Baseline update for input object detection

What is claimed is: 1. A processing system comprising: a sensor circuitry coupled to a plurality of sensor electrodes, and configured to: drive the plurality of sensor electrodes, and acquire, from the plurality of sensor electrodes and based on driving the plurality of sensor electrodes, a plurality of resulting signals of a sensing region; and a processing circuitry configured to: determine a first plurality of raw measurements from the plurality of resulting signals, obtain a masked region of the sensing region based on the first plurality of raw measurements, by: comparing the first plurality of raw measurements with a second plurality of raw measurements to obtain a comparison result, the first plurality of raw measurements obtained for a first sensing frame and the second plurality of raw measurements obtained for a second sensing frame, the second sensing frame preceding the first sensing frame, and adding a first mask location to the masked region based on the comparison result indicating that at least one of the first plurality of raw measurements at the first mask location is different from at least one of the second plurality of raw measurements at the first mask location, generate a baseline update value using a subset of the first plurality of raw measurements corresponding to an unmasked region of the sensing region, the unmasked region and the masked region being concurrently existing locations in the sensing region, update a baseline value of the masked region using the baseline update value to obtain an updated baseline, and detect a location of an input object using the updated baseline. 2. The processing system of claim 1 , wherein the determination circuitry is further configured to: update at least one baseline value of an unmasked region according to a current baseline and the first plurality of raw measurements to create the updated baseline. 3. The processing system of claim 1 , wherein the determination circuitry is further configured to: determine a second plurality of raw measurements from the plurality of resulting signals, the plurality of resulting signals spanning a least two sensing frames, determine, for each corresponding baseline value of at least a subset of baseline values in the updated baseline, a delta value between a raw measurement value in the second plurality of raw measurement values and the corresponding baseline value to obtain a plurality of delta values, and detect the location of the input object based on the plurality of delta values satisfying a threshold. 4. The processing system of claim 1 , wherein the determination module is further configured to: determine whether a transcapacitive image obtained from the first plurality of raw measurements indicates a location of the input object, and add the location of the input object to the masked region as a second mask location. 5. The processing system of claim 1 , wherein the determination module is further configured to: generate a plurality of delta measurements based on the first plurality of raw measurements and a current baseline, and add a second mask location to the masked region based on the plurality of delta measurements. 6. The processing system of claim 1 , wherein the determination module is further configured to: obtain a subset of the plurality of raw measurements, the subset of the plurality of raw measurements corresponding to the unmasked region, and for each pixel in the unmasked region, shift a corresponding baseline value for the pixel by a shift amount determined from a corresponding raw measurement and a current baseline value to obtain an updated baseline value in the updated baseline. 7. The processing system of claim 1 , wherein the determination module is further configured to: determine a shift amount for each of a plurality of pixels in the unmasked region to obtain a plurality of shift amounts, and combine the plurality of shift amounts into the baseline update value. 8. The processing system of claim 1 , wherein combining the plurality of shift amounts is averaging the plurality of shift amounts. 9. A method comprising: determining a first plurality of raw measurements from a plurality of resulting signals acquired for a sensing region; obtaining a masked region of the sensing region based on the first plurality of raw measurements, by: comparing the first plurality of raw measurements with a second plurality of raw measurements to obtain a comparison result, the first plurality of raw measurements obtained for a first sensing frame and the second plurality of raw measurements obtained for a second sensing frame, the second sensing frame preceding the first sensing frame, and adding a first mask location to the masked region based on the comparison result indicating that at least one of the first plurality of raw measurements at the first mask location is different from at least one of the second plurality of raw measurements at the first mask location; generating a baseline update value using a subset of the first plurality of raw measurements corresponding to an unmasked region of the sensing region, the unmasked region and the masked region are concurrently existing locations in the sensing region; updating a baseline value of the masked region using the baseline update value to obtain an updated baseline; and detecting a location of an input object using the updated baseline. 10. The method of claim 9 , further comprising: determining whether a transcapacitive image obtained from the first plurality of raw measurements indicates a location of the input object, and add the location of the input object to the masked region as a second mask location. 11. The method of claim 9 , further comprising: generating a plurality of delta measurements based on the first plurality of raw measurements and a current baseline, and adding a second mask location to the masked region based on the plurality of delta measurements. 12. The method of claim 9 , further comprising: determining a shift amount for each of a plurality of pixels in the unmasked region to obtain a plurality of shift amounts, and combining the plurality of shift amounts into the baseline update value. 13. An input device comprising: a plurality of sensor electrodes; and a processing system operatively connected to the sensor electrodes and configured to: drive the plurality of sensor electrodes, acquire, from the plurality of sensor electrodes and based on driving the plurality of sensor electrodes, a plurality of resulting signals of a sensing region, determine a first plurality of raw measurements from the plurality of resulting signals, obtain a masked region of the sensing region based on the first plurality of raw measurements, by: compare the first plurality of raw measurements with a second plurality of raw measurements to obtain a comparison result, the first plurality of raw measurements obtained for a first sensing frame and the second plurality of raw measurements obtained for a second sensing frame, the second sensing frame preceding the first sensing frame, and add a first mask location to the masked region based on the comparison result indicating that at least one of the first plurality of raw measurements at the first mask location is different from at least one of the second plurality of raw measurements at the first mask location, generate a baseline update value using a subset of the first plurality of raw measurements corresponding to an unmasked region of the sensing region, the unmasked region and the masked region are concurrently existing locations in the sensing region,