Multi-static radar detection system for a vehicle

What is claimed is: 1. A multi-static radar detection system for a vehicle, the multi-static radar detection system comprising: one or more receivers for collecting multi-carrier modulation signals emitted by one or more transmitters that are positioned at base stations located in an environment surrounding the vehicle, wherein the multi-carrier modulation signals include one or more types of reference signals; and one or more controllers in electronic communication with the one or more receivers, wherein the one or more controllers execute instructions to: collect, by the one or more receivers, a multi-carrier modulation signal emitted by the one or more transmitters, wherein a time-frequency grid representing the multi-carrier modulation signal is divided into a plurality of resource elements; calculate a time-varying frequency response for each resource element that is part of the time-frequency grid that contains a corresponding reference signal based on a time-frequency analysis; perform non-uniform interpolation on at least a portion of unoccupied resource elements that are part of the time-frequency grid to determine a corresponding transfer function, wherein an interpolated time-frequency grid includes the time-varying frequency response and the corresponding transfer function for the unoccupied resource elements, wherein performing non-uniform interpolation on at least the portion of unoccupied resource elements that are part of the time-frequency grid comprises: performing one-dimensional non-uniform interpolation only for unoccupied resource elements located at the same time interval as a reference signal to determine the corresponding transfer function for the unoccupied resource elements that are part of the time-frequency grid; determine a Doppler shift and a time delay of a respective object located within the environment surrounding the vehicle based on the interpolated time-frequency grid; transform a value for the Doppler shift into a velocity value and a value for the time delay into a range value; cross-correlate the time-varying frequency response for each resource element containing the corresponding reference signal and the corresponding transfer function for the unoccupied resource elements of the interpolated time-frequency grid with a corresponding Doppler shift and a corresponding time delay to determine a correlation sum; and fill a two-dimensional ambiguity grid with the correlation sum determined for each grid element of the two-dimensional ambiguity grid. 2. The multi-static radar detection system of claim 1 , wherein the one or more controllers determine a channel response function that includes the Doppler shift and the time delay of the respective object. 3. The multi-static radar detection system of claim 1 , wherein performing non-uniform interpolation on at least the portion of unoccupied resource elements that are part of the time-frequency grid comprises: performing two-dimensional non-uniform interpolation for each unoccupied resource element of the time-frequency grid to determine the corresponding transfer function for each unoccupied resource element that is part of the time-frequency grid. 4. The multi-static radar detection system of claim 3 , wherein the one or more controllers execute instructions to: convert the time-varying frequency response and the corresponding transfer function for each resource element that is part of the interpolated time-frequency grid into corresponding Doppler spreading function values; and compare an absolute squared value of each of the corresponding Doppler spreading function values with a threshold power value for each resource element of the interpolated time-frequency grid. 5. The multi-static radar detection system of claim 4 , wherein the one or more controllers execute instructions to: in response to determining the absolute squared value for a Doppler spreading function values shift corresponding to a specific resource element in the interpolated time-frequency grid is equal to or greater than the threshold power value, transform the value for the Doppler shift into a velocity value and transform the value for the time delay into a range value. 6. The multi-static radar detection system of claim 4 , wherein the threshold power value is indicative of the multi-carrier modulation signals reflecting off the respective object located in the environment surrounding the vehicle. 7. The multi-static radar detection system of claim 1 , wherein the one or more controllers execute instructions to: select a maximum correlation sum from the two-dimensional ambiguity grid, wherein the maximum correlation sum includes a peak value for the Doppler shift and a peak value for the time delay; determine a reconstructed time-varying frequency response based on the peak value of the Doppler shift and the peak value of the time delay for each grid element corresponding to a reference signal of the interpolated time-frequency grid; determine a difference between the reconstructed time-varying frequency response and the time-varying frequency response for a specific resource element of the interpolated time-frequency grid; and compare the difference with a threshold power value. 8. The multi-static radar detection system of claim 7 , wherein the one or more controllers execute instructions to: In response to determining the difference between the reconstructed time-varying frequency response and the time-varying frequency responses is greater than the threshold power value, update the corresponding resource element of the interpolated time-frequency grid with the difference; and repeat selecting the maximum correlation sum from the two-dimensional ambiguity grid until the difference between the reconstructed time-varying frequency response and the time-varying frequency responses is less than the threshold power value. 9. The multi-static radar detection system of claim 1 , wherein the multi-carrier modulation signals include two or more types of reference signals. 10. The multi-static radar detection system of claim 9 , wherein the two or more types of reference signals include channel state information reference signals (CSI-RS), positioning reference signals (P-RS), and demodulation reference signals (DM-RS). 11. The multi-static radar detection system of claim 1 , wherein the multi-carrier modulation signals are compliant with a wireless data standard. 12. The multi-static radar detection system of claim 1 , wherein a receiver increases an active bandwidth part (BWP) by requesting dummy data having an elevated urgency from one of the base stations. 13. The multi-static radar detection system of claim 1 , wherein the time-varying frequency response is used as basis for interpolation for any resource element of the time-frequency grid for which the one or more receivers have knowledge of the multi-carrier modulation signal transmitted by one or more transmitters. 14. A vehicle, comprising: a multi-static radar detection system, comprising: one or more receivers collecting multi-carrier modulation signals emitted by one or more transmitters that are positioned at base stations located in an environment surrounding the vehicle, wherein the multi-carrier modulation signals include one or more types of reference signals; and one or more controllers in electronic communication with the one or more receivers, wherein the one or more controllers execute instructions to: collect, by the one or more receivers, a multi-carrier modulation signal emitted by the one or more transmitters, wherein a time-frequency grid representing the multi-carrier modulation signal