Piloting NASA’s Ingenuity Mars Helicopter With a Dead Sensor

NASA Ingenuity Helicopter on Mars Illustration

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Illustration of NASA’s Ingenuity helicopter on Mars. Credit: NASA/JPL-Caltech

It’s been enormously profitable, and NASA prolonged its mission in March. However, it is usually going through its challenges from the cruel circumstances on Mars and the truth that it has been in operation far longer and flown many extra flights than anticipated. Now it has a brand new problem to beat – one in every of its navigation sensors has stopped functioning.

As the season has turned to winter in Jezero Crater, circumstances have turn out to be more and more difficult for Ingenuity, which was designed for a brief flight-test marketing campaign throughout the a lot hotter Martian spring. Increased quantities of mud within the ambiance, mixed with decrease daytime temperatures and shorter days, have impacted Ingenuity’s vitality funds to the purpose the place it’s unable to maintain itself heat all through the Martian nights.

In its new winter operations paradigm, Ingenuity is successfully shutting down throughout the evening, letting its inner temperature drop to about minus 112 levels Fahrenheit (minus 80 degrees Celsius) and letting the onboard electronics reset. This new way of operating carries with it risks to Ingenuity’s electronic components, many of which are not designed to survive the temperatures they are being exposed to at night. Moreover, extreme temperature cycles between daytime and nighttime tend to cause stresses that can result in component failure.

Ingenuity at Airfield D

Ingenuity at Airfield D: This image of NASA’s Ingenuity Mars Helicopter was taken by the Mastcam-Z instrument of the Perseverance rover on June 15, 2021, the 114th Martian day, or sol, of the mission. The location, “Airfield D” (the fourth airfield), is just east of the “Séítah” geologic unit. Credit: NASA/JPL-Caltech/ASU/MSSS

Over the past several sols on Mars, the Ingenuity team has been busy recommissioning the helicopter for flight, going through a series of activities that include preflight checkout of sensors and actuators and a high-speed spin of the rotor. These activities have revealed that one of the helicopter’s navigation sensors, called the inclinometer, has stopped functioning. A nonworking navigation sensor sounds like a big deal – and it is – but it’s not necessarily an end to our flying at Mars.

Navigation Sensors

When Ingenuity is flying, the onboard flight control system keeps close track of the helicopter’s current position, velocity, and orientation. It does so with the help of a sensor suite consisting of:

  • an inertial measurement unit (IMU), which measures accelerations and angular rates in three directions
  • a laser rangefinder, which measures the distance to the ground
  • a navigation camera, which takes pictures of the ground below

The data from these sensors is processed by a set of algorithms implemented on Ingenuity’s navigation computer. For the algorithms to function properly, they must be initialized prior to takeoff with an estimate of Ingenuity’s roll and pitch attitude. This is where the inclinometer comes in.

The inclinometer consists of two accelerometers, whose sole purpose is to measure gravity prior to spin-up and takeoff; the direction of the sensed gravity is used to determine how Ingenuity is oriented relative to the downward direction. The inclinometer is not used during the flight itself, but without it we are forced to find a new way to initialize the navigation algorithms prior to takeoff.

Impersonating the Inclinometer

Ingenuity’s sensor suite provides some redundancy when it comes to sensing attitude on the ground. The IMU contains accelerometers, which – just like the accelerometers within the inclinometer – can be used to estimate the initial attitude. Unlike the inclinometer, the IMU is not purpose-built for sensing static orientation, so its initial attitude estimates will generally be somewhat less accurate. However, we believe an IMU-based initial attitude estimate will allow us to take off safely and thus provides an acceptable fallback that will allow Ingenuity to resume flying.

Taking advantage of this redundancy requires a patch to Ingenuity’s flight software. The patch inserts a small code snippet into the software running on Ingenuity’s flight computer, intercepting incoming garbage packets from the inclinometer and injecting replacement packets constructed from IMU data. To the navigation algorithms, everything will look as before, the only difference being that the received inclinometer packets do not actually originate from the inclinometer.

Anticipating that this situation could potentially arise, we prepared the required software patch prior to last year’s arrival on Mars and kept it on the shelf for this eventuality. We are therefore able to move quickly with the update, and the process of uplinking it to Ingenuity is already underway.

Returning to Service

If all goes well, over the next few sols, the team expects to finalize uplinking and applying the software patch, which will be followed by commissioning activities to ensure the new software is operating as planned. Barring additional surprises, we anticipate that Ingenuity will take to the skies for Flight 29 – a repositioning move to the southwest designed to keep us within communication range of Perseverance – in the near future.

Written by Håvard Grip, Ingenuity Mars Helicopter Chief Pilot at NASA’s Jet Propulsion Laboratory.