=28 March 2019|archive-url=https://web.archive.org/web/20190329030100/https://www.jpl.nasa.gov/news/news.php?feature=7361|archive-date=29 March 2019|url-status=live}} {{PD-notice}}</ref> and was mounted on the underside of the ''Perseverance'' rover in August 2019.<ref name="Integrated">[https://www.jpl.nasa.gov/news/news.php?feature=7489 NASA's Mars Helicopter Attached to Mars 2020 Rover] {{Webarchive |url=https://web.archive.org/web/20191104070701/https://www.jpl.nasa.gov/news/news.php?feature=7489|date=4 November 2019}} NASA–JPL 28 August 2019 {{PD-notice}}</ref> NASA spent about $80 million to build ''Ingenuity'' and about $5 million to operate the helicopter.<ref name="PK2020">{{cite web |url=https://www.jpl.nasa.gov/news/press_kits/mars_2020/download/mars_2020_launch_press_kit.pdf|title=Mars 2020 Perseverance Launch Press Kit|publisher=NASA|date=24 June 2020|access-date=20 August 2020|archive-date=21 July 2020|archive-url=https://web.archive.org/web/20200721065209/https://www.jpl.nasa.gov/news/press_kits/mars_2020/download/mars_2020_launch_press_kit.pdf|url-status=live}} {{PD-notice}}</ref>

In April 2020, the vehicle was named ''Ingenuity'' by Vaneeza Rupani, a girl in the 11th grade at [[Tuscaloosa County High School]] in [[Northport, Alabama]], who submitted an essay into NASA's "Name the Rover" contest.<ref name="NASA-20200429a">{{cite news|last1=Hautaluoma|first1=Grey|last2=Johnson|first2=Alana|last3=Agle|first3=D.C.|date=29 April 2020|title=Alabama High School Student Names NASA's Mars Helicopter|publisher=NASA |url=https://www.jpl.nasa.gov/news/news.php?feature=7650|url-status=live|access-date=29 April 2020|archive-url=https://web.archive.org/web/20200430003052/https://www.jpl.nasa.gov/news/news.php?feature=7650 |archive-date=30 April 2020}} {{PD-notice}}</ref><ref name="NASA-20200429b">{{cite news|last1=Agle|first1=D.C.|last2=Cook|first2=Jia-Rui|last3=Johnson|first3=Alana|date=29 April 2020|title=Q&A with the Student Who Named Ingenuity, NASA's Mars Helicopter|publisher=NASA|url=https://www.jpl.nasa.gov/news/news.php?feature=7651|url-status=live|access-date=29 April 2020|archive-url=https://web.archive.org/web/20200604071336/https://www.jpl.nasa.gov/news/news.php?feature=7651|archive-date=4 June 2020}} {{PD-notice}}</ref> Known in planning stages as the Mars Helicopter Scout,<ref name="distance"/> or simply the Mars Helicopter,<ref name="fact sheet"/> the nickname ''Ginny'' later entered use in parallel to the parent rover ''Perseverance'' being affectionately referred to as ''Percy''.<ref name="apod">{{cite web|date=2 March 2021|title=Astronomy Picture of the Day|url=https://apod.nasa.gov/apod/ap210302.html|access-date=4 March 2021|publisher=NASA}} {{PD-notice}}</ref>

''Ingenuity'' was designed to be a [[technology demonstrator]] by [[JPL]] to assess whether such a vehicle could fly safely. Before it was built, launched and landed, scientists and managers expressed hope that helicopters could provide better mapping and guidance that would give future mission controllers more information to help with travel routes, planning and hazard avoidance.<ref name="NASA-20180511b">{{cite web |title=Mars Helicopter to Fly on NASA's Next Red Planet Rover Mission |url=https://mars.nasa.gov/news/8335 |date=11 May 2018|publisher=NASA|access-date=11 May 2018|url-status=live}} {{PD-notice}}</ref><ref name="NYT-20180511">{{cite news|last=Chang|first=Kenneth|title=A Helicopter on Mars? NASA Wants to Try |url=https://www.nytimes.com/2018/05/11/science/mars-helicopter-nasa.html|newspaper=The New York Times|access-date=12 May 2018|archive-url=https://web.archive.org/web/20180512130422/https://www.nytimes.com/2018/05/11/science/mars-helicopter-nasa.html|archive-date=12 May 2018|url-status=live}}</ref><ref name="VRG-20180511">{{cite web|last=Gush |first=Loren|title=NASA is sending a helicopter to Mars to get a bird's-eye view of the planet – The Mars Helicopter is happening|url=https://www.theverge.com/2018/5/11/17346414/nasa-mars-2020-helicopter-atmosphere|date=11 May 2018|publisher=The Verge|access-date=11 May 2018|archive-date=6 December 2020|archive-url=https://web.archive.org/web/20201206232523/https://www.theverge.com/2018/5/11/17346414/nasa-mars-2020-helicopter-atmosphere|url-status=live}}</ref> Based on the performance of previous rovers through ''Curiosity'', it was assumed that such aerial scouting might enable future rovers to safely drive up to three times as far per [[Timekeeping on Mars|sol]].<ref>[http://epubs.surrey.ac.uk/841669/1/ScienceRobotics-SpaceRoboticsSurvey%20GaoChien_no%20figure_final.pdf Review on space robotics: Toward top-level science through space exploration] {{Webarchive |url=https://web.archive.org/web/20210221200009/http://epubs.surrey.ac.uk/841669/1/ScienceRobotics-SpaceRoboticsSurvey%20GaoChien_no%20figure_final.pdf|date=21 February 2021}} Y. Gao, S. Chien – Science Robotics, 2017</ref><ref>{{Cite web |date=2021-02-19|title=NASA’s Mars Helicopter Reports In |url=https://mars.nasa.gov/news/8867 |publisher=NASA|access-date=2021-02-23}} {{PD-notice}}</ref> However, the new AutoNav capability at Perseverance significantly reduced this advantage, allowing the rover to cover more than 100 meters per sol.{{sfn|Ianson, Meyer|p=8}}

=== Preliminary tests on Earth ===

In 2019, preliminary designs of ''Ingenuity'' were tested on Earth in simulated [[Atmosphere of Mars|Mars atmospheric]] and [[gravity]] conditions. For [[flight test]]ing, a large [[vacuum chamber]] was used to simulate the very low pressure of the [[atmosphere of Mars]] – filled with [[carbon dioxide]] to approximately 0.60% (about {{Frac|160}}) of standard atmospheric pressure at [[sea level]] on Earth – which is roughly equivalent to a helicopter flying at {{cvt|34000|m}} altitude in the [[atmosphere of Earth]]. In order to simulate the much reduced gravity field of Mars (38% of Earth's), 62% of Earth's gravity was offset by a line pulling upwards during flight tests.<ref name="veritasium20190810">{{cite AV media|url=https://www.youtube.com/watch?v=GhsZUZmJvaM|title=First Flight on Another Planet!|publisher=Veritasium|via=YouTube |date=10 August 2019|access-date=3 August 2020|archive-url=https://web.archive.org/web/20200728075025/https://www.youtube.com/watch?v=GhsZUZmJvaM|archive-date=28 July 2020|url-status=live}}</ref> A "wind-wall" consisting of almost 900 [[computer fan]]s was used to provide wind in the chamber.{{sfn|Status 289}}<ref name="PreflightBriefing">{{cite AV media|url=https://www.youtube.com/watch?v=9C_IyUdKKXI|title=Ingenuity Mars Helicopter Preflight Briefing|date=9 April 2021|publisher=NASA [[Jet Propulsion Laboratory]]|format=press conference livestreamed on YouTube}}</ref>{{rp|1:08:05–1:08:40}}

==Mission profile==

After deployment, the rover drove approximately {{cvt|100|m}} away from the drone to allow a safe flying zone.<ref name="ibtimes.com" /><ref name="Universe2018">{{cite web|date=July 2018|title=Mars Helicopter a new challenge for flight |url=https://www.jpl.nasa.gov/universe/archive/universe1807.pdf|url-status=live|archive-url=https://web.archive.org/web/20200101170951/https://www.jpl.nasa.gov/universe/archive/universe1807.pdf|archive-date=1 January 2020|access-date=20 July 2018|publisher=NASA}} {{PD-notice}}</ref> The ''Ingenuity'' helicopter was expected to fly up to five times during a 30-day test campaign, early in the rover's mission.<ref name="landing press kit" /><ref name="spacenews 20180504">[http://spacenews.com/decision-expected-soon-on-adding-helicopter-to-mars-2020/ Decision expected soon on adding helicopter to Mars 2020], Jeff Fout, ''SpaceNews'' 4 May 2018</ref>

[[File:Ingenuity Helicopter with fully deployed legs (cropped).png|left|thumb|''Ingenuity'', fully deployed.]]

Each flight was planned for altitudes ranging {{cvt|3|-|5|m|0}} above the ground, though ''Ingenuity'' soon exceeded that planned height.<ref name="landing press kit" /> The first flight was a hover at an altitude of {{cvt|3|m}}, lasting about 40 seconds and including taking a picture of the rover. The first flight succeeded, and subsequent flights were increasingly ambitious as allotted time for operating the helicopter dwindled. JPL said the mission might even stop before the 30-day period ended, in the likely event that the helicopter crashed,<ref name="PreflightBriefing" />{{rp|0:49:50–0:51:40}} an outcome which did not occur. In up to 90 seconds per flight, ''Ingenuity'' could travel as far as {{cvt|50|m}} [[downrange]] and then back to the starting area, though that goal was also soon exceeded with the fourth flight.<ref name="landing press kit" />{{sfn|Status 297}} The helicopter uses [[autonomous robot|autonomous control]] during its flights, which are [[telerobotic]]ally planned and scripted by operators at [[Jet Propulsion Laboratory]] (JPL). It communicates with the ''Perseverance'' rover directly before and after each landing.<ref name="PreflightBriefing" />{{rp|1:20:38–1:22:20}}

After the successful first three flights, the objective was changed from technology demonstration to operational demonstration. The goal shifted towards supporting the rover science mission by mapping and scouting the terrain.<ref>{{cite web |title=Breaking: Mars Helicopter Is Now A Fully Operational Partner Of Perseverance |url=https://www.iflscience.com/space/breaking-mars-helicopter-is-now-a-fully-operational-partner-of-perseverance/ |website=IFLScience |access-date=30 April 2021 |language=en}}</ref> While ''Ingenuity'' would do more to help ''Perseverance'', the rover would pay less attention to the helicopter and stop taking pictures of it in flight. JPL managers said the photo procedure took an "enormous" amount of time, slowing the project's main mission of looking for signs of ancient life.<ref>{{cite web |last1=Gohd |first1=Chelsea |title=NASA extends Mars helicopter Ingenuity's high-flying mission on Red Planet |url=https://www.space.com/nasa-mars-helicopter-ingenuity-mission-extended |website=Space.com |access-date=10 June 2021 |date=April 30, 2021}}</ref> On 30 April 2021, the fourth flight successfully captured numerous color photos and explored the surface with its black-and-white navigation camera.{{sfn|Status 297}} On May 7, ''Ingenuity'' successfully flew to a new landing site.

