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More Effective Space and Moon Exploration | UEL

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The Unmanned Exploration Laboratory (UEL) focuses on designing rovers with distinctive features such as folding wheels. These rovers have the benefits of being easy to mount on a lander by reducing their volume, mitigating the shock when the rover lands on the moon, and being advantageous for driving in rough terrain. UEL has been consistently active as a family company of KARI (Korea Aerospace Research Institute) and is collaborating with various government-funded research institutes, such as the Korea Atomic Energy Research Institute and the Korea Institute of Geoscience and Mineral Resources. Moreover, through MOUs with Hanwha Systems and joint research with Kolon Industries, they are laying the groundwork to participate in the 2032 Korea Lunar Lander Project. Also, UEL is developing various technologies for more effective space and moon exploration . They are developing foundational technologies that enable rovers to perform missions smoothly on the lunar surface by allow...
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Lunar and Mars Exploration Rover | UEL

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Explore the Moon and Mars with Korea's advanced lunar and Mars rover s. Unmanned Exploration Laboratory's (UEL)  innovative technology enables unique space exploration with advanced robotics. UEL is developing technologies that would allow rovers to perform missions more smoothly on the lunar surface. This includes terrain data acquisition using stereo vision and rover positioning technology without GPS. These technologies are essential for any lunar mission, as they allow for broader exploration and reduce reliance on direct human control, which is limited by communication delays between Earth and the Moon. Support for human missions: UEL's rovers could be deployed ahead of or alongside human missions to scout potential landing sites, collect scientific data, and identify resource deposits. They could also provide real-time data on terrain and positioning to support safe and efficient exploration after landing. UEL Heritage HAETAE is a four-wheel lunar exp...
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Multi-functionality Rovers for Lunar Exploration | UEL

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Unmanned Exploration Laboratory (UEL) specializes in developing rover s with unique features like foldable structures and wheels. These rovers offer advantages like increased mobility in tight spaces and the potential for multi-functionality on various terrains. UEL Heritage HAETAE, currently UEL's largest rover, is a medium-to-large four-wheeled rover with a total weight of 10 to 15 kg using a rocker-bogie suspension structure and has a maximum operating range of 400 m. HAETAE is built to carry medium-sized payloads for personal and research purposes and uses external solar panels to provide the power needed during missions. HAETAE is the most suitable rover for performing mid-range missions such as terrain exploration and operation of small experimental equipment. UEL's small rover, SCARABS, is a small two-wheeled rover with a total weight of 2 to 5 kg, a rear stabilizer, and an operating range of up to 150 m. SCARABS can carry small-sized payloads, and its smal...
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Rovers with Foldable Structures and Foldable Wheels for Lunar Exploration | UEL

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The Unmanned Exploration Laboratory (UEL) was founded in 2016 to develop multi-rotor drones, fixed-wing aircraft, and unmanned exploration vehicles. Since 2019, the company has focused on unmanned lunar exploration rover s. Furthermore, since 2020, it focused on constructing a rover to use lunar field resources through collaboration in lunar soil simulation development and application technologies. UEL is primarily developing the Rover system. In particular, they are working on rovers with folding frames and foldable wheels. UEL Rovers Developing rovers with foldable structures and foldable wheels for lunar exploration presents several potential advantages and innovations: Compact Transport: Foldable structures and wheels allow for more compact packaging during transportation to the Moon, whether within spacecraft or on rovers themselves. This reduces the size and weight constraints of the launch vehicle and maximizes the payload capacity for scientific instruments a...
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