Ironically the biggest threat to the trucking industry is the long haul. New-gen drivers are less willing to spend months on the road, leaving companies struggling to recruit. With 4D Imaging radar comes the opportunity to revamp an industry that, until now, has largely been impervious to change.
An accurate estimate of a vehicle’s own velocity, referred to as ego-velocity, is crucial for truly safe ADAS and, eventually, autonomous driving. Advanced radar imaging deciphers the car’s own speed, leveraging its ability to sense the environment in high resolution specifically in elevation, and its ability to detect stationary objects. While ego-velocity can be estimated using a variety of methods, only Imaging Radar provides the precision and continuity required for true autonomous driving.
An accurate estimate of a vehicle’s own velocity, referred to as ego-velocity, is crucial for truly safe ADAS and, eventually, autonomous driving. Advanced radar imaging deciphers the car’s own speed, leveraging its ability to sense the environment in high resolution specifically in elevation, and its ability to detect stationary objects. While ego-velocity can be estimated using a variety of methods, only Imaging Radar provides the precision and continuity required for true autonomous driving.
Arbe, announced the roll out of their Radar Development Platform empowering customers to revolutionize their imaging radar systems. Tier 1s, OEMs, and new mobility players are enhancing their perception algorithms based on the 2K high resolution Imaging Radar Development Platform, or A Sample as referred to in the automotive industry.
Today’s radar already plays a vital role in various safety systems. However, the radar options available in the market today are not the right solution to achieving a fully autonomous vehicle – yet. As the autonomous vehicle industry advances toward anticipated exponential market growth, major players already have begun announcing deals that will make autonomy […]
Advanced radar technology has the potential to lead to significantly safer advanced driver-assistance systems (ADAS) and autonomous vehicles. Tier 1 suppliers to the automotive industry need to take the development of advanced radar systems seriously. The Euro NCAP five-star rating has a roadmap that includes the need to identify pedestrians in all environmental conditions. Radar will be an important sensor to accurately capture speed and direction of travel of pedestrians in all weather and lighting conditions. This makes radar important for ADAS use cases.
At Arbe, we pride ourselves on achieving the unachievable. Today, with the release of our Processor Chip, we launch the world’s first dedicated automotive-radar processing chipset – a technology that supports the next generation of radar system development.
This is a very big deal. We break down why. We knew this moment would arrive: The autonomous driving industry is facing justified concerns after a few rough months defined by multiple crashes. The conversation surrounding these tragic events is focusing not only on the moral aspect of artificial intelligence, but also on whether or […]
Our CEO Explains how Arbe Tech will enable the autonomous vehicle evolutionary leap. At Arbe, we’re developing the world’s first ultra high-resolution 4D imaging radar, a “missing link” technology in the L3 and higher autonomous vehicle evolution. We recently sat down with our CEO, Kobi Marenko, to review the significant implications of this new technology. […]
To achieve NCAP’s ‘Vision Zero’ safety rating, vehicles will need super sensors that have a wide field of view, long range and the ability to sense objects and people at all heights so there are no gaps or blindspots. Arbe radar is that solution. As the auto industry heads toward putting more Level 2 and […]
Why our new antenna is a breakthrough in ADAS safety and autonomous driving. Arbe, the provider of a next-generation radar system offering ADAS and autonomous vehicles high-resolution radar 100 times more detailed than any available solution, today announced the launch of the first radar antenna designed to protect pedestrians by detecting fast-moving or stationary objects […]