On 5 September 2021, after successful completion of the Operations Demonstration phase, the mission was extended indefinitely.<ref>{{Cite web|date=2021-09-06|title=Ingenuity Is So Good, NASA's Mars Helicopter Mission Just Got an Exciting Update |url=https://www.sciencealert.com/remember-nasa-s-little-mars-copter-it-s-still-going-strong/amp|access-date=2021-09-06|website=Science Alert|language=en-US}}</ref>

==Operational history==

[[File:Perseverance Distance Graph.svg|thumb|Comparison of total distance traveled between ''Ingenuity'' and ''Perseverance''.{{efn|name=note|Flights 1 and 2 are not seen because they include little, if any, horizontal movement.}}|left]]

[[File:Mars 2020 Perseverance Rover Traverse Path And Ingenuity Helicopter Flight Path.jpg|thumb|Tracks and locations of ''Perseverance'' and ''Ingenuity'' as of August 5 2021<ref name="roadmaps">{{cite web|title=Where is Perseverance?|url=https://mars.nasa.gov/mars2020/mission/where-is-the-rover| publisher=NASA|access-date=September 2, 2021|lang=en}}

</ref><!-- replaced with a multi-usage reference to this source-->]]

[[File:Perseverance enters Séítah on sol 201.jpg|400px|thumb|right|Perseverance enters Séítah on sol 201]]

''Perseverance'' dropped the debris shield protecting ''Ingenuity'' on March 21, 2021, and the helicopter deployed from the underside of the rover to the martian surface on April 3, 2021.<ref name="NASA-20210404">{{cite web |title=NASA's Mars Helicopter Survives First Cold Martian Night on Its Own |url=https://mars.nasa.gov/news/8906 |website=Nasa Mars Website}}</ref> That day both cameras of the helicopter were tested taking their first b/w and color photos of the floor of Jezero Crater in the shadow of the rover.<ref name="NASA-20200623b">{{cite news|last1=Agle|first1=D.C.|last2=Hautaluoma |first2=Gray|last3=Johnson |first3=Alana |title=How NASA's Mars Helicopter Will Reach the Red Planet's Surface|url=https://www.jpl.nasa.gov/news/8699 |date=23 June 2020|publisher=NASA|access-date=23 February 2021 |archive-date=19 February 2021|archive-url=https://web.archive.org/web/20210219062523/https://www.jpl.nasa.gov/news/how-nasas-mars-helicopter-will-reach-the-red-planets-surface|url-status=live}} {{PD-notice}}</ref><ref name="first color photo">{{cite news|url=https://mars.nasa.gov/resources/25782|title=Ingenuity's First Color Snap|publisher=NASA|date=5 April 2021|access-date=8 April 2021}}</ref>

''Ingenuity''{{'s}} rotor blades were successfully unlocked on April 8, 2021 (mission sol 48), and the helicopter performed a low-speed rotor spin test at 50 rpm.<ref>{{cite news|url=https://www.independent.co.uk/life-style/gadgets-and-tech/nasa-mars-ingenuity-helicopter-perseverance-rover-b1828663.html|title=NASA Unlocks Mars Helicopter's Rotor Blades Ahead Of Pioneering Ingenuity Flight|first=Andrew|last=Griffith|work=The Independent|date=8 April 2021|access-date=8 April 2021}}</ref><ref>{{cite news|url=https://www.space.com/mars-helicopter-ingenuity-unlocks-rotor-blades|title=Mars helicopter Ingenuity unlocks its rotor blades to prepare for 1st flight on Red Planet|first=Meghan|last=Bartels|publisher=Space.com|date=8 April 2021|access-date=8 April 2021}}</ref><ref name="MEP-resources-25796">{{cite web|title=Ingenuity Begins to Spin Its Blades|url=https://mars.nasa.gov/resources/25796/ingenuity-begins-to-spin-its-blades/|website=NASA's Mars Exploration Program|publisher=NASA|date=9 April 2021}}</ref><ref>{{Cite web|date=9 April 2021|title=Mars Helicopter has moved its blades & spun to 50 rpm|url=https://twitter.com/NASAJPL/status/1380404668069650437|access-date=18 April 2021|website=Twitter|publisher=NASA JPL}}</ref>

A high-speed spin test was attempted on April 9, but failed due to the expiration of a [[watchdog timer]], a software measure to protect the helicopter from incorrect operation in unforeseen conditions.{{sfn|Status 291}} On April 12, JPL said it identified a software fix to correct the problem.{{sfn|Status 290}} To save time, however, JPL decided to use a workaround procedure, which managers said had an 85% chance of succeeding and would be "the least disruptive" to the helicopter.{{sfn|Status 293}}

On April 16, 2021, ''Ingenuity'' successfully passed the full-speed 2400 rpm rotor spin test while remaining on the surface.{{sfn|Status 292}}<ref name="Ingenuity passes full speed test" /> Three days later, April 19, JPL flew the helicopter for the first time. The watchdog timer problem occurred again when the fourth flight was attempted. The team rescheduled the flight, which succeeded on April 30. On June 25, JPL said it had uploaded a software update the previous week to permanently fix the watchdog problem, and that a rotor spin test and the eighth flight confirmed that the update worked.{{sfn|Status 308}}

The ''Ingenuity'' team plans to fly the helicopter every two to three weeks during its indefinitely extended mission.<ref>{{Cite web|date=2021-09-06|title=Ingenuity Is So Good, NASA's Mars Helicopter Mission Just Got an Exciting Update |url=https://www.sciencealert.com/remember-nasa-s-little-mars-copter-it-s-still-going-strong/amp|access-date=2021-09-06|website=Science Alert|language=en-US}}</ref> The helicopter's longer-than-expected flying career lasted into a seasonal change on Mars, when the atmospheric density at its location became even lower. The flight team prepared by commanding ''Ingenuity'' to ground-test a faster rotor blade rotation, needed for sufficient lift. JPL said the higher planned flight speed of 2700 rpm would pose new risks, including vibration, power consumption and aerodynamic drag if the blade tips approach the speed of sound.<ref>{{cite web |last1=Grip |first1=Håvard |title=Flying on Mars Is Getting Harder and Harder |url=https://mars.nasa.gov/technology/helicopter/status/334/flying-on-mars-is-getting-harder-and-harder/ |website=Mars Helicopter Tech Demo |publisher=NASA |access-date=18 September 2021 |date=September 15, 2021}} The test speed was 2800 rpm, giving a margin for increase if the intended flight speed of 2700 is not enough.</ref> ''Ingenuity'' will face another challenge to remain functional during the Martian winter and [[Solar conjunction|solar conjunction]], when Mars will move behind the Sun, blocking communications with Earth and forcing the rover and helicopter to halt operations. The shutdown will happen in mid-October 2021, for which preparations were to start in mid-September.<ref>{{Cite web|title=NASA's Ingenuity Helicopter to Begin New Demonstration Phase|url=https://mars.nasa.gov/news/8936 |website=NASA|date=30 April 2021|access-date=3 May 2021}}</ref><ref>{{Cite web|last=mars.nasa.gov|title=Solar Conjunction {{!}} Mars in our Night Sky|url=https://mars.nasa.gov/all-about-mars/night-sky/solar-conjunction|access-date=2021-08-18|website=NASA’s Mars Exploration Program|language=en}}</ref> If the helicopter is still responsive after enduring harsh conditions of the blackout period JPL may continue flying it; otherwise the team will terminate the mission.<ref>{{Cite web|date=2021-07-29|title=The 10 flights of NASA's Ingenuity Mars helicopter in one chart|url=https://www.businessinsider.com.au/map-chart-nasa-mars-ingenuity-helicopter-flight-path-distance-record-2021-7|access-date=2021-08-30|website=Business Insider Australia|language=en-AU}}</ref><ref>{{Cite web|date=2021-09-05|title=After Six Months On Mars, NASA's Tiny Helicopter Is Still Flying High|url=https://www.ndtv.com/world-news/after-six-months-on-mars-nasas-tiny-helicopter-is-still-flying-high-2530257?amp=1&akamai-rum=off|access-date=2021-09-05|website=NDTV|language=en-IND}}</ref>

===List of flights===

<!--just for editors keen with time calculation perseverance time is using this https://www.giss.nasa.gov/tools/mars24/download/ or [[Timekeeping on Mars]] and please enter time in UTC only-->

{| class="wikitable" style="text-align:center"

|+

|-

!Flight No.

