Officials at the Japan Aerospace Exploration Agency (JAXA) and Toyota Motor Corp. in Tokyo have taken a first step toward collaborating on international space exploration, having agreed to accelerate their ongoing joint study of a manned, pressurized rover powered by fuel cell technologies to enable lunar mobility.
International space exploration is centered on the moon and Mars, and requires coordination of unmanned missions, such as the recent touchdown by the asteroid probe Hayabusa2 on the asteroid Ryugu, and manned missions, such as those involving humans using pressurized rovers to conduct activities on the moon. When it comes to challenging missions, such as lunar or Martian exploration, various countries are competing to advance their technologies, but also advancing their cooperative efforts, officials affirm.
Learn about the SAE International Aerospace Japan Symposium on Emerging Technology and Standardization held in conjunction with Japan Aerospace 2018 in Tokyo
“At JAXA, we are pursuing international coordination and technological studies toward Japan’s participation in international space exploration. We aim to contribute through leading Japanese technologies that can potentially generate spin-off benefits. Having Toyota join us in the challenge of international space exploration greatly strengthens our confidence,” JAXA President Hiroshi Yamakawa says.
“Manned rovers with pressurized cabins are an element that will play an important role in full-fledged exploration and use of the lunar surface. For this, we would like to concentrate our country’s technological abilities and conduct technological studies,” Yamakawa adds. “Through our joint studies going forward, we would like to put to use Toyota’s excellent technological abilities related to mobility, and we look forward to the acceleration of our technological studies for the realization of a manned, pressurized rover.”
“The automotive industry has long done business with the concepts of ‘hometown’ and ‘home country’ largely in mind. However, from now on, in responding to such matters as environmental issues of global scale, the concept of ‘home planet’, from which all of us come, will become a very important concept,” Toyota President Akio Toyoda explains. “Going beyond the frameworks of countries or regions, I believe that our industry, which is constantly thinking about the role it should fulfill, shares the same aspirations of international space exploration.
“Cars are used in all of Earth’s regions, and, in some regions, cars play active roles as partners for making sure that people come back alive. And I think that coming back alive is exactly what is needed in this project,” Toyoda adds. “I am extremely happy that, for this project, expectations have been placed on the thus-far developed durability and driving performance of Toyota vehicles and on our fuel cell environmental technologies.”
Bookmark http://www.sae.org/news to keep pace with the latest aerospace technology news & information.
Learn about AeroPaks to access 8,000+ SAE aerospace standards, specifications, recommended practices, and resource documents available in SAE MOBILUS.
Subscribe to SAE MOBILUS for access to more than 200,000 resources, including aerospace standards, technical papers, eBooks, magazines, and video.
Visit SAE International's Knowledge Hubs -- access points to the best industry resources, training, and current news -- designed to provide everything you need to know about emerging mobility technologies.
Continue reading »
Courtney E. Howard is editorial director and content strategist at SAE International. Contact her by e-mail at email@example.com. Courtney E. Howard brings 25 years of experience to the role of editorial director and content strategist at SAE International, where she specializes in and focuses on cutting-edge mobility engineering technologies and applications in high-tech articles, research reports, and multimedia such as webinars, podcasts, and videos. Connect with her by e-mail at firstname.lastname@example.org and add your voice to the growing body of mobility engineering knowledge.