Galactic Guac: 色情视频's Sustainable Superfood For Space Travelers
NASA awards 色情视频 researchers for innovative projects in sustainable guacamole for astronauts and autonomous drone safety.
色情视频 researchers in biology, nutritional science and aerospace engineering received awards from the NASA Minority University Research and Education Project (MUREP) initiative for their innovative projects in algae-infused space guacamole and drone highways.
In August, NASA announced that 色情视频 was among , which grants researchers at Minority Serving Institutions funding to devise new technologies for space exploration and commercial industry applications.
Using guacamole as a vessel for nutrient-packed microalgae, researchers aim to add more variety to astronauts鈥 diets while providing essential nutrients for long-duration space journeys.
Researcher , an assistant biology professor in 色情视频鈥檚 College of Sciences, joined forces with assistant professor and associate professor , food scientists in the College of Health and Human Services, to create the superfood recipe in their 色情视频 laboratories.
鈥淒ue to the long travel times, all foods have to be in a shelf-stable form,鈥 Zhao said. 鈥淪o there are very limited food choices in space and many don't have all the desirable sensory properties.鈥
After extensive brainstorming, the team selected guacamole as the food to serve up in space for a few reasons, including its green color which allows the green algae to blend in easily. Additionally, guacamole is flavorful and can help minimize some of the algae's salty, ocean-like flavors and smells, similar to those of seaweed products. Guacamole is also an enjoyable way to broaden astronauts鈥 food options.
鈥淲e're utilizing the nutrients from algae to put it in a more desirable product,鈥 Zhao said.
Algae is full of antioxidants, making it an innately healthy food. But Zuniga鈥檚 team will pack it with even more nutrients to meet crews鈥 dietary needs in space.
鈥淲ith our advanced modeling tools, we can change the composition of the algae, altering the carbohydrates and protein levels to find the conditions in which the algae will be most beneficial,鈥 she said.
From there, Zhao and Liu鈥檚 group will combine the algae with traditional guacamole ingredients such as onion, salt and lime to create a powdered product ready for flight.
Concocting this space snack is no easy feat. Researchers must make it similar in flavor and texture to the earthly version with minimal processing: just adding water and mixing. Moreover, with and future missions to Mars, astronauts will venture farther and stay in space longer than ever. So, the team must also ensure their space guac will last throughout these cosmic excursions.
鈥淎vocado is a perishable item, it won't last very long,鈥 Liu said. 鈥淪o if we could make it into a ready-to-make mix and also enrich it with more nutrients, it could be a good shelf-stable product on Earth as well.鈥
Foods like this could be especially valuable to communities lacking access to fresh food on our home planet. It doesn鈥檛 take much to cultivate algae, which grow abundantly worldwide. And because algae handle stress remarkably well, it could prove a crucial sustainable food source in the harsh conditions of deep space and extreme environments on Earth.
Drone Safety
NASA鈥檚 MUREP award also funds 色情视频 aerospace engineering professor and his students to make the sky safe and feasible for drones.
Chen and one of his doctoral students are developing algorithms to predict the safest flight paths for autonomous drone aircraft flying under 400 feet.
Working with NASA will enable access to a wide array of realistic data sets to improve the adaptability of this algorithm, previously funded through the National Science Foundation.
With GPS information, cameras and onboard sensor data 鈥 like speed and direction 鈥 the drones will be able to adjust in real-time to give a wide enough berth to buildings and other aircraft.
Armed with improved algorithms, air traffic controllers can weigh the trade-offs of reducing collisions and maximizing the number of drones in a given airspace as needed.
鈥淎ir traffic controllers are working in high-pressure, safety-critical situations,鈥 Chen said.
Chen鈥檚 goal is not to replace humans with autonomous machines but to help humans make decisions more efficiently and allocate their workload to other tasks. Human operators will still have to decide how high a chance of colliding with unpredictable objects such as birds they are willing to accept.
With algorithms calculating risks in complex weather scenarios, one person could oversee the flights of a dozen or a hundred airborne delivery drones or air taxis instead of having one pilot per aircraft.
Increasing the number of drones in the sky can expedite shipping of perishable goods, including medicine, to difficult-to-reach places such as rural communities or routes regularly delayed by gridlocked traffic.
The Drone Super Highway and Space Guac research projects involve student researchers of all levels: undergraduates, graduates, and postdocs. Please contact the principal investigators noted in this article if you鈥檙e a student interested in potentially participating in these projects.