!Date (UTC)<br />(Sol)

!Duration (sec)

!Max Altitude

!Horizontal Distance

!Max Groundspeed

!Route

!Summary

|-

|1

|April 19, 2021 at 07:34<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=19| year2=2021}})

|39.1

|{{cvt|3|m|sp=us}}

|{{cvt|0|m}}

|0&nbsp;m/s (0&nbsp;mph)

|style="text-align:left"|Vertical takeoff, hover, land at Wright Brothers field {{coord|18.44486|N|77.45102|E|globe:Mars}}

|style="text-align:left"| The first powered flight by any aircraft on another planet. While hovering, it rotated in place 96 degrees in a planned maneuver. Flight data was received at 11:30 UTC.<ref name=":0" /><ref>{{cite journal |last1=Witze |first1=Alexandra |title=Lift off! First flight on Mars launches new way to explore worlds |url=https://www.nature.com/articles/d41586-021-00909-z |journal=Nature |year=2021|volume=592|issue=7856|pages=668–669|doi=10.1038/d41586-021-00909-z |pmid=33875875|access-date=20 April 2021}}</ref>

|-

|2

|April 22, 2021 at 09:33<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=22| year2=2021}})

|51.9

|{{cvt|5|m}}

|{{cvt|4|m}} Roundtrip

|0.5&nbsp;m/s (~1&nbsp;mph)

|style="text-align:left"|Hover, shift westward {{Cvt|2|m|ft}}, hover, return, hover, land<ref>{{cite web|title=Mars helicopter's first flight could happen on Monday|url=https://www.cnn.com/2021/04/17/world/mars-helicopter-ingenuity-flight-monday-scn-trnd/index.html|website=CNN|quote=Ingenuity could fly four days after the first flight, then three days after the second flight and so on.}}</ref>{{sfn|Status 294}} {{Coord|18.44486|77.45102|globe:Mars}}

|style="text-align:left"| From its initial hover, it tilted 5 degrees, allowing the rotors to fly it 2 meters sideways. It stopped, hovered in place, and rotated counterclockwise, yawing from +90° to 0° to -90° to -180°, in 3 steps, to point its color camera in various directions to take photos. After that it flew back to its takeoff location.<ref>{{cite web|last=mars.nasa.gov|title=NASA's Ingenuity Mars Helicopter Logs Second Successful Flight|url=https://mars.nasa.gov/news/8928 |access-date=2021-04-25|website=NASA's Mars Exploration Program|language=en}}</ref>

|-

|3

|April 25, 2021 at 11:31<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=4 |day2=25| year2=2021}})

|80.3

|{{cvt|5|m}}

|{{cvt|100|m}} Roundtrip

|2&nbsp;m/s (~4.5&nbsp;mph)

|style="text-align:left"| Hover, shift northward {{Cvt|50|m}}, return, hover, land{{sfn|Status 295}}<ref name=JPL250421>{{cite web|date=25 April 2021|title=NASA's Ingenuity Mars Helicopter Flies Faster, Farther on Third Flight|url=https://www.jpl.nasa.gov/news/nasas-ingenuity-mars-helicopter-flies-faster-farther-on-third-flight|access-date=2021-04-25}}</ref> {{Coord|18.44486|77.45101|globe:Mars}}

|style="text-align:left"|This was first flight to venture some distance from the helicopter's deployment spot. It flew downrange 50 meters at a speed of two meters per second. After a short hovering above the turnback point it returned to land at the departure spot.<ref name="NYT-20210425">{{cite news |last=Chang |first=Kenneth |title='Nothing Short of Amazing': NASA Mars Helicopter Makes Longest Flight Yet - Ingenuity made a 328-foot round-trip journey, helping to demonstrate the capability of the vehicle's navigation system. |url=https://www.nytimes.com/2021/04/25/science/mars-helicopter-nasa.html |date=25 April 2021 |work=[[The New York Times]] |accessdate=26 April 2021 }}</ref> Data from the flight was received at 14:16 UTC.<ref name=JPL250421 />

|-

| rowspan="2"|4

| bgcolor="lemonchiffon"|April 29, 2021<ref>{{cite web|title=Aim high, and fly, fly again.|url=https://mobile.twitter.com/nasajpl/status/1387842380427001857|access-date=2021-04-29|website=Twitter|language=en}}</ref><ref name="SPC-20210429">{{cite news |last=Wall |first=Mike |title=Mars helicopter Ingenuity misses takeoff for 4th flight on Red Planet - NASA's team is assessing what happened. |url=https://www.space.com/mars-helicopter-ingenuity-fourth-flight-glitch |date=29 April 2021 |work=[[Space.com]] |accessdate=29 April 2021 }}</ref> (Sol {{age in sols|month1=2|day1=18|year1=2021|month2=4 |day2=29| year2=2021}})

| colspan="5" bgcolor="lemonchiffon" |First attempt of flight 4 failed

|style="text-align:left" bgcolor="lemonchiffon" | Reason: the onboard software did not transition to the flight mode.<ref name="NYT-20210430">{{cite news |last=Chang |first=Kenneth |title=NASA's Mars Helicopter Flies Again and Gets a New Mission - Ahead of a successful fourth flight, the agency announced that Ingenuity would continue to fly beyond its original month-long mission. |url=https://www.nytimes.com/2021/04/30/science/mars-helicopter-nasa.html|date=30 April 2021|work=[[The New York Times]]|accessdate=30 April 2021}}</ref>

|-

|April 30, 2021 at 14:49.{{sfn|Status 297}}<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=30|year2=2021}})

|116.9

|{{cvt|5|m}}

|{{cvt|266|m}} Roundtrip

|3.5&nbsp;m/s (~8&nbsp;mph)

|style="text-align:left"|Hover, shift southward {{Cvt|84|m}}, hover, return, hover, land<ref>{{cite web|date=29 April 2021|title=With Goals Met, NASA to Push Envelope With Ingenuity Mars Helicopter|url=https://www.jpl.nasa.gov/news/with-goals-met-nasa-to-push-envelope-with-ingenuity-mars-helicopter}}</ref> {{Coord|18.44486|77.45112|globe:Mars}}

|style="text-align:left"|Took color images while hovering at its farthest point from takeoff.{{sfn|Status 297}} During the fourth flight ''Perseverance'' rover recorded both audio and video of ''Ingenuity'',<ref>{{cite news|url=https://mars.nasa.gov/news/8941/nasas-perseverance-captures-video-audio-of-fourth-ingenuity-flight/|title=NASA's Perseverance Captures Video, Audio of Fourth Ingenuity Flight|publisher=NASA|date=7 May 2021|accessdate=7 May 2021}}</ref> making the helicopter the first interplanetary vehicle whose sound was heard and recorded by another interplanetary vehicle. In this flight, ''Ingenuity'' overtook Perseverance in the distance they travelled during the mission.

|-

|5

|May 7, 2021 at 19:26<ref>{{cite web|last=May 2021|first=Mike Wall 08|title=NASA's Mars helicopter Ingenuity lands at new airfield after 5th flight|url=https://www.space.com/mars-helicopter-ingenuity-fifth-flight-new-airfield|access-date=2021-05-09|website=Space.com|language=en}}</ref><br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=5 |day2=7| year2=2021}})

|108.2

|{{cvt|10|m}}

|{{cvt|129|m}}

|2&nbsp;m/s (~4.5&nbsp;mph)

|style="text-align:left"|Hover, shift southwards {{Cvt|129|m}}, climb to {{cvt|33|ft|order=flip}}, hover, land at Airfield&nbsp;B {{coord|18.44267|N|77.45139|E|globe:Mars}}

|style="text-align:left"|This was the first flight to land at a new location {{Convert|423|ft|order=flip|abbr=on}} to the south. On arrival, it gained altitude, hovered, captured a few color terrain images and then landed at that new site, Airfield&nbsp;B.<ref name="NextStepsMediaBriefing">{{cite AV media|url=https://www.youtube.com/watch?v=BAlXe-U0ws4|title=NASA's Ingenuity Mars Helicopter's Next Steps|work=Media briefing|publisher=NASA/JPL|via=YouTube |date=30 April 2021|access-date=2021-04-30}}</ref><ref name="NYT-20210507">{{cite news |last=Chang |first=Kenneth |title=NASA Mars Helicopter Makes One-Way Flight to New Mission – Ingenuity has flown almost flawlessly through the red planet's thin air and will now assist the science mission of the Perseverance rover. |url=https://www.nytimes.com/2021/05/07/science/mars-helicopter-nasa-ingenuity.html |date=7 May 2021 |work=[[The New York Times]] |accessdate=9 May 2021 }}</ref> This flight was the last in the technology demo phase.

|-

|6

|May 23, 2021 at 5:20<ref>{{cite web|last=May 2021|first=Mike Wall 27|title=Mars helicopter Ingenuity experiences anomaly on 6th flight, but lands safely|url=https://www.space.com/mars-helicopter-ingenuity-sixth-flight-anomaly|access-date=2021-06-10|website=Space.com|language=en}}</ref><ref>{{cite web |last1=Strickland |first1=Ashley |title=Mars helicopter survives to tell the tale of stressful flight |url=https://www.cnn.com/2021/05/28/world/mars-helicopter-flight-anomaly-scn/index.html |website=CNN |access-date=29 May 2021 |date=May 28, 2021}}</ref>{{sfn|Status 305}}<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=5 |day2=23| year2=2021}})

|139.9

|{{cvt|10|m}}

|{{cvt|215|m}} with direction changes

|4&nbsp;m/s (~9&nbsp;mph)

|style="text-align:left"|Shift southwest about {{cvt|150|m}}, southward about {{cvt|15|m}}, northeast about {{cvt|50|m}}, land near Airfield&nbsp;C {{coord|18.44166|N|77.44994|E|globe:Mars}}

|style="text-align:left"|This flight was the first in the operation demonstration phase. Towards the end of the first leg of the route a glitch in the navigation images processing system. Marking images with incorrect timestamps resulted in the craft tilting forward and backward up to 20 degrees, with large spikes in power consumption. Anyway, ''Ingenuity'' continued flying in that mode and landed about {{Cvt|5|m}} away from the planned site, assumed as its Airfield&nbsp;C.{{sfn|Status 305}}<ref>{{cite web |last1=Kooser |first1=Amanda |title=NASA Mars Ingenuity helicopter survives 'in-flight anomaly' on sixth flight |url=https://www.cnet.com/news/nasa-mars-ingenuity-helicopter-survives-stressful-in-flight-anomaly/ |website=Cnet |access-date=2 June 2021 |date=May 27, 2021}}</ref>

It was the first flight when helicopter had to land at an airfield which was not surveyed for it by other means than the MRO orbital imagery.

