Capacitive measurement processing for mode changes

What is claimed is: 1. A processing system for hybrid detection comprising: a sensor module coupled to a plurality of sensor electrodes, and configured to: drive a first subset of the plurality of sensor electrodes with first transmitter signals, receive, corresponding to the first transmitter signals, first resulting signals from a second subset of the plurality of sensor electrodes, receive second resulting signals from the second subset while the second subset are driven with modulated signals; and a determination module configured to: determine a first plurality of profiles based on the second resulting signals, segment the first plurality of profiles into one dimensional intervals to obtain a plurality of segments; determine a plurality of regions of interest using the plurality of segments, determine a set of contiguous regions based on the first resulting signals, select, from the set of contiguous regions, a set of valid contiguous regions using the plurality of regions of interest, wherein the determination module is further configured to select the set of valid contiguous regions by: for each contiguous region in the set of contiguous regions, determining a peak amplitude for the contiguous region to obtain a plurality of peak amplitudes, the peak amplitude being determined from the plurality of mutual capacitive measurements, determining a threshold amplitude from the plurality of peak amplitudes, and removing each contiguous region from the set of contiguous regions when the peak amplitude for the contiguous region fails to comply with the threshold amplitude to obtain a set of remaining contiguous regions, the set of remaining contiguous regions comprising the set of valid contiguous regions, and report positional information for each contiguous region in the set of valid contiguous regions. 2. The processing system of claim 1 , wherein the determination module is further configured to: determine a presence of moisture prior to determining the set of valid contiguous regions. 3. The processing system of claim 1 , wherein reporting positional information comprises reporting positional information for at least two contiguous regions. 4. The processing system of claim 1 , wherein, after selecting, the set of valid contiguous regions comprises more than two contiguous regions, and wherein the set of valid contiguous regions is reduced to two contiguous regions prior to reporting positional information. 5. The processing system of claim 1 , wherein selecting the set of valid contiguous regions comprises: removing any contiguous regions from the set of contiguous regions lacking a pixel in at least one region of interest in the plurality of regions of interest. 6. The processing system of claim 1 , wherein selecting the set of valid contiguous regions comprises: for each region of interest in the plurality of regions of interest, determining a number of positive pixels for the region of interest, and removing the region of interest from the plurality of regions of interest when the number of positive pixels fails to comply with a threshold number to obtain a plurality of remaining regions of interest, and removing any contiguous regions from the set of contiguous regions lacking a pixel in at least one region of interest in the plurality of remaining regions of interest. 7. The processing system of claim 1 , wherein selecting the set of valid contiguous regions comprises: for each contiguous region in the set of remaining contiguous regions, determining a prominence of the contiguous region in a region of interest of the plurality of regions of interest, and removing the contiguous region from the set of remaining contiguous regions when the prominence of the contiguous region fails to comply with a threshold prominence to further obtain the set of remaining contiguous regions. 8. The processing system of claim 1 , wherein selecting the set of valid contiguous regions comprising merging contiguous regions coexisting in a same region of interest of the plurality of regions of interest. 9. A method for hybrid detection comprising: determining a first plurality of profiles based on a plurality of capacitive measurements; segmenting the first plurality of profiles into one dimensional intervals to obtain a plurality of segments; determining a plurality of regions of interest using the plurality of segments; determining a set of contiguous regions based on a plurality of mutual capacitive measurements; selecting, from the set of contiguous regions, a set of valid contiguous regions using the plurality of regions of interest, wherein selecting the set of valid contiguous regions comprises: for each contiguous region in the set of contiguous regions, determining a peak amplitude for the contiguous region to obtain a plurality of peak amplitudes, the peak amplitude being determined from the plurality of mutual capacitive measurements, determining a threshold amplitude from the plurality of peak amplitudes, and removing each contiguous region from the set of contiguous regions when the peak amplitude for the contiguous region fails to comply with the threshold amplitude to obtain a set of remaining contiguous regions, the set of remaining contiguous regions comprising the set of valid contiguous regions; and reporting positional information for each contiguous region in the set of valid contiguous regions. 10. The method of claim 9 , further comprising: determining a presence of moisture prior to determining the set of valid contiguous regions. 11. The method of claim 9 , wherein reporting positional information comprises reporting positional information for at least two contiguous regions. 12. The method of claim 9 , wherein, after selecting, the set of valid contiguous regions comprises more than two contiguous regions, and wherein the set of valid contiguous regions is reduced to two contiguous regions prior to reporting positional information. 13. The method of claim 9 , wherein selecting the set of valid contiguous regions comprises: removing any contiguous regions from the set of contiguous regions lacking a pixel in at least one region of interest in the plurality of regions of interest. 14. The method of claim 9 , wherein selecting the set of valid contiguous regions comprises: for each region of interest in the plurality of regions of interest, determining a number of positive pixels for the region of interest, and removing the region of interest from the plurality of regions of interest when the number of positive pixels fails to comply with a threshold number to obtain a plurality of remaining regions of interest, and removing any contiguous regions from the set of contiguous regions lacking a pixel in at least one region of interest in the plurality of remaining regions of interest. 15. The method of claim 9 , wherein selecting the set of valid contiguous regions comprises: for each contiguous region in the set of remaining contiguous regions, determining a prominence of the contiguous region in a region of interest of the plurality of regions of interest, and removing the contiguous region from the set of remaining contiguous regions when the prominence of the contiguous region fails to comply with a threshold prominence to further obtain the set of remaining contiguous regions. 16. The method of claim 9 , wherein selecting the set of valid contiguous regions comprising merging contiguous regions coexisting in a same region of interest of the plurality of regions of interest. 17. An input device for