The leading provider of full-stack autonomous driving simulation technology, MORAI, a member of the Born2Global Centre, stated today that it has improved its autonomous driving simulation technologies to broaden its application to diverse unmanned systems. At CES 2023, the business will showcase the newest technologies using its simulation platform MORAI SIM.
By creating a virtual environment and digitally mimicking everything from difficult physical conditions to weather variations and even illumination changes, MORAI SIM aids users in the verification of vehicles and systems. To enable verification that ensures the dependability and safety of the self-driving systems, MORAI SIM offers a simulation environment that is exact to reality and a virtual platform that comprises sensors, vehicle models, and scenarios. On the virtual platform, scenarios testing that can’t be performed on the road, like tests that gauge the risk of a pedestrian collision, can be repeated numerous times.

In order to check the safety of its systems, MORAI has developed an autonomous driving simulator solution to be utilised for a variety of unmanned vehicles, including aircraft, robots, vessels, and unmanned ground vehicles.

According to Jiwon Jung, CEO of MORAI, “next-generation mobility breakthroughs such as UAM, unmanned robots, and vessels are fast progressing.” “Because it can swiftly, safely, and affordably verify the performance of autonomous driving systems, simulation has gained attention as a crucial breakthrough tool to encourage mobility innovation. At CES 2023, we intend to showcase MORAI’s avant-garde technology and mission in addition to fortifying our connections with international partners.”

For instance, MORAI SIM Robotics, which is intended for robotics applications, allows for the virtual environment verification of autonomous mobile robots (AMR). The system provides modelling of several robot kinds, including manipulators and wheel-type moving robots in addition to walking robots, and uses various dynamics to express realistic movements in the virtual simulator environment. The surroundings that AMR can be driven in are likewise replicated, including internal spaces like industries and buildings as well as outdoor pedestrian roadways. Users can alter the surroundings and situation with this application as necessary to validate their AMR.

Source: Prnewswire