|-

| rowspan="2"|7

| bgcolor="lemonchiffon"|June 6, 2021{{sfn|Status 308}} (Sol {{age in sols|month1=2|day1=18|year1=2021|month2=6|day2=6|year2=2021}})

| colspan="5" bgcolor="lemonchiffon"|First attempt of flight 7 failed

|style="text-align:left" bgcolor="lemonchiffon"|…

|-

|June 8, 2021 at 15:54<ref>{{cite web |last1=Wall |first1=Mike |title=Mars helicopter Ingenuity aces 7th flight on the Red Planet |url=https://www.space.com/mars-helicopter-ingenuity-aces-seventh-flight |website=Space.com |access-date=9 June 2021}}</ref>{{sfn|Status 306}}<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=6 |day2=8| year2=2021}})

|62.8<ref>{{cite web|title=Another successful flight|url=https://mobile.twitter.com/nasajpl/status/1402408813156724737|access-date=2021-06-09|website=Twitter|language=en}}</ref>

|{{cvt|10|m}}<ref name="Flight log">{{cite web |title=Flight Log |url=https://mars.nasa.gov/technology/helicopter/#Flight-Log|website=Mars Helicopter Tech Demo|publisher=NASA|access-date=September 2, 2021}}</ref>

|{{cvt|106|m}}

|4&nbsp;m/s (~9&nbsp;mph)

|style="text-align:left"|Shift southward {{Cvt|106|m}} to land at Airfield&nbsp;D {{coord|18.43988|N|77.45015|E|globe:Mars}}

|style="text-align:left"|''Ingenuity'' flew {{Cvt|106|m}} south to a new landing spot and landed at Airfield&nbsp;D. The color camera was not used to prevent glitch of flight 6 happening again.

|-

|8

|June 22, 2021 at 0:27<ref>{{cite web|title=NASA JPL on Twitter|url=https://twitter.com/NASAJPL/status/1407211503397183488|access-date=2021-06-22|website=Twitter|language=en}}</ref><br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=6 |day2=22| year2=2021}})

|77.4

|{{cvt|10|m}}

|{{Cvt|160|m}}

|4&nbsp;m/s (~9&nbsp;mph)

|style="text-align:left"|Shift south south-east {{Cvt|160|m}} to land at Airfield&nbsp;E{{sfn|Status 308}} {{coord|18.43724|N|77.45079|E|globe:Mars}}

|style="text-align:left"|''Ingenuity'' flew about {{Cvt|160|m}} south to land at Airfield&nbsp;E, about {{Cvt|133.5|m}} away from ''[[Perseverance (rover)|Perseverance]]''. Just like the last flight, the color camera was not used to prevent the glitch of flight 6 happening again. The bug was fixed before flight 9.{{sfn|Status 308}}

|-

|9

|July 5, 2021 at 9:03<ref name="Flight log" /><br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=7|day2=5|year2=2021}})

|166.4

|{{cvt|10|m}}

|{{Cvt|625|m}}

|5&nbsp;m/s (~11&nbsp;mph)

|style="text-align:left"|Shift southwest {{Cvt|625|m|4=-1}} to Airfield&nbsp;F {{coord|18.42809|N|77.44545|E|globe:Mars}}

|style="text-align:left"|''Ingenuity'' flew a record length of {{Cvt|625|m|4=-1}} southwest, over [[Séítah]], a prospective research location in [[Jezero (crater)|Jezero crater]], at a record speed of five meters per second. This was a risky flight, straining the navigation system, which assumed flat ground while Séítah had uneven sand dunes. This was partly mitigated with the helicopter flying slower over the more challenging regions of the flight. Due to these errors, ''Ingenuity'' landed {{Cvt|47|m}} from the center of the {{Cvt|50|m}} radius airfield. This flight made ''Ingenuity''’s travel distance exceed ''Perseverance'' again.{{sfn|Status 313}}<ref>{{cite tweet|user=nasajpl|number=1412092497552019458|title=MarsHelicopter pushes its Red Planet limits|date=2021-07-05}}</ref>{{sfn|Status 314}}

|-

|10

|July 24, 2021 at 21:07{{sfn|Status 316}}<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=7|day2=24|year2=2021}})

|165.4<ref>{{cite news|title=NASA's Mars helicopter soars past 1-mile mark in 10th flight over Red Planet|url=https://www.space.com/mars-helicopter-ingenuity-completes-first-mile-10th-flight|first=Tariq|last=Malik|date=26 July 2021|work=Space.com}}</ref>

|{{cvt|12|m}}{{sfn|Status 316}}

|{{cvt|233|m}}<ref name="Flight log" />

|5&nbsp;m/s (~11&nbsp;mph)

|style="text-align:left"|Loop south and west over Raised Ridges to Airfield&nbsp;G {{coord|18.42808|N|77.44373|E|globe:Mars}}

|style="text-align:left"|''Ingenuity'' looped south and west over Raised Ridges, another prospective research location on Mars. Unlike the previous one, Perseverance is planned to visit here. ''Ingenuity'' flew a total distance of {{Cvt|233|m}} past 10 waypoints, including takeoff and landing, at a record height of {{Cvt|12|m}}.<ref>{{cite web|last1=Bendix|first1=Aria|title=NASA's Mars helicopter nailed its 10th flight — double what engineers had hoped Ingenuity would do |url=https://www.businessinsider.com/nasa-mars-ingenuity-helicopter-10th-flight-2021-7 |website=Business Insider |access-date=25 July 2021 |date=July 24, 2021}}</ref>

|-

|11

|August 5, 2021 at 4:53{{sfn|Status 318}}<ref>{{cite web|title=#MarsHelicopter has safely flown to a new location!|url=https://mobile.twitter.com/NASAJPL/status/1423316030055600133|access-date=2021-08-05|website=Twitter|language=en}}</ref><br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=8|day2=5|year2=2021}})

|130.9

|{{Cvt|12|m}}

|{{cvt|383|m}}

|5&nbsp;m/s (~11&nbsp;mph)

|style="text-align:left"|Shift northwest {{cvt|383|m}} to land at Airfield&nbsp;H {{coord|18.43278|N|77.43919|E|globe:Mars}}

|style="text-align:left"|This flight was primarily intended as a transition to a new takeoff point from where the next flight for the photographs of South Séítah region was planned.{{sfn|Status 318}}

|-

|12

|August 16, 2021 at 12:57<ref>{{Cite tweet|user=JPL|number=1427493737219776521 |title=A dozen for the books!}}</ref>{{sfn|Status 321}}<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=8|day2=16|year2=2021}})

|169.5

|{{Cvt|10|m}}

|~{{cvt|450|m}} Roundtrip

|4.3&nbsp;m/s (~10&nbsp;mph)

|style="text-align:left"|Roundtrip northeast for about {{Cvt|235|m}}, landed again near Airfield&nbsp;H {{coord|18.43268|N|77.43924|E|globe:Mars}}<!--{"longitude":{"value":77.43924267590046,"unit":"degree"},"latitude":{"value":18.432686037248846,"unit":"degree"},"easting":{"value":4590187.686047906,"unit":"meter"},"northing":{"value":1092591.8893999953,"unit":"meter"}} copied from the site where is perseverance-->

|style="text-align:left"|The roundup trip about {{Cvt|235|m}} northeast and back. The return path was laid about {{Cvt|5|m}} aside to allow another attempt of paired images collection for a stereo imagery. As a result the helicopter landed about {{Cvt|25|m}} east from the takeoff point.<ref>{{cite web|title=#With help from thomas_appere's rectified color images, I now have the rough locations of #MarsHelicopter's shadow in all 8 color images|url=https://twitter.com/65dbNoise/status/1429093549929283585

|access-date=2021-09-02|website=Twitter|language=en}}. See also [https://pbs.twimg.com/media/E9UpALoWUAAg6ZC?format=jpg a map from Twitter] and [http://www.unmannedspaceflight.com/uploads/post-227-1629688881.jpg another map] published at [http://www.unmannedspaceflight.com/index.php?showtopic=8600&view=findpost&p=254221 unmannedspaceflight.com].</ref>

|-

|13

|September 5, 2021 at 00:10<ref>{{Cite web|last=mars.nasa.gov|title=Lucky 13 – Ingenuity to Get Lower for More Detailed Images During Next Flight|url=https://mars.nasa.gov/technology/helicopter/status/329/lucky-13-ingenuity-to-get-lower-for-more-detailed-images-during-next-flight/|access-date=2021-09-04|website=mars.nasa.gov|language=en}}</ref><br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=9 |day2=5| year2=2021}})

|160.5

|{{Cvt|8|m}}

|~{{cvt|210|m}} Roundtrip

|3.3&nbsp;m/s (~7.3&nbsp;mph)

|style="text-align:left"|Roundtrip northeast for about {{Cvt|105|m}}, landed again near Airfield&nbsp;H {{coord|18.43285|N|77.43915|E|globe:Mars}}<!--{"longitude":{"value":77.43914812803268,"unit":"degree"},"latitude":{"value":18.432855889240955,"unit":"degree"},"easting":{"value":4590182.081751643,"unit":"meter"},"northing":{"value":1092601.9573254513,"unit":"meter"}} copied from the site where is perseverance-->

|style="text-align:left"|The round trip flew about {{Cvt|105|m}} northeast and back. The flight concentrated on one particular ridgeline and outcrops in South Séítah.

|-

| rowspan="2"|14

| bgcolor="lemonchiffon"|September 16, 2021 (Sol {{age in sols|month1=2|day1=18|year1=2021|month2=9 |day2=16| year2=2021}})

| colspan="5" bgcolor="lemonchiffon" |Pre-flight high spin test

|style="text-align:left" bgcolor="lemonchiffon" | Test confirmed by NASA on September 17<ref name="flight14twitterpreview">{{cite web |title=flight-14-preview|url=https://twitter.com/NASAJPL/status/1438869634866761730 |website=Twitter}}</ref>

|-

|September 17, 2021<br>(Sol {{age in sols|month1=2|day1=18|year1=2021|month2=9 |day2=17| year2=2021}})

|

|

|

|

|style="text-align:left"|Hover, land again near Airfield&nbsp;H<ref name="flight14preview">{{cite web |title=flying-on-mars-is-getting-harder-and-harder|url=https://mars.nasa.gov/technology/helicopter/status/334/flying-on-mars-is-getting-harder-and-harder/ |website=mars.nasa.gov}}</ref> {{coord|18.43285|N|77.43915|E|globe:Mars}}<!--{"longitude":{"value":77.43914812803268,"unit":"degree"},"latitude":{"value":18.432855889240955,"unit":"degree"},"easting":{"value":4590182.081751643,"unit":"meter"},"northing":{"value":1092601.9573254513,"unit":"meter"}} copied from the site where is perseverance-->

|style="text-align:left"|Flight 14 is currently announced by @NASAJPL, a short flight for verification of faster rotor spinning, 2700 rpm, climbing to five meters, translation sideways, but flight apparently not yet performed.<ref name="flight14twitterpreview">{{cite web |title=flight-14-preview|url=https://twitter.com/NASAJPL/status/1438869634866761730 |website=Twitter}}</ref><ref name="flight14preview">{{cite web |title=flying-on-mars-is-getting-harder-and-harder|url=https://mars.nasa.gov/technology/helicopter/status/334/flying-on-mars-is-getting-harder-and-harder/ |website=mars.nasa.gov}}</ref>

|-

|}

===Flight experience{{efn|name=calc|Numbers in chart are calculated by adding values from successive flight(s) to base values as shown in this NASA/JPL{{sfn|Status 321}} update.}}===

