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ESTG - Mestrado em Engenharia Eletrotécnica - Telecomunicações

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http://hdl.handle.net/10400.8/5620

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Browsing ESTG - Mestrado em Engenharia Eletrotécnica - Telecomunicações by Subject "ADS"

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  • Automotive 4D Radar Imaging with Field of View
    Publication . Jesus, Samuel Viegas Reigota de; Caldeirinha, Rafael Ferreira da Silva; Reis, João Ricardo Vitorino
    Radio Detection And Ranging (Radar) technology has been around for many decades. Initially developed for military purposes, radar technology has now grown into a larger set of applications. It is used in aviation, to detect other aircrafts and give accurate altitude readings, in marine navigation, to prevent collision with other ships and monitor ship movements in busy waters, in weather forecast, to monitor precipitation and wind, in factories, to enable manufacturing robots to perceive their environment and navigate/position themselves according to it, and even in health care, to monitor breathing and blood pressure, to name a few. In recent years, improvements in integrated circuitry and Radio Frequency (RF) electronics have made radar-on-chip possible, significantly reducing production costs and therefore enabling a wider adoption of radar technology, now commonly used in many civil applications. In the automotive industry for instance, Millimeter Wave (mmWave) radar sensors are being implemented in everyday vehicles for purposes such as Collision Warning System (CWS), Blind Spot Detection (BSD), Autonomous Cruise Control (ACC), Parking Assistance Systems (PAS) and many more, thus being integrated in systems such as Advanced Driver Assistance Systems (ADAS) and Autonomous Driving Systems (ADS). These systems comprise a suite of electronic automotive technologies designed to assist drivers in various driving scenarios, enhance safety, and improve the overall driving experience by providing real-time data through a combination of software algorithms and sensors, including cameras, ultrasonic sensors, Light Detection And Ranging (Lidar) and radar. Using real-time data from each component, ADAS and ADS can perceive the environment, plan a response, and control the vehicle’s mechanical systems to execute the intended action. As the market pushes for higher levels of vehicle autonomy, both ADAS and ADS are becoming increasingly more complex and sophisticated, requiring improvements in radar technology to meet the evolving demands of these advanced systems. Therefore, this dissertation presents the work on the development of a 4 Dimensions (4D) Multiple-Input-Multiple-Output (MIMO) automotive imaging radar with a 360◦ Field-of- View (FoV). After a brief description of the proposed architecture, using three mmWave 4D imaging radar sensors (AWR1843BOOST) by Texas Instruments (TI), disposed in a equilateral triangular prism shape, this dissertation presents the first results on the implementation of a real-time and high resolution radar sensor with a 360◦ FoV. To conclude the performance evaluation of the presented 360◦ radar, experimental results obtained in a controlled environment, i.e. inside an anechoic chamber, are presented to validate the proposed concept. A mmWave Compact Antenna Test Range (CATR) anechoic chamber was also designed and built in order to properly calibrate the radar. Successful target detection is achieved by multi-point point-cloud. The proposed radar architecture may be seen as an opportunity to augment and improve ADAS and ADS.
    2024-11-07Master thesis Open access Show more