Are you interested in the latest ePDN technology from NASA, as it relates to robotics and engineering? If you are, you’ll enjoy this detailed guide. We’re going to share information about this type of technology today. It’s ultra-modern, high-tech and interesting stuff!
NASA Offers Pro Development Network Courses
In winter of 2011, NASA publicly announced the inception of electronic pro development network courses. The information came from the Education Office at NASA. A branch of NASA known as the Learning Environments & Research Network partnered with the Georgia Institute of Technology in order to implement ePDN. ePDN is all about preparing teachers of kindergarten to Grade 12 students to get students interested in STEM.
STEM stands for science, technology, engineering & math. Teachers in the program will be able to engage students via learning materials and resources which have been developed at NASA.
Teachers who want to improve their instructional ability, meet pro development targets or discover innovative and fun resources which may be utilized in various educational environments may want to look into this course. It’s free to access. There is an application process. Full details of how to apply may be found at the official NASA website. Now, let’s talk about how this program facilitates student engagement in robotics and engineering.
One module of the course is known as Using Robotics to Enhance STEM Learning. This course typically lasts a few weeks and it is designed to show educators how to put together and then program Mindstorm robots from Lego. It also shows teachers how to utilize the robots in order to boost engagement with students. Usage of the robots as per course outlines will also help students to gain a deeper understanding of the principles of engineering, math and science!
The same end-effectors and robotic manipulators utilized at NASA, for running its International Space Station, are accessible via this unique training course. These elements are used in order to perform integration of an array of sensors for robots. They give users the ability to control robotic systems. Teachers participate in Grand Challenges during the course, whereby they join with other co-workers and design, create and program robots. The robots must explore environments and then come back with samples which are used for the purpose of investigation.
NASA’s Efforts Don’t Stop There
At present, NASA encourages youth and educators to develop their knowledge of robotics and engineering via a host of educational courses and workshops. At the official NASA website, there is a Web page which lists available learning opportunities. You’ll find a full list of courses and other educational options at this official NASA link – https://robotics.nasa.gov/edu/matrix.php
Whether a child is in kindergarten or a later grade, he or she should be able to access a course which is scaled to his or her age group. As well, educators may choose from programs which are just for them. NASA also provides access to robotics and engineering ePDN (or classroom-style learning or workshops) for people at all levels of post-secondary education, from Bachelor to Master to PhD. Many of these initiatives are run via partnerships with educational facilities in America.
NASA Awards Robotic Innovation
The ePDN and other types of courses offered by NASA are wonderful learning opportunities for many students and teachers. NASA also runs occasional contests which promote robotics/engineering achievements. For example, in June of 2017, NASA awarded some citizen inventors big money (three hundred thousand dollars) to a group of teams (four overall) who came out ahead in the Space Robotics Challenge.
The award-winning teams created software which improved the autonomous capability of one of NASA’s humanoid robots. This “R5” robot was controlled via the new software, which allows it to do particular tasks that future space travelers may also perform during space missions, whether they are aboard space ships or on space stations on other planets.
First prize went to Kevin Knoedler, whose team, Coordinated Robots, excelled by offering superb software which helped the R5 to move closer to its full potential. The first prize for the competition was one hundred and twenty-five thousand dollars.
Will Robots Do Prescursor Space Missions?
The scope of modern-day robotics is widening. This means that robots may indeed do precursor space missions in the future. They would be aboard spacecraft, performing the same tasks that human astronauts would do (or, at least, some of these tasks). NASA personnel could program the robots and monitor their progress. This might make the tasks of planning space missions with human space travelers easier.
The robots would be the test run for the space missions with human beings and much could be learned from the ways in which the robots interacted with their environments during space missions. Using robots for precursor missions might minimize risks when it’s time to send real human beings up into space. So, there is a good reason why NASA is so interested in moving robotics and engineering forward.
Since NASA will need more robotics specialists in the future, as well as plenty of engineers who help out with robotic space missions, it’s safe to say that NASA has a vested interest in getting students and their teachers excited about robotics and engineering.
Now that you have the inside scoop on robotics and engineering ePDN for NASA, you may want to participate in a NASA course of your own, whether you’re a teacher or a student. If you’re still in school, talk to your parents or science teacher about all of the possibilities. If you’re in college or university, you’ll find some great, NASA-sponsored opportunities to learn.
Teachers who want to gather STEM knowledge via NASA educational courses should contact NASA officials in order to see if they quality, or check the official NASA website for information about available programs. Some programs may be available for a limited time only.
The World Is Changing
Technology these days has evolved greatly and it seems almost magical. However, it’s not created by magic. It’s all about math, science, engineering and robotics. Hopefully, you’ve enjoyed learning about all of the ways that NASA helps people of all ages to to develop robotics and engineering skills.