{| class="wikitable" style="text-align:center"

|+

|-

!Flight property

!Since deployment<br />(April 3, 2021/Sol 43)

!In tech demo phase

!In operations demo phase

!% Work done above<br>tech demo

|-

|Sols achieved

|{{age in sols|month1=4|day1=3|year1=2021|month2= |day2=| year2=}}

|{{age in sols|month1=4|day1=3|year1=2021|month2=5|day2=5| year2=2021}}

|{{age in sols|month1=5|day1=5|year1=2021|month2= |day2=| year2=}}

|403%

|-

|Number of flights

|13

|5

|8

|160%

|-

|Distance flown (m)

|{{cvt|2.83|km}}

|{{cvt|0.50|km}}<!--rounding up 499 m-->

|{{cvt|2.33|km}}

|466%

|-

|Time flown (s)

|1469 s<br>(24 min 29 s)

|396 s<br>(6 min 36 s)

|1073 s<br>(17 min 53 s)

|271%

|}

===''Ingenuity''{{'}}s imagery===

{| class="wikitable" style="float:left; margin-right:1.1em; clear:left; font-size:95%; text-align:center; width:50%;"

! b/w<br>NAV

! color<br>RTE

|…

|Before April 19, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=19|year2=2021}})

|6<ref name="first color photo" />

|6<ref name="NavStats-Preflight">{{cite web |url=https://mars.nasa.gov/mars2020/multimedia/raw-images/?af=HELI_NAV&begin_sol=12&end_sol=57#raw-images |title=Raw Images. Filtering: Mars Helicopter Tech Demo Cameras: Navigation Camera |publisher=NASA |date=2021-04-18 |website=Mars 2020 Mission Perseverance Rover |access-date=2021-09-01 }}</ref>

|April 19, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=19|year2=2021}})

|April 22, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=22|year2=2021}})

|The first color photosession

|April 25, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=25|year2=2021}})

|…

|April 30, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=4|day2=30|year2=2021}})

|…

|May 7, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=5|day2=7|year2=2021}})

|…

|May 23, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=5|day2=23|year2=2021}})

|…

|June 8, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=6|day2=8|year2=2021}})

|June 22, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=6 |day2=22| year2=2021}})

|July 5, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=7|day2=5|year2=2021}})

|…

|July 24, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=7|day2=24|year2=2021}})

|August 5, 2021 (sol {{age in sols|month1=2|day1=18|year1=2021|month2=8|day2=5|year2=2021}})

|…

|August 16, 2021 (Sol {{age in sols|month1=2|day1=18|year1=2021|month2=8|day2=16|year2=2021}})

|197<ref name="NavStats-sol174">{{cite web |url=https://mars.nasa.gov/mars2020/multimedia/raw-images/?af=HELI_NAV&begin_sol=174&end_sol=174#raw-images |title=Raw Images. Filtering: Mars Helicopter Tech Demo Cameras: Navigation Camera |publisher=NASA |date=2021-08-15 |website=Mars 2020 Mission Perseverance Rover |access-date=2021-09-01 }}</ref>

|September 5, 2021 (Sol {{age in sols|month1=2|day1=18|year1=2021|month2=9|day2=4|year2=2021}})

|5<ref name="NavStats-sol193">{{cite web |url=https://mars.nasa.gov/mars2020/multimedia/raw-images/?af=HELI_NAV&begin_sol=193&end_sol=193#raw-images |title=Raw Images. Filtering: Mars Helicopter Tech Demo Cameras: Navigation Camera |publisher=NASA |date=2021-09-04 |website=Mars 2020 Mission Perseverance Rover |access-date=2021-09-04 }}</ref>

|0

|…

''Ingenuity'' has two commercial-off-the-shelf (COTS) cameras on board. The Sony IMX 214 with 4208 x 3120 pixel resolution is a color camera with a [[Rolling shutter|global shutter]] to make terrain images for return to Earth (RTE). The Omnivision OV7251 (640 × 480) [[VGA]] is the downward-looking black and white rolling shutter navigation camera (NAV), which supplies the onboard computer of the helicopter with the raw data essential for flight control.<ref name="Balaram 2018" />

While the RTE color camera is not necessary for flight and may be switched off (as in flights 7 and 8{{sfn|Status 308}}), the NAV camera works throughout each flight, catching the first frame before takeoff and the last frame after landing. Its frame rate is synchronized with blade rotation to ease online image processing.

During flight, all NAV frames must be carefully stored in the onboard helicopter computer, with each frame assigned the unique timestamp of its creation. Loss of a single NAV image timestamp was an anomaly that caused the helicopter to move erratically during flight 6.{{sfn|Status 305}}

[[File:Antenna for Ingenuity and Sky Camera on Perseverance.png|thumb|240px|right|The [[monopole antenna]] of the base station is mounted on a bracket in the right rear part of the rover]]

The longer a flight lasts, the more NAV photos must be stored. Each new record flight duration automatically means a record number of images taken by the NAV camera. The frequency and timing of the camera's operations are predetermined not for the sake of records, but due to the technical necessity. A huge number of NAV files does not overload the local storage of the helicopter. Less than 200 NAV files are uploaded to the NASA storage after each flight starting from the 8th, and the total volume of this package is only about 5 Megabytes<!--JPEG compresses the raw 300-Kb of 640×480 256-color bitmap from 10 to 15 times (up to 20-35 Kb).--><ref name="NavStats-sol174" /> The limitations are imposed by weakness of local telecommunications: when landed, helicopter relays data to the rover in a slow mode of 20 kbps.<ref name="Balaram 2018" /> Another significant inconvenience here is caused by the location of the antenna on the side of the rover: if turned wrong side to the helicopter, it may impede signal propagation with its massive metal body.

In fact, most of the NAV files are not transmitted to the rover base station for return to Earth. After the fourth flight, MiMi Aung confirmed that "images from that navigation camera are typically used by ''Ingenuity’s'' flight controller and then thrown away unless we specifically tell the helicopter to store them for later use".{{sfn|Status 297}} From more than 4000 NAV files acquired on flight four, only 62 were stored.<ref name="NavStats-sol69">{{cite web |url=https://mars.nasa.gov/mars2020/multimedia/raw-images/?af=HELI_NAV&begin_sol=69&end_sol=69#raw-images |title=Raw Images. Filtering:Mars Helicopter Tech Demo Cameras: Navigation Camera |publisher=NASA |date=2021-04-30 |website=Mars 2020 Mission Perseverance Rover |access-date=2021-08-31 }}</ref>

With the end of the flight technology demonstration, ''Perseverance'' project manager Jennifer Trosper relinquished her team's responsibilities for photographing ''Ingenuity'' to concentrate exclusively on the rover science mission of searching for signs of ancient Martian life. Without pictures from the rover, the flight team relied more heavily on photos taken by the helicopter NAV camera to confirm ''Ingenuity's'' location. The helicopter, however, does not create or refine the maps, but rather, depends upon work coordinated by the [[U.S. Geological Survey]]’s Astrogeology Science Center and performed by the NASA Mars and Lunar Cartography Working Groups.{{cn|date=September 2021}}

To support the Mars-2020 mission, [[USGS]] used photos by the High-Resolution Imaging Science Experiment ([[HiRISE]]) on the [[Mars Reconnaissance Orbiter]] (MRO) to produce Context Camera (CTX) and Digital Terrain Models (DTM) and [[Orthophoto|orthoimage]] mosaics. Those images were used by the Terrain Relative Navigation (TRN) feature on the ''Perseverance'' descent vehicle and helped determine the safest landing location.<ref name="USGS">{{cite web |url=https://astrogeology.usgs.gov/maps/mars-2020-jezero-crater-landing-site-controlled-orthomosaics |title=Mars 2020 Jezero Crater Landing Site Controlled Orthomosaics |publisher=USGS}}</ref> Using maps created from photos and radar elevation data previously acquired by the MRO and other NASA missions, planetary cartographers manually correlate them with terrain features seen by ''Ingenuity's'' small and lens-distorted NAV images.{{cn|date=September 2021}} After each NAV frame is assigned a [[Georeferencing|georeference]], the resulting flight maps are shown at NASA’s Mars-2020 tracking service.<ref name="roadmaps" /> NAV frames from ''Ingenuity'' are also used to produce moving images that show the Martian terrain passing under ''Ingenuity'' during its flights.

