| | To reach Level 5 autonomy, autonomous vehicles will rely on sensor fusion to provide the immense amount of data needed for spatial awareness. Currently, two architectures stand out as solutions for its implementation. |
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| | | As the level of autonomy in cars increases, choosing the right number and type of sensors becomes more complex. Traditional sensing options are available, but over the years, the application of radar within the automotive industry has positively evolved the definition of safety and efficiency. | |
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| Advertisement |  High-resolution 77-GHz radar sensor detects objects up to 40% farther away from the vehicleAutomakers can meet NCAP safety regulations with the AWR2944 single-chip automotive radar sensor. This sensor provides best-in-class radio frequency performance in a small form factor – approximately 30% smaller compared to radar sensors today. | | |
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|  Single-chip 76-GHz to 81-GHz automotive radar sensor for smart parking applicationsmmWave radar can detect objects from farther away than other sensing technologies. By sensing objects at greater distances, more objects in the vicinity of the parking area can be detected. TI’s AWR1843AOP device can detect objects as far away as 50 m.
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|  The AWR6843AOP automotive sensor enables systems to perform multiple applicationsEnable more functionality in automotive in-cabin systems to increase usability for consumers, covering applications such as gesture control, intruder and child presence detection, and vital-sign detection all with one sensor.
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|  Enhance front radar capabilities with the AWR2243 mmWave sensorSense up to 220 meters from the vehicle with advanced output power, noise figure and phase noise with TI’s front radar mmWave sensor for ADAS applications.
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| | | With longer range, high-resolution radar, cars can sense oncoming vehicles faster with detection at farther distances to more safely change lanes and navigate intersections. By helping automakers meet the latest NCAP safety requirements, TI’s corner radar can make driving safer worldwide. | |
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| | | The new AWR2944 radar sensor gives automotive customers more tools that can fuel vehicle innovation. The increased ability to quickly sense and detect blind spots and efficiently navigate turns and corners paves the way for automakers to achieve their vision of a collision-free future. | |
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| | | There are many possibilities of a multimodal function combinations such as gesture control combined with intruder or child presence detection. TI’s multimodal radar sensor, AWR6843AOP enables systems to perform multiple applications, all from one intelligent sensor. Additionally, the sensor can be programmed to perform various combinations based on the state of the vehicle or position of the occupant. | |
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| | | Benefit from complete 360-degree coverage around the vehicle with improved range detection and accurate measurements of an object’s range, velocity and angle with TI mmWave radar. The AWR1843AOP sensor has AOP technology that creates very small form factor sensors with less effort and enables more resilient detection and better performance in parking applications. | |
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| Sponsored by Texas Instruments | | | |
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