Adaptive radar for near-far target identification

What is claimed is: 1. An adaptive radar for near-far target identification, comprising: an antenna module configured to radiate a transmission signal with an analog beamforming antenna in a plurality of directions using one or more phase control elements in a first radar scan and to generate radar data capturing a surrounding environment of a vehicle's path; a data pre-preprocessing module configured to receive the radar data and determine adjustments to at least one transceiver parameter in the antenna module for a second radar scan subsequent to the first radar scan based at least on range to regenerate radar data capturing the surrounding environment; and a perception module configured to detect and identify targets in the surrounding environment from the radar data of the first radar scan and the regenerated radar data of the second radar scan, wherein the perception module is further configured to: generate a first Range-Doppler (“RD”) map image corresponding to the first radar scan, generate a second RD map image corresponding to the second radar scan, adaptively scale the second RD map image with respect to the first RD map image, stitch the first RD map image with the adaptively scaled second RD map image, generate a composite image that comprises the stitched first and adaptively scaled second RD map images, and focus at least one radar scan on a specific area of a field of view upon identifying targets in the vehicle's path. 2. The adaptive radar of claim 1 , wherein the at least one transceiver parameter comprises a transmit power in a transmit antenna in the antenna module, wherein the perception module further comprises: a target identification and decision module adapted to: receive encoded data, detect and identify the targets, and provide control actions to the adaptive radar based on a detection of the identified targets; and a target list and occupancy map adapted to: store information on the identified targets and track their movement over time. 3. The adaptive radar of claim 1 , wherein the at least one transceiver parameter comprises a receive gain in a receive antenna in the antenna module, and wherein the perception module provides control instructions to adjust the receive gain for the second scan. 4. The adaptive radar of claim 1 , wherein the data pre-processing module is further configured to: process the radar data from the antenna module; determine a near-far adjustment to the at least one transceiver parameter; encode the processed radar data with the near-far adjustment; and send an indication of the encoded radar data to the antenna module to perform a subsequent radar scan with the near-far adjustment. 5. The adaptive radar of claim 1 , wherein the data pre-processing module is further configured to determine whether to adjust a transmit power or a receive gain in a transceiver module in the antenna module for a subsequent radar scan. 6. The adaptive radar of claim 1 , wherein the perception module is further configured to: iteratively generate an updated composite image by further stitching one or more additional individual images of the targets with the composite image at near and far ranges, and detect and identify the targets based on the iteratively generated updated composite image, wherein the adaptive radar is further configured to use the iteratively generated updated composite image from the field of view to identify a specific type of target based on a previous detection. 7. A method of near-far target identification in a radar, the method comprising: setting one or more parameters associated with a transceiver for target detection at a first range; conducting a first scan of an area associated a vehicle's path; generating, based on the first scan, a first Range-Doppler (“RD”) map image corresponding to first received target reflections; processing the first RD map image with a data pre-processing module coupled to the transceiver; adjusting the one or more parameters associated with the transceiver for target detection at a second range different from the first range; conducting a second scan; generating, based on the second scan, a second RD map image corresponding to second received target reflections; adaptively scaling the second RD map image with respect to the first RD map image; stitching the first RD map image with the adaptively scaled second RD map image; generating a composite RD map image that comprises the stitched first and adaptively scaled second RD map images; detecting and identifying targets using the composite RD map image; and focusing at least one radar scan on a specific area of a field of view upon identifying targets in the vehicle's path. 8. The method of claim 7 , further comprising: determining whether an adjustment to the one or more parameters is required based on the processed first RD map image; and sending an indication to the transceiver with the data pre-processing module to adjust one or more of a transmit power level or a receive gain level for the second scan when the adjustment to the one or more parameters is required. 9. The method of claim 7 , wherein setting the one or more parameters associated with the transceiver comprises: setting a transmitter parameter to a predetermined transmit power level in a transmitter path of the transceiver; and setting a receiver parameter to a predetermined receive gain level in a receiver path of the transceiver. 10. The method of claim 9 , wherein conducting the first scan comprises transmitting first radio frequency (RF) beams at the predetermined transmit power level based at least on a control signal from an antenna controller coupled to the transceiver. 11. The method of claim 10 , further comprising obtaining first received target reflections from the first RF beams transmitted at the predetermined transmit power level. 12. The method of claim 10 , wherein adjusting the one or more parameters associated with the transceiver comprises: adjusting a transmitter power parameter from the predetermined transmit power level to an adjusted transmit power level in a transmitter path of the transceiver; and transmitting second RF beams at the adjusted transmit power level. 13. The method of claim 9 , wherein adjusting the one or more parameters associated with the transceiver comprises: adjusting a receiver gain parameter from the predetermined receive gain level to an adjusted receive gain level in a receiver path of the transceiver; and obtaining second received target reflections at the adjusted receive gain level from the first RF beams transmitted at the predetermined transmit power level. 14. The method of claim 9 , further comprising: receiving RF return beams with receiver antennas at the predetermined receive gain level based at least on the control signal from an antenna controller coupled to the transceiver; generating the first RD map image from radar data associated with the received RF return beams; processing the first RD map image with the data pre-processing module; and determining whether adjustment to a receiver gain in a receive path of the transceiver is required based at least on the processed first RD map image. 15. The method of claim 14 , further comprising: sending an indication to the transceiver with the data pre-processing module to adjust the receiver gain for a subsequent scan when adjustment to the receiver gain is required; adjusting the receiver gain based at least on processing results of the first RD map image; and conducting a subsequent scan with the adjusted receiver gain.