GNSS multipath mitigation using slope-based code discriminator

What is claimed is: 1. A global navigation satellite system (GNSS) receiver comprising: an antenna for receiving wireless signals transmitted by a GNSS satellite; a radio frequency (RF) front end coupled to the antenna and configured to generate a plurality of samples related to the wireless signals; a correlator coupled to the RF front end, the correlator configured to perform operations including: receiving the plurality of samples from the RF front end; performing a first correlation on the plurality of samples with a first local code using a first multiplier to generate a first correlation result; performing a second correlation on the plurality of samples with a second local code using a second multiplier to generate a second correlation result; and performing a third correlation on the plurality of samples with a third local code using a third multiplier to generate a third correlation result, wherein the first local code, the second local code, and the third local code are shifted in time or distance with respect to each other; and a processor coupled to the correlator, the processor configured to perform actions including: defining a first slope as a first difference between the first correlation result and the second correlation result; defining a second slope as a second difference between the second correlation result and the third correlation result; scaling the second slope by a weighting factor greater than zero and less than one; and defining a code discriminator as a sum of the first slope and the scaled second slope. 2. The GNSS receiver of claim 1 , wherein the actions further include: determining that the code discriminator is nonzero; generating a correction amount for shifting each of the first local code, the second local code, and the third local code to drive the code discriminator toward zero; and sending the correction amount to the correlator. 3. The GNSS receiver of claim 2 , wherein the operations further include: receiving the correction amount from the processor; shifting each of the first local code, the second local code, and the third local code by the correction amount; performing, for a second time, the first correlation, the second correlation, and the third correlation; and causing an update of the code discriminator. 4. The GNSS receiver of claim 1 , wherein the actions further include: determining that the code discriminator is approximately zero; and generating a distance estimate between the GNSS receiver and the GNSS satellite based on one or more of the first local code, the second local code, and the third local code. 5. A correlator for processing a plurality of samples related to wireless signals received from a global navigation satellite system (GNSS) satellite, the correlator configured to perform operations including: receiving the plurality of samples from a radio frequency (RF) front end coupled to an antenna, the RF front end configured to generate the plurality of samples related to the wireless signals; performing a first correlation on the plurality of samples with a first local code using a first multiplier to generate a first correlation result; performing a second correlation on the plurality of samples with a second local code using a second multiplier to generate a second correlation result; and performing a third correlation on the plurality of samples with a third local code using a third multiplier to generate a third correlation result, wherein the first local code, the second local code, and the third local code are shifted in time or distance with respect to each other; wherein a first slope is defined as a first difference between the first correlation result and the second correlation result; wherein a second slope is defined as a second difference between the second correlation result and the third correlation result; wherein the second slope is scaled by a weighting factor greater than zero and less than one; wherein a code discriminator is defined as a sum of the first slope and the scaled second slope. 6. The correlator of claim 5 , wherein: the code discriminator is determined to be nonzero; and a correction amount for shifting each of the first local code, the second local code, and the third local code to drive the code discriminator toward zero is generated. 7. The correlator of claim 6 , wherein the operations further include: shifting each of the first local code, the second local code, and the third local code by the correction amount; performing, for a second time, the first correlation, the second correlation, and the third correlation; and causing an update of the code discriminator. 8. The correlator of claim 5 , wherein: the code discriminator is determined to be approximately zero; and a distance estimate between a GNSS receiver and the GNSS satellite based on one or more of the first local code, the second local code, and the third local code is generated. 9. A method for processing samples related to wireless signals received from a global navigation satellite system (GNSS) satellite, the method comprising: receiving a plurality of samples from a radio frequency (RF) front end coupled to an antenna, the RF front end configured to generate the plurality of samples related to the wireless signals; performing a first correlation on the plurality of samples with a first local code to generate a first correlation result; performing a second correlation on the plurality of samples with a second local code to generate a second correlation result; performing a third correlation on the plurality of samples with a third local code to generate a third correlation result, wherein the first local code, the second local code, and the third local code are shifted in time or distance with respect to each other; defining a first slope as a first difference between the first correlation result and the second correlation result; defining a second slope as a second difference between the second correlation result and the third correlation result; scaling the second slope by a weighting factor greater than zero and less than one; and defining a code discriminator as a sum of the first slope and the scaled second slope. 10. The method of claim 9 , further comprising: determining that the code discriminator is nonzero; and generating a correction amount for shifting each of the first local code, the second local code, and the third local code to drive the code discriminator toward zero. 11. The method of claim 10 , further comprising: shifting each of the first local code, the second local code, and the third local code by the correction amount; performing, for a second time, the first correlation, the second correlation, and the third correlation; and causing an update of the code discriminator. 12. The method of claim 9 , further comprising: determining that the code discriminator is approximately zero; and generating a distance estimate between a GNSS receiver and the GNSS satellite based on one or more of the first local code, the second local code, and the third local code.