{{multiple images |align=center |direction=horizontal |total_width=800

| header = Flights 3 through 7

|image1 = Ingenuity flight 3 real-time animation.gif

|caption1 = Flight 3 (April 25, 2021)

|image2 = Ingenuity flight 4 real-time animation.gif|

|caption2 = Flight 4 (April 30, 2021)

|image3 = Ingenuity flight 5 real-time animation.gif

|caption3= Flight 5 (May 7, 2021)

|image4 = Ingenuity flight 6 real-time animation (39 seconds).gif

|caption4 = Flight 6 (May 23, 2021)<br><small>last 39 seconds</small>

|image5 = Ingenuity flight 7 real-time animation (48 seconds).gif

|caption5= Flight 7 (June 8, 2021)<br><small>48 sec real-time animation</small>

}}

{{multiple images |align=center |direction=horizontal |total_width=800

| header = Flights 8 through 12

|image1 = Ingenuity flight 8 real-time animation (75 seconds).gif

|caption1 = Flight 8 (June 22)<br><small>75 sec real-time animation</small>

|image2 = Ingenuity flight 9 full real-time animation.gif

|caption2= Flight 9 (July 5, 2021)<br><small>full real-time animation</small>

|image3 = Ingenuity flight 10 full real-time animation.gif

|caption3= Flight 10 (July 24, 2021)<br><small>full real-time animation</small>

|image4 = Ingenuity flight 11 full real-time animation.gif

|caption4= Flight 11 (August 5, 2021)<br><small>full real-time animation</small>

|image5 = Ingenuity flight 12 full real-time animation.gif

|caption5= Flight 12 (August 16, 2021)<br><small>full real-time animation</small>

Unlike ''Perseverance'', ''Ingenuity'' does not have a special stereo camera for taking twin photos for [[Anaglyph 3D|3D pictures]] simultaneously. However, the helicopter has made such images by taking duplicate color photos of the same terrain while hovering in slightly offset positions, as in flight 11, or by taking an offset picture on the return leg of a roundtrip flight, as in flight 12.<ref name="SciTechDaily_2021_08_26">{{Cite web |title=NASA's Ingenuity Helicopter sees potential Martian "road" ahead |author=Jet Propulsion Laboratory |work=SciTechDaily |date=26 August 2021 |access-date=30 August 2021 |url= https://scitechdaily.com/nasas-ingenuity-helicopter-sees-potential-martian-road-ahead/}}</ref>

As of August 24, 2021, 1390 black-and-white images from the navigation camera<ref name="HELI_NAV" /> and 72 color images from the terrain camera (RTE)<ref name="HELI_RTE" /> have been published.

== Tributes to the Wright brothers ==

NASA and [[JPL]] officials described the first ''Ingenuity'' flight as their "Wright Brothers moment", by analogy to the first successful airplane flight on Earth.<ref name=":4">{{cite web |last1=Gorman |first1=Steve |title=NASA scores Wright Brothers moment with first helicopter flight on Mars |url=https://www.reuters.com/lifestyle/science/nasas-mars-helicopter-makes-history-with-successful-flight-red-planet-2021-04-19/ |website=Reuters |access-date=21 April 2021}}</ref><ref>{{cite web |last1=Harwood |first1=William |title=NASA's Ingenuity helicopter makes maiden flight on Mars in a "Wright brothers moment" |url=https://www.cbsnews.com/news/mars-ingenuity-helicopter-nasa-maiden-flight/ |website=CBS News |access-date=21 April 2021}}</ref> A small piece of the wing cloth from the [[Wright brothers]]' 1903 ''[[Wright Flyer]]'' is attached to a cable underneath ''Ingenuity''{{'}}s solar panel.<ref>{{cite news|last1=Potter|first1=Sean|date=23 March 2021|title=NASA Ingenuity Mars Helicopter Prepares for First Flight|publisher=NASA|url=https://www.nasa.gov/press-release/nasa-ingenuity-mars-helicopter-prepares-for-first-flight}}</ref> In 1969, [[Apollo 11]]'s [[Neil Armstrong]] carried a similar ''Wright Flyer'' artifact to the Moon in the [[Lunar Module Eagle|Lunar Module ''Eagle'']].

NASA named ''Ingenuity''{{'s}} first take-off and landing airstrip Wright Brothers Field, which the UN agency [[ICAO]] gave an [[ICAO airport code|airport code]] of JZRO for Jezero Crater,<ref name=":1">{{cite web |url=https://mars.nasa.gov/news/8923/nasas-ingenuity-mars-helicopter-succeeds-in-historic-first-flight/ |title=NASA's Ingenuity Mars Helicopter Succeeds in Historic First Flight |publisher=[[NASA]] |date=2021-04-19 |website=Mars Exploration Program |access-date=2021-04-19 }}</ref> and the drone itself a [[List of aircraft type designators|type designator]] of IGY, [[Aviation call signs|call-sign]] INGENUITY.<ref>{{cite web|url=https://www.bbc.com/news/science-environment-56799755|date=April 19, 2021|first=Jonathan|last=Amos|publisher=BBC|title=NASA successfully flies small helicopter on Mars}}</ref><ref>{{cite web |last1=Strickland |first1=Ashley |title=NASA's Mars helicopter Ingenuity successfully completed its historic first flight |url=https://www.cnn.com/2021/04/19/world/mars-helicopter-ingenuity-first-flight-scn-trnd/index.html |website=CNN |access-date=19 April 2021}}</ref><ref name="NASA-20210419">{{cite news |last1=Johnson |first1=Alana |last2=Hautaluoma |first2=Grey |last3=Agle |first3=DC |last4=Northon |first4=Karen |title=Release 21-039 - NASA's Ingenuity Mars Helicopter Succeeds in Historic First Flight |url=https://www.nasa.gov/press-release/nasa-s-ingenuity-mars-helicopter-succeeds-in-historic-first-flight |date=19 April 2021 |work=[[NASA]] |accessdate=19 April 2021 }}</ref>

== Future Mars rover design iteration ==

[[File:PIA24729-FutureMarsHelicopter-ProposedDesign-20210714.jpg|thumb|Mars Science Helicopter, ''Ingenuity''{{'}}s proposed successor]]

The ''Ingenuity'' technology demonstrator could form the foundation on which more capable aircraft might be developed for aerial exploration of Mars and other planetary targets with an atmosphere like Mars Science Helicopter.<ref name="NASA-20180511b" /><ref name="Balaram 2018" /><ref name="UB 2018">{{cite web|url=https://www.jpl.nasa.gov/universe/archive/universe1807.pdf|title=Mars Helicopter a new challenge for flight|publisher=NASA |date=July 2018|access-date=9 August 2018|archive-url=https://web.archive.org/web/20200101170951/https://www.jpl.nasa.gov/universe/archive/universe1807.pdf|archive-date=1 January 2020|url-status=live}} {{PD-notice}}</ref> The next generation of rotorcraft could be in the range between {{cvt|5|and|15|kg}} with science payloads between {{cvt|0.5|and|1.5|kg}}. These potential aircraft could have direct communication to an orbiter and may or may not continue to work with a landed asset.<ref name="Universe2018" /> Future helicopters could be used to explore special regions with exposed [[Water on Mars|water ice or brines]], where Mars [[microorganism|microbial life]] could potentially survive.<ref name="PK2020" /><ref name="Balaram 2018" />

Data collected by ''Ingenuity'' is supporting planning of a future helicopter design by engineers at JPL, NASA’s Ames Research Center and AeroVironment. The Mars Science Helicopter, a proposed ''Ingenuity''{{'}}s successor, would be a hexacopter, or six-rotor helicopter, with a mass of about {{cvt|30|kg}} compared to {{cvt|1.8|kg}} of ''Ingenuity''. Mars Science Helicopter could carry as much as {{cvt|5|kg}} of science payloads and fly up to {{cvt|10|km}} per flight.<ref name="Ingenuity's Successor">{{cite web|url=https://spacenews.com/nasa-studying-larger-mars-helicopters/|title=Mars Science Helicopter|website=spacenews.com |publisher=Space News|access-date=24 June 2020}}</ref>

{{clear}}

==Gallery==

=== Audio ===

[[File:Sounds-of-Mars -Helicopter Flying on Mars.ogg|thumb|left|Mars helicopter ''Ingenuity,'' heard flying on Mars on its fourth flight]]

{{clear}}

=== Videos ===

{{multipleimage |header=Mars ''Ingenuity'' helicopter – test flights – April 2021 |align=center |direction=horizontal |total_width=1000 |image1=NASA-MarsIngenuityHelicopter-FirstFlightVideo-20210419.webm |caption1=<div style="text-align:center">[[:File:NASA-MarsIngenuityHelicopter-FirstFlightVideo-20210419.webm|First test flight<br>(video; 00:57; 19 April 2021)]]</div> |width1=195 |image2=PIA24588-MarsIngenuityHelicopter-FirstFlightAnimation-20210419.webm |caption2=<div style="text-align:center">[[:File:PIA24588-MarsIngenuityHelicopter-FirstFlightAnimation-20210419.webm|First test flight<br />(animated; video; 01:19)]]</div> |width2=185 |image3=Enhanced Video Shows Dust During Ingenuity's Flight alongside flight time in upper left corner.webm |caption3=<div style="text-align:center">[[:File:Enhanced Video Shows Dust During Ingenuity's Flight alongside flight time in upper left corner.webm|Dust seen during first flight with timer (enh video; 00:46)]]</div> |width3=195 |image4=NASA-MarsIngenuityHelicopter-SecondTestFlight-20210422.webm |caption4=<div style="text-align:center">[[:File:NASA-MarsIngenuityHelicopter-SecondTestFlight-20210422.webm |Second test flight<br /> (00:21; 22 April 2021)]]</div> |width4=195 |image5=JPL-20210425 Perseverance Rover's Mastcam-Z Captures Ingenuity's Third Flight.webm| caption5=<div style="text-align:center">[[:File:JPL-20210425 Perseverance Rover's Mastcam-Z Captures Ingenuity's Third Flight.webm|Third test flight<br />(01:16; 25 April 2021)<br /><!---([https://www.youtube.com/watch?v=Q75-HetU57A 3D-version])--->]]</div> |width5=195 |image6=NASA's Perseverance Captures Video, Audio of Fourth Ingenuity Flight.webm |caption6=<div style="text-align:center">[[:File:NASA's Perseverance Captures Video, Audio of Fourth Ingenuity Flight.webm|Fourth test (video+audio)<br />(02:44; 30 April 2021)]]</div> |width6=195 |footer= }}

=== Maps of flights ===

{{multiple image

|header = The flight zone of the technical demonstration stage| direction = horizontal| total_width = 800

|align = center

|caption_align = center

|image1 = Twitcher’s Point (now van Zyl Overlook) besides the flight zone of Ingenuity helicopter.png

|caption1 = The „Twitcher’s Point”{{efn|Now named Van Zyl overlook}}

|image2 = PIA24435-Mars-IngenuityHelicopter-VanZylOverlook-20210323.jpg

|caption2 = The Wright Brothers Field and the overlook location

|image3 = PIA24494-Mars-IngenuityHelicopter-FlightZoneMap-20210323.jpg

|caption3 = The Wright Brothers Field

|image4 = PIA24495-Mars-IngenuityHelicopter-RoverFlightZoneView-20210323.jpg

|caption4 = View of the field from the rover

|image5 = Perseverance rover track and Ingenuity Helicopter Flight Zone.jpg

|caption5 = Rover track and Wright Brothers Field

|image6 = HiRISE's View of Ingenuity's Fourth Flight Path Paving the Way for it to move to second Airfeild.jpg

|caption6 = Second helipad{{efn|HiRISE's view of ''Ingenuity''{{'}}s fourth flight path paving the way for it to move to second airfield on its fifth flight}}

