Abstract: In various embodiments, a circuitry configured to generate a voltage is provided. The circuitry may include a sequence generator configured to provide a sequence of data words consisting of bits. The number of bits is greater than two. The circuitry may further include a delta-sigma modulator configured to receive the sequence of data words provided by the sequence generator and to provide a delta-sigma modulated first single bit data stream at a first data rate, and a decimation filter configured to generate a stream of decimated data words from the first single bit data stream at a second data rate. The second data rate may be smaller than the first data rate, each decimated data word including a plurality of bits. The circuitry may further include a parallel-to-serial converter configured to convert the decimated data words to a second single bit data stream while preserving the second data rate.
Abstract: A method for calibrating an antenna pattern of a sensor in an automotive detection system includes receiving reflected signals and generating receive signals indicative of the reflected signals. Processing the receive signals to generate detections of objects including one or more ground-stationary clutter objects, each of the detections being associated with a detected azimuth and detected relative velocity of each ground-stationary clutter object. For each of a plurality of angles with respect to a boresight of an antenna of the sensor, processing the detected azimuth and detected velocity of one of the ground-stationary clutter objects and a signal indicative of velocity of the sensor to generate an actual antenna pattern for the antenna of the sensor. A calibrated antenna pattern for the antenna of the sensor is generated using the actual antenna pattern to adjust an assumed antenna pattern.
Abstract: A method of creating a dynamically sharp location based filter includes: placing a moving object containing two or more antennas used for direction finding of a radiation source within a anechoic testing chamber; moving one or more radio transmitters within the anechoic chamber relative to a future spatial location, angle, and/or position of the moving object over a defined time; record an expected angle of arrival of one or more signals of the one or more radio transmitters with respect to the future spatial location, angle, and/or position of the moving object over the defined time; and program a filter within the moving object based on the recorded expected angle of arrival of the one or more signals.
Abstract: A distance measuring device includes one or more processors configured to: detect a wave formed by synthesizing a frequency-swept electromagnetic wave transmitted to an object with a wave reflected on the object; measure, based on the synthesized wave, a distance to the object; calculate a displacement-caused inclination, caused by the displacement of the object, of a power spectrum of the synthesized wave; and measure the distance based on a signal in which the displacement-caused inclination has been removed from the power spectrum.