The image clearly appears to be inspired by HAL 9000, a fictional AI character in Stanley Kubrick’s 2001: A Space Odyssey. When activated, it displayed a red dot on the Tesla’s large center touchscreen: Sentry Mode uses the Autopilot cameras to “detect potential threats” and it goes through different levels of alarms based on those detected “threats.” The feature was released in early 2019 and it was built on top of “TeslaCam,” a previously released integrated dashcam system with similar capability as Sentry mode, but used when someone is inside the car. Sentry Mode is an integrated surveillance system inside Tesla’s vehicles using the Autopilot cameras around the car. Original article on apparently got in trouble for using imagery representing HAL 9000 from the movie ‘2001: A Space Odyssey’ for Sentry Mode so it is switching to something that now seems inspired by a turret from the video game Portal. Choi on Twitter Follow us on Twitter and on Facebook. "Sometimes we have to step back and say, 'Hey! This is pretty cool.'"įollow Charles Q. "When you're deep in the workings of software, you forget sometimes that you're actually imagining what it would be like to live on Mars or the moon," Bonasso said. Sometimes Bonasso loses track of how this work aims to create a real-life version of HAL for distant astronauts. In the long term, the aim is to incorporate CASE into the analogs to see how the software can help improve future space expeditions. The scientists are now working with what NASA calls analogs - places where volunteers pretend they are living on a distant world. While it can keep the life support systems running, it has no idea who won the last presidential election." "Its capability is very narrow, focused on events occurring on a planetary base. Commander Data from 'Star Trek: The Next Generation,'" Bonasso said. Moreover, "though CASE is impressive, it's not the fully realized HAL from '2001: A Space Odyssey,' nor is it Lt. However, the researchers stressed more work is needed before it can run an actual base. In experiments, CASE managed a simulated planetary base for about 4 hours. "That's because it can't do anything it's not programmed to do." "Our colleagues and NASA counterparts are not concerned that our HAL might get out of control," Bonasso told. To prevent a situation like one where HAL betrayed its astronauts, CASE is designed to carry out plans only after sharing them with people and getting consent for action. The software can visually display information such as those regarding life support and robot status, but can also converse with people so they can ask questions, send commands and be warned about any impending problems. For example, if someone moves a toolbox from the equipment locker to the crew quarters, the ontology server reasons that all of the tools in the box will change location as well, the researchers said. It can also automatically reschedule activities when problems arise, such as gas leaks, broken motors or planetary dust storms, Bonasso said.Īll three layers are linked to an ontology server - a rigorous, exhaustive database that can reason about its data. The final layer consists of automatic planning software that decides how to achieve CASE's programmed goals for the day and the order in which to perform them. These include connecting power to batteries, controlling oxygen-generation and carbon-dioxide-removal systems, and charging and sending rovers to retrieve samples of planetary rock. The second layer carries out procedures underlying routine activities.
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