}}

{{multiple image

|header = Flights’ paths of the operational demonstration stage| direction = horizontal| total_width = 800

|align = center

|caption_align = center

|image1 = 26035 Map-of-Ingenuitys-Ninth-Flight-Path.jpg

|caption1 = Flights 1–9

|image2 = PIA24687-Ingenuity-Flight-10-Profile.jpg

|caption2 = Profile of flight 10

|image3 = PIA24690-Ingenuity-Flight-11-Profile.jpg

|caption3 = Profile of flight 11

|image4 = Names of the exploration locations around the flight path of Ingenuity.jpg

|caption4 = Flights 1–11

}}

===Images by ''Perseverance''===

{{multipleimage

| header = Flights on Mars – viewed by the ''Perseverance'' rover, flight 1–5

| align = center

| caption_align = center

| direction = horizontal

| total_width = 1000

| image1 = Ingenuity Helicopter's 1st Flight.gif

| caption1 = ''Ingenuity''{{'s}} first flight<br />(19 April 2021)

| width1 = 190

| image2 = Ingenuity captured by NavCams while it was hovering for 30 seconds in 1st flight.gif

| caption2 = ''Ingenuity''{{'s}} first flight after 30 secs flying

| width2 = 117

| image3 = Ingenuity's Second Flight As Seen by Perseverance.png

| caption3 = ''Ingenuity''{{'s}} second flight<br />(22 April 2021)

| width3 = 200

| image4 = 1-PIA24624-MarsPerseveranceRoverViewsIngenuityHelicopter-ThirdFlight-20210425.png

| caption4 = ''Ingenuity''{{'s}} third flight<br />(25 April 2021)

| width4 = 150

| image5 = Perseverance's NavCams Views Ingenuity During its Third Flight.jpg

| caption5 = ''Ingenuity'' after its third flight

| width5 = 160

| image6 = PIA24642-MarsIngenuityHelicopter-FourthTestFlight-20210430.png

| caption6 = ''Ingenuity''{{'s}} fourth flight<br />(30 April 2021)

| width6 = 152

| image7 = Ingenuity's Successful Fifth Flight To Airfield B.jpg

| caption7 = ''Ingenuity''{{'s}} during fifth flight to ''Airfield B'' <br />(7 May 2021)<ref name="NYT-20210507" />

| width7 = 20

| image8 = Mastcam-Z Views Ingenuity After Fifth Flight 01.jpg

| caption8 = ''Ingenuity'' at new ''Airfield B''<br />(7 May 2021)<ref name="NYT-20210507" />

| width8 = 150

| image9 = PIA24649-MarsIngenuityHelicopter-FifthFlightLanding-20210507.gif

| caption9 = ''Ingenuity'' landing of fifth flight on Airfield B (7 May 2021)

| width9 = 160

}}

{{multipleimage

| header = Flights on Mars – viewed by the ''Perseverance'' rover, flight 6–8

| align = center

| caption_align = center

| direction = horizontal

| total_width = 1000

| footer =

| image10 = Ingenuity after 6th flight.png

| caption10 = ''Ingenuity'' one day after its sixth flight (Sol 92)

| image11 = Ingenuity after 7th flight.png

| caption11 = ''Ingenuity'' four days after its seventh flight (Sol 111)

| image12 = Mars Perseverance NLF 0127 0678218487 243ECM N0041860NCAM03127 01 195J.png

| caption12 = ''Ingenuity'' seven days after its eighth flight (Sol 127)

}}

===Additional images about the flights===

{{multipleimage

| header =

| align = center

| caption_align = center

| direction = horizontal

| width =

| image1 = Aircraft certification of Ingenuity to fly on mars.jpg

| caption1 = Aircraft certification of ''Ingenuity'' to fly on Mars

| width1 = 178

| image2 = PIA24591-MarsIngenuityHelicopter-FirstLogbookEntry-HåvardGrip-20210419.jpg

| caption2 = Chief Pilot [[Håvard Fjær Grip]], entering ''Ingenuity'' flight details in logbook

| width2 = 150

| image3 = PIA24440-MarsIngenuityHelicopter-Logbook-20210419.jpg

| caption3 = "Nominal Pilot's Logbook for Planets and Moons"

| width3 = 150

| image4 = PIA24794-MarsIngenuityHelicopter-Logbook-Flt9&10-20210816.jpg

| caption4 = ''Ingenuity'' logbook entries for flights 9 and 10

| width4 = 185

| image5 = Ingenuity Helicopter 1st Flight Altimeter Data.png

| caption5 = ''Ingenuity''{{'}}s first flight altimeter data showing the flight period<br />(19 April 2021)

| width5 = 178

| image6 = Ingenuity Helicopter 2nd Flight Test Observation Datas.gif

| caption6 = ''Ingenuity''{{'}}s second flight test data{{efn|This is an animated gif containing sequence of images on second test flight.

First image shows ''Ingenuity''{{'}}s rotor power during flight two.

Second image shows ''Ingenuity''{{'}}s horizontal position relative to start during flight one hover.

Third image shows ''Ingenuity''{{'}}s collective control during flight one.

Fourth image shows ''Ingenuity''{{'}}s lower cyclic control on flight one. Similar cyclic controls applied on the upper rotor.

Fifth image shows ''Ingenuity''{{'}}s estimate of vertical velocity during flight two.}}<br />(22 April 2021)

| width6 = 133

| footer =

}}

===Images by ''Ingenuity''===

{{multiple images |total_width=800 |direction=horizontal

| align = center

| header = Images from flights 1-5{{efn|name=Imaging|All images taken by ''Ingenuity'' are from either its black-and-white downward-facing navigation camera<ref name="HELI_NAV">{{cite web|title=Raw Images From Ingenuity Helicopter|url=https://mars.nasa.gov/mars2020/multimedia/raw-images/?af=HELI_NAV#raw-images|website=NASA|date=30 April 2021|access-date=10 May 2021}} (NAV images)</ref> or from horizon-facing color camera;<ref name="HELI_RTE">{{cite web|title=Raw Images From Ingenuity Helicopter|url=https://mars.nasa.gov/mars2020/multimedia/raw-images/?af=HELI_RTE#raw-images|website=NASA|date=30 April 2021|access-date=10 May 2021}} (RTE images)</ref> landing legs are seen at the side edges of images}}

| image1 = Ingenuity helicopter first colour image.jpg

| caption1 = The first color image, acquired April 4, 2021){{efn|name=Wheel|''Perseverance'' Rover wheels are clearly seen in top corners}}

|image2=Ingenuity on sol 45.png

|caption2=''Ingenuity'' views its shadow while parked, 6 April 2021

| image3 = Ingenuity's First Black-and-White Image From the Air.jpg

| caption3 = ''Ingenuity''{{'}}s first in-flight image, flight one – altitude {{cvt|1.2|m}} (19 April 2021)

| image4 = Ingenuity helicopter image just before landing after it's first flight.jpg

| caption4 = ''Ingenuity'' landing on first flight (19 April 2021)

| image5 =1st aerial image on mars taken by Ingenuity.jpg

| caption5 = First color aerial image, flight two – altitude {{cvt|5.2|m}} (April 22, 2021)

}}

{{multiple images |total_width=800 |direction=horizontal

| align = center

| image1 = PIA24625-MarsIngenuityHelicopterViewsPerseveranceRoverFromAir-20210425.jpg

| caption1 = Flight 3, rover is seen left-up from the {{cvt|5.0|m}} height

| image2 = PIA24625-MarsIngenuityHelicopterViewsPerseveranceRoverFromAir-20210425b.jpg

| caption2 = Flight 3, the rover (cropped and enlarged)

| image3 = PIA24628-MarsIngenuityHelicopter-AirfieldB-4thFlight-20210430.jpg

| caption3 = ''Ingenuity'' finds new ''Airfield B'' on fourth flight (30 April 2021)

| image4 = PIA24650-MarsIngenuityHelicopterView-FifthFlight-20210507.jpg

| caption4 = ''Ingenuity''{{'s}} fifth flight from {{cvt|10|m}} high (7 May 2021)

}}

{{multiple images |total_width=800 |direction=horizontal

|align = center

|image1 = PIA24625-MarsIngenuityHelicopterViewsPerseveranceRoverFromAir-20210425a.jpg

|caption1= ''Perseverance'' rover (left) viewed about {{cvt|85|m}} away from {{cvt|5.0|m}} height (April 25, 2021)

}}

{{multiple images |total_width=800 |direction=horizontal

| header = Images from flights 6–9

| align = center

| caption_align = center

|image1 = PIA24600-Ingenuity flight 6 22-05-2021 Seitah view.jpg

|caption1= Flight 6, view from {{cvt|10|m}} towards Séítah

|image2 = Ingenuity During Anomaly Survivor Sixth flight.png

|caption2= Flight 6, during the flight anomaly

|image3 = Ingenuity in Flight 7.png

|caption3= Flight 7, above the terrain (8 June 2021)

|image4 = Ingenuity Flight 8 Sol 120 landed.png

|caption4= Flight 8, landed (22 June 2021)

|image5 = Ingenuity Flight 9 over Seitah.png

|caption5= Flight 9, flying over the Séítah<br>(July 5, 2021)

|image6 = Colour Images Taken During Ingenuity's 9th Flight.gif

|caption6= Flight 9, animation from the flight images

}}

{{multiple images |total_width=800 |direction=horizontal

| align = center | caption_align = center

| header = Images from flights 10–13

|image1 = Ingenuity Flight 10 over the Raised Ridges.png

|caption1= Flt 10 over ridges<br>

|image2 = Ingenuity Flight 10 12-06-39 LMST.jpg

|caption2= Flt 10 before landing

|image3 = Ingenuity Flight 11 heading north-west along Seitah.png

|caption3= Flt 11 NE nr Séítah

|image4=HSF 0163 0681410921 308ECM N0110001HELI00000 000085J Perseverance Spotted By Ingenuity's colour camera On Its 11th Flight.gif

|caption4= Flt 11 rover by ''Ingenuity''

|image5 = Ingenuity flight 11 route slideshow (10 color frames).gif

|caption5= Flt 11 ten slides

|image6 = Ingenuity flight 12.png

|caption6= Flt 12 over Séítah

|image7 = Ingenuity on sol 193.jpg

|caption7= Flt 13 rover view

|image8 = PIA24810-MarsIngenuityHelicopter-FaillefeuRock-20210904.jpg

| caption8 = Flt13 Faillefeu rock

}}

===Deployment sequence===

{{multiple images |total_width=800 |direction=horizontal

|align = center

|image1 = Jezero crater on Mars, sol 38 of Perseverance mission.png

|caption1= March 29, 2021: after ''Ingenuity'' was extended vertically into place after being rotated outward from its horizontal position on the belly of the rover, ''Perseverance'' takes photos for the panorama, catching in its field of view the debris shield which protected ''Ingenuity'' during landing and was dropped on March 21, 2021

