The first drone on Mars shows what the right collaborations make possible – World Economic Forum

Since July, a small helicopter drone named Ingenuity had been hitched to the underbelly of the Perseverance rover as it made its way to Mars. The drones arrival this February marked the first time an autonomous aerial platform is operated outside Earths atmosphere.

The drone was also the first to be used in space science exploration and other firsts will likely follow. Ingenuitys planned experiential flights on Mars will aim to prove the effectiveness of aerial exploration for future interplanetary missions to scout areas once considered out of sight and reach.

The project like any other scientific advancement leverages decades of scientific expertise. But the drone, based on Qualcomms Snapdragon Flight platform, also leverages private sector knowledge and guidance. This advancement would not have been possible unless the two core collaborators NASA and Qualcomm Technologies had not connected at the right time and in the right way.

To fully understand the scientific achievement Ingenuity represents, its necessary to detail the challenges that Mars exploration presents. First, Mars atmosphere is 99% less dense than Earths, which means achieving lift is very difficult. Second, because of the time it takes for communication signals to pass between Earth and Mars anywhere from 3 to 22 minutes remote controlled flight is not possible.

To enable this mission in the face of these challenges, Ingenuity required high computational performance at extremely low power for autonomous navigation via computer vision, intelligent decision making, and a small, lightweight design. Such a project required not just NASAs expertise in space science exploration, but also required knowledge of cutting-edge technologies. These technologies included flight navigation based on computationally-complex flight algorithms and a rich array of computer vision enablement technologies for drone location determination and object avoidance, something only a private sector company could provide.

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NASAs Jet Propulsion Laboratory (JPL) approached Qualcomm Technologies, Inc. (QTI) in 2015 as the Qualcomm Snapdragon Flight platform was being developed. The Flight Platform was designed to enable drone manufacturers to build drone platforms quickly and efficiently.

These specifications fit with JPLs needs: a commercial-based platform with the correct size and power constraints that could manage flight, control, and the ability to take and store images that would ultimately prove the utility of drones on another planet for the betterment of space science.

Through this process, it became evident that the autonomous capabilities Qualcomm was commercializing for next generation automotive experiences were in lockstep with the mission requirements JPL was seeking for aerial space exploration and that QTI could understand its program objectives. As a result, QTI was brought on as a consult to act as a sounding board while JPL was integrating a solution.

Several factors led to the successful partnership, revealing elements any collaborators in the public and private sector could put into place. They include:

This two-way engagement enabled QTI and JPL to take an empathetic view that unified their collective thinking toward a common goal. Early open discussions and brainstorming sessions revealed how commercial technology could best address mission specifications. By focusing on the needs of the mission, the teams could guide one another through in-person visits early on. Later, a cadence of collaboration via teleconference and email was created to help answer questions as they arose.

Conventional wisdom suggests that public sector and private sector ecosystems are vastly different in structure, composition, language and priorities. Common ground can be found, however, because many of the problems each ecosystem tries to solve for its constituents are often remarkably similar.

"Engagement cannot be one and done it must be continual, ensuring that the key collaborators can keep problem solving through different phases of development."

Still, the opportunity for public and private partnerships isnt just to find short-term solutions that benefit both parties. As the public sector cannot match the scale at which the private industry invests in developing new capabilities, the public sector needs to find ways tap into that momentum and dynamic expertise, enabling government to move at the speed of innovation.

Governments that continually work with industry do not limit themselves to waiting for technology when it is productized and available commercially on the shelf (COTS). As this partnership with Qualcomm and JPL shows, by utilizing an early engagement point with the commercial industry, governments can dramatically shift the cycle of change and innovation. In this case, the cycle shrank from almost 20 to just 5 years.

The more the public and private sector learn how to leverage their strengths, the better technology will address existing and anticipated needs. Ingenuity provides a perfect reminder of collaborative power a pioneering technology thats the unique product of great minds coming together.

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The first drone on Mars shows what the right collaborations make possible - World Economic Forum