Description
Added on the 11/01/2022 06:35:13 - Copyright : Auto Moto EN
The main advantage of digital twins is the fact that they can be networked and the data combined with a centralised intelligence system. Conclusions that benefit every single vehicle and therefore every individual customer can be drawn from data relevant to an entire field. For example, an algorithm can compare big data against sensor data from a specific vehicle's powertrain and chassis to identify a customer's driving style. The algorithm can then recommend not only the optimal time for service work on the vehicle but also the required scope of that work. This data makes it possible to customise service intervals and allow servicing for specific components as needed, based on how the customer uses their vehicle.
The main advantage of digital twins is the fact that they can be networked and the data combined with a centralised intelligence system. Conclusions that benefit every single vehicle and therefore every individual customer can be drawn from data relevant to an entire field. For example, an algorithm can compare big data against sensor data from a specific vehicle's powertrain and chassis to identify a customer's driving style. The algorithm can then recommend not only the optimal time for service work on the vehicle but also the required scope of that work. This data makes it possible to customise service intervals and allow servicing for specific components as needed, based on how the customer uses their vehicle.
The main advantage of digital twins is the fact that they can be networked and the data combined with a centralised intelligence system. Conclusions that benefit every single vehicle and therefore every individual customer can be drawn from data relevant to an entire field. For example, an algorithm can compare big data against sensor data from a specific vehicle's powertrain and chassis to identify a customer's driving style. The algorithm can then recommend not only the optimal time for service work on the vehicle but also the required scope of that work. This data makes it possible to customise service intervals and allow servicing for specific components as needed, based on how the customer uses their vehicle.
The new Mercedes-Benz S-Class has become more intelligent in many areas, and the driving experience reaches new heights. The digital innovations in e.g. MBUX include new features that make driving even more enjoyable and even safer: among them are rear-axle steering with a large steering angle and safety innovations such as the rear airbag. Furthermore – as a new function of PRE-SAFE Impulse Side – the vehicle body can be raised just before a side impact thanks to the active E-ACTIVE BODY CONTROL suspension. Following systematic further development, the driving assistance systems are a further step towards autonomous driving. Thanks to improved environmental sensors, for example, the parking systems give the driver even better support when manoeuvring at low speed. While visualisation reaches new levels by virtue of integration into the intuitive operation of MBUX. Can a luxury saloon with a long wheelbase be almost as manoeuvrable and agile as a compact car around town? Yes, if it has rear-axle steering with a large steering angle at the rear axle.
Creative collaboration across disciplines and locations: Porsche Digital Lab assembles a group of influencers from the German digital scene for a road trip through Berlin and Hamburg. Technology, entrepreneurship, music that inspires you to dance, three Porsche Cayenne vehicles and a plethora of female role models: Porsche Digital Lab recently embarked on an exclusive innovation tour of Berlin and Hamburg alongside dancehall crew “Chefboss” and ten influencers from the German digital scene. The tour was all about discovering something new, with a consistent focus on creativity, new networks, inspiration and broadening your horizons.