MIMO radar system

What is claimed is: 1. A MIMO radar system, comprising: a transmitter array which includes multiple transmitting antennas situated at a distance from one another in an angle resolution direction; a receiver array which includes multiple receiving antennas situated at a distance from one another in the angle resolution direction, wherein antenna distances in one of the transmitter and receiver arrays being below a Nyquist limit for unambiguous angle measurements, and antenna distances in a combination of the transmitter and receiver arrays being above the Nyquist limit; and a control and evaluation unit configured to: transmit via the transmitter array a sequence of transmit signals, which are subdivided into multiple measuring blocks, in each of multiple repeatedly implemented measuring cycles, a uniform multiplex scheme being applied within each respective measuring block of the measuring blocks and the multiplex schemes varying from measuring block to measuring block; carry out a Doppler estimation and an angle estimation for signals received in each of the measuring blocks based on the receiver array; carry out a Doppler correction of the received signals based on the Doppler estimations; demultiplex the Doppler-corrected received signals; and refine the Doppler estimations and the angle estimations based on the signals received in the measuring blocks of the measuring cycle while taking phases of the signals transmitted by the transmitting antennas into account. 2. The radar system as recited in claim 1 , wherein the control and evaluation unit is further configured to: carry out separate distance measurements for a located object in each of the measuring cycles according to the measuring blocks; and subject distance data obtained in the measuring blocks to a velocity-dependent coordinate transformation before the Doppler correction, to compensate for relative movements of the objects in an elapsed time between the measuring blocks. 3. The radar system as recited in claim 1 , wherein the multiplex schemes include a code multiplex for at least some of the transmitting antennas. 4. The radar system as recited in claim 1 , wherein the multiplex schemes include a time multiplex for at least some of the transmitting antennas. 5. The radar system as recited in claim 1 , wherein the transmit signals include, within each of the measuring blocks, a sequence of frequency ramps whose ramp slope for a distance measurement is configured according to the FMCW principle. 6. The radar system as recited in claim 1 , wherein the transmitter array is configured for unambiguous angle measurements in at least one angle dimension and the receiver array is configured for ambiguous higher-resolution angle measurements. 7. The radar system as recited in claim 1 , wherein the receiver array is configured for unambiguous angle measurements in at least one angle dimension and the transmitter array is configured for ambiguous higher-resolution angle measurements. 8. The radar system as recited in claim 1 , wherein the receiving antennas and/or the transmitting antennas are situated equidistantly in the angle resolution direction. 9. The radar system as recited in claim 1 , wherein the angle estimation takes place based on the receiver array separately from an angle estimation based on the transmitter array. 10. The radar system as recited in claim 9 , wherein the receiving antennas are situated equidistantly in the angle resolution direction and the angle estimation takes place based on the receiver array via a fast Fourier transform.