}}

{{multiple image|header=''Ingenuity'' helicopter: out from under the ''Perseverance'' rover |align=center |direction=horizontal |total_width=800

| image1 = Ingenuity Stowed Inside Debris Shield.jpg

| caption1 = Before releasing ''Ingenuity'' the rover had to get rid of another protective shield: this pan protected the feasible [[RIMFAX]] equipment during the landing stage

| image2 = Perseverance rover drops its debris shield (cropped).jpg

| caption2 = Debris shield released and dropped

| image4 = Ingenuity unfolding 202103298.png

| caption4 = ''Ingenuity'' swings down, with two of its four legs extended

| image6 = Ingenuity Helicopter with fully deployed legs (cropped).png

| caption6 = ''Ingenuity'' with all legs extended

| footer=

}}

{{multiple image

| header = Pre-flight testing

| align = center

| direction = horizontal

| total_width =800

| caption_align = center

| image1 = Ingenuity Helicopter Deployment Successful.png

| caption1 = Before tests

| image2 = Ingenuity Helicopter Rotor Blades Unlocked for Flying.gif

| caption2 = Rotor blades are unlocked for tests and flying

| image3 = Ingenuity gives it's blades a test spin.gif

| caption3 = The slow-speed (50 rpm) spin up test on sol 48

| image4 = Ingenuity helicopter after its high speed spin up test.png

| caption4 = The high-speed (2400 rpm) spin up test on sol 55<!--{{efn|name=Difference|Please see the difference between the image on high-speed spin up test and the one on sol 48, that is the image on sol 48 has the upper blade in diagonal position while the high-speed spin up test has lower blade in diagonal position}}-->

=== Self-portraits by ''Perseverance''{{efn|Only the self-portraits of ''Perseverance'' showing ''Ingenuity''}} ===

{{multiple image

| align = center

| caption_align = center |total_width=

|header=Mars 2020 in [[Jezero crater]] on [[Mars]] — Self-portraits of the ''Perseverance'' rover showing ''Ingenuity'' helicopter

|image1= Mars 2020 selfie containing both perseverance rover and ingenuity.gif|caption1=''Ingenuity'' helicopter drop site, Wright Brothers Field<br />(April 2021)|width1=300 |footer=

* {{annotated link|Aerial Regional-scale Environmental Survey|ARES|}}

* [[Atmosphere of Mars]] – Less than 1% of the Earth's atmosphere pressure and primarily composed of carbon dioxide (95% {{CO2}}), molecular nitrogen (2.8%, N₂) and argon (2% Ar)

* ''[[Dragonfly (spacecraft)|Dragonfly]]'' – Robotic [[rotorcraft]] mission to Saturn's moon [[Titan (moon)|Titan]], planned launch in 2027

* [[List of firsts in aviation]]

* [[Solar panels on spacecraft]]

==Notes==

===Citations===

{{Reflist}}

===Status reports===

{{refbegin|30em|indent=yes}}

* {{cite web|work=Status #287|author= Bob Balaram |title=How is the Weather on Mars?| url=https://mars.nasa.gov/technology/helicopter/status/287| publisher=NASA/JPL|date=March 19, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 287}}}}

* {{cite web|work=Status #288|author= Bob Balaram |title=It’s Cold on Mars| url=https://mars.nasa.gov/technology/helicopter/status/288| publisher=NASA/JPL|date=April 2, 2021| lang=en|ref={{sfnref|Status 288}}}}

* {{cite web|work=Status #289|title=When Should Ingenuity Fly?|url=https://mars.nasa.gov/technology/helicopter/status/289| publisher=NASA/JPL|date=April 8, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 289}}}}

* {{cite web|work=Status #290|title=Work Progresses Toward Ingenuity’s First Flight on Mars|url=https://mars.nasa.gov/technology/helicopter/status/290| publisher=NASA/JPL|date=April 12, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 290}}}}

* {{cite web|work=Status #291|title=Mars Helicopter Flight Delayed to No Earlier than April 14|url=https://mars.nasa.gov/technology/helicopter/status/291| publisher=NASA/JPL|date=April 10, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 291}}}}

* {{cite web|work=Status #292|author=Ingenuity Flight Team|title=Working the Challenge: Two Paths to First Flight on Mars|url=https://mars.nasa.gov/technology/helicopter/status/292| publisher=NASA/JPL|date=April 16, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 292}}}}

* {{cite web|work=Status #293|author=MiMi Aung|title=Why We Choose to Try Our First Helicopter Flight on Monday| url=https://mars.nasa.gov/technology/helicopter/status/293| publisher=NASA/JPL|date=April 17, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 293}}}}

* {{cite web|work=Status #294|author=MiMi Aung|title=We’re Getting Ready for Ingenuity’s Second Flight |url=https://mars.nasa.gov/technology/helicopter/status/294| publisher=NASA/JPL|date=April 21, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 294}}}}

* {{cite web|work=Status #295|author=Håvard Grip|title= We Are Prepping for Ingenuity’s Third Flight Test| url=https://mars.nasa.gov/technology/helicopter/status/295| publisher=NASA/JPL|date=April 23, 2021| lang=en|ref={{sfnref|Status 295}}}}

* {{cite web|work=Status #296|title=Mars Helicopter’s Flight Four Rescheduled|url=https://mars.nasa.gov/technology/helicopter/status/296| publisher=NASA/JPL|date=April 29, 2021|access-date=July 25, 2021|lang=en|ref=Status 296}}

* {{cite web|work=Status #297|author=MiMi Aung |title=Ingenuity Completes Its Fourth Flight| url=https://mars.nasa.gov/technology/helicopter/status/297| publisher=NASA/JPL|date=April 30, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 297}}}}

* {{cite web|work=Status #298|author=Håvard Grip|title=What We’re Learning About Ingenuity’s Flight Control and Aerodynamic Performance| url=https://mars.nasa.gov/technology/helicopter/status/298| publisher=NASA/JPL| date=April 30, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 298}}}}

* {{cite web|work=Status #299|author=Josh Ravich |title= Why Ingenuity’s Fifth Flight Will Be Different|url=https://mars.nasa.gov/technology/helicopter/status/299| publisher=NASA/JPL|date=May 6, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 299}}}}

* {{cite web|work=Status #301|author=Bob Balaram, Jeremy Tyler|title=Keeping Our Feet Firmly on the Ground|url=https://mars.nasa.gov/technology/helicopter/status/301| publisher=NASA/JPL|date=May 10, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 301}}}}

* {{cite web|work=Status #302|title=Plans Underway for Ingenuity’s Sixth Flight| publisher=NASA/JPL|url=https://mars.nasa.gov/technology/helicopter/status/302|date=May 19, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 302}}}}

* {{cite web|work=Status #305|author=Håvard Grip|title=Surviving an In-Flight Anomaly: What Happened on Ingenuity’s Sixth Flight|url=https://mars.nasa.gov/technology/helicopter/status/305| publisher=NASA/JPL|date=May 27, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 305}}}}

* {{cite web|work=Status #306|title=Ingenuity Flight 7 Preview|url=https://mars.nasa.gov/technology/helicopter/status/306| publisher=NASA/JPL|date=June 4, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 306}}}}

* {{cite web|work=Status #308|author=Teddy Tzanetos |title=Flight 8 Success, Software Updates, and Next Steps|url=https://mars.nasa.gov/technology/helicopter/status/308| publisher=NASA/JPL|date=June 25, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 308}}}}

* {{cite web|work=Status #313|author=Håvard Grip & Bob Balaram |title=We’re Going Big for Flight 9|url=https://mars.nasa.gov/technology/helicopter/status/313| publisher=NASA/JPL|date=July 2, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 313}}}}

* {{cite web|work=Status #314|author=Håvard Grip and Ken Williford |title=Flight 9 Was a Nail-Biter, but Ingenuity Came Through With Flying Colors |url=https://mars.nasa.gov/technology/helicopter/status/314| publisher=NASA/JPL|date=July 7, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 314}}}}

* {{cite web|work=Status #316|author=Teddy Tzanetos|title=Aerial Scouting of ‘Raised Ridges’ for Ingenuity’s Flight 10 |url=https://mars.nasa.gov/technology/helicopter/status/316| publisher=NASA/JPL|date=July 23, 2021|access-date=July 25, 2021|lang=en|ref={{sfnref|Status 316}}}}

* {{cite web|work=Status #318|author=Josh Ravich|title=North-By-Northwest for Ingenuity’s 11th Flight |url=https://mars.nasa.gov/technology/helicopter/status/318| publisher=NASA/JPL|date=August 4, 2021|access-date=August 5, 2021|lang=en|ref={{sfnref|Status 318}}}}

* {{cite web|work=Status #321|author=Teddy Tzanetos|title=Better By the Dozen – Ingenuity Takes on Flight 12 |url=https://mars.nasa.gov/technology/helicopter/status/321| publisher=NASA/JPL|date=August 15, 2021|access-date=August 15, 2021|lang=en|ref={{sfnref|Status 321}}}}

{{refend}}

* {{cite AV media|url=https://www.youtube.com/watch?v=wMnOo2zcjXA&t=49s|title=First Video of NASA’s ''Ingenuity'' helicopter in flight|via=YouTube}}

* [http://www.unmannedspaceflight.com/index.php?showtopic=8600 Perseverance Route Map] — including the flight tracks of ''Ingenuity''

[[Category:Aircraft with counter-rotating propellers]]

[[Category:2021 on Mars]]