A team of scientists, engineers, and designers have taken the first steps toward a robotic version of the famous shark robot that’s been floating around the world since 1958.
The team is working on an unmanned system that will carry a camera, sensors, and other electronics from the ocean to the surface, in a process that could take years, and is currently on track for completion by 2021.
The technology could make a huge difference in our future missions to the moon, asteroids, and beyond, which could have far-reaching economic and social benefits, the researchers told the Associated Press.
But the robot is also a huge risk: While its size, weight, and power could make it vulnerable to human attacks, the robotic system could also damage satellites and other underwater structures.
To help minimize the risk, the team is now working on a prototype that can withstand the impact of a lander, and they plan to build a prototype of its own as soon as possible.
The research team plans to use a small satellite called Mantis that was recently recovered from the sea off Japan, and the technology that was developed for the spacecraft could eventually be used on other missions.
In order to build the robot, the scientists and their team needed to get permission from NASA to launch it from an ocean-going vessel.
They’re also using a variety of existing technologies to improve the system.
The system is equipped with sensors to detect underwater hazards, and it’s designed to operate autonomously and in close quarters.
That could allow it to perform tasks like detecting underwater explosions, or conducting repairs and monitoring vital systems on a large-scale, according to the team.
The underwater robot has been in service since the 1960s, and has been used for various tasks around the globe.
The robot, named the Mantis, was recovered from Japan’s Mauna Kea by a Japanese rescue mission in 2014.
NASA’s Deep Space Network was responsible for the rescue, and NASA also launched the robot in 2019.
Scientists are planning to build an entire system from scratch, with the robotic version coming online in 2021, the AP reported.
That means that the robot could be used for missions to asteroids, as well as other deep space missions that require robotic solutions.
While the project is still in the research phase, the group says that they hope to use the technology for deep space exploration and humanitarian missions.
“We’re hoping to get the Manti to Mars as early as 2021,” co-lead researcher David Grosen said in a statement.
The project is currently in a pilot program and will take several years to build and operate, but the team hopes to have the robot up and running by 2022.
The Mantis robotic spacecraft is named after Japanese explorer Akihiro Mantis.
The researchers are using a robotic concept known as the “Takahashi” system.
It was developed by Japanese electronics company Hitachi in the 1970s.
The Takahashi system is a system that uses a spacecraft’s camera, a camera for the sensors, a gyroscope, and a thruster to drive the spacecraft in close proximity to the ocean.
The sensors can be placed in the water, or on the seafloor, and could be placed anywhere on the ocean floor.
They would also be able to detect the water’s temperature, and would also help the spacecraft avoid damaging or damaging satellites, like satellites on land.
The idea behind the system was to make a robotic probe that could perform tasks on land, but also help researchers in deep space.
NASA plans to put a crew on board the Manta by 2025, and eventually launch it to the International Space Station.
The company hopes to use this spacecraft to conduct deep space science in deep water, and then return to Earth for a re-entry.