Systems and methods for sorting and summing signals from an imaging detector

What is claimed is: 1. A system, comprising: a detector comprising multiple pixels, each of the pixels configured to detect events corresponding to energy received during an imaging process, wherein the detector generates event information for each event detected by each of the pixels; and a processing unit comprising a memory for storing the event information and an event processing module having a processor configured to: read the event information for each event detected by each of the pixels of the detector during the imaging process in order of receipt from the detector; compare an energy level value in the event information for each event to a predetermined range of energy level values; count the event when the energy level value in the event information is within the predetermined range of energy level values; read, for each event having an energy level value below the first predetermined range of energy level values, the energy level value for at least one next consecutive event in the order received from the detector, and determine a combined energy level value of the event and the at least one next consecutive event; determine whether a pixel location for the event is near a pixel location for the at least one next consecutive event; count the combined energy level value as a single event when the combined energy level value is within a combined predetermined range of energy level values and when the pixel location of the event is near the pixel location for the at least one next consecutive event; and assign at least one pixel location for the single event. 2. The system of claim 1 , wherein the event processing module is configured to reconstruct an image using each of the counted events. 3. The system of claim 1 , wherein the event processing module is configured to process the event information substantially in real time upon receipt of the event information for each event detected by each of the pixels in the detector. 4. The system of claim 1 , wherein the predetermined range of energy level values is different from the combined predetermined range of energy level values. 5. The system of claim 1 , wherein the event processing module is configured to assign the at least one pixel location for the single event to one of a pixel location of the event or a pixel location of one of the at one next consecutive event. 6. The system of claim 1 , wherein the event processing module is configured to assign the at least one pixel location for the single event to each of a pixel location of the event and a pixel location of one of the at least one next consecutive event, and wherein the event processing module is further configured to divide the combined energy level value of the single event into two energy level values and assign one energy level value to the pixel location of the event and another energy level value to the pixel location of the at least one next consecutive event. 7. The system of claim 6 , wherein the two energy level values each represent half of one of the combined energy level value. 8. The system of claim 1 , wherein the event processing module is configured to generate a virtual pixel location for the single event; and wherein the assigning step comprises assigning the single event to the virtual pixel location. 9. The system of claim 1 , wherein the imaging system is a nuclear medicine imaging system. 10. A method, comprising: reading event information for each event detected by each pixel of a multi-pixel detector during an imaging process in order of receipt from the detector; comparing an energy level value of an event in the event information for each event to a predetermined range of energy level values; counting the event when the energy level value in the event information is within the predetermined range of energy level values; reading, for each event having an energy level value below the predetermined range of energy level values, the energy level value for at least one next consecutive event in the order of event information received from the detector, and determine a combined energy level value of the event and the at least one next consecutive event; determining whether a pixel location for the event is near a pixel location for the at least one next consecutive event; counting the combined energy level value as a single event when the combined energy level value is within a combined predetermined range of energy level values and when the pixel location of the event is near the pixel location for the at least one next consecutive event; and assigning at least one pixel location for the single event. 11. The method of claim 10 , further comprising generating an image using each of the counted events. 12. The method of claim 10 , wherein processing the event information is performed substantially in real time upon receipt of the event information for each event detected by each of the pixels in the detector. 13. The method of claim 10 , wherein the predetermined range of energy level values is different from the combined predetermined range of energy level values. 14. The method of claim 10 , wherein the assigning step comprises assigning the at least one pixel location for the single event to one of a pixel location of the event or a pixel location of the at least one next consecutive event. 15. The method of claim 10 , wherein the assigning step comprises assigning the at least one pixel location for the single event to each of a pixel location of the event and a pixel location of the at least one next consecutive event, and wherein the assigning step further comprises dividing the combined energy level value into two energy level values and assigning one energy level value to the pixel location of the event and another energy level value to the pixel location of the at least one next consecutive event. 16. The method of claim 10 , further comprising generating a virtual pixel location for the single event, wherein the assigning step comprises assigning the single event to the virtual pixel location. 17. A method, comprising: reading event information for each event detected by each pixel of a multi-pixel detector during an imaging process in order of receipt from the detector; sorting events based on the event information to identify events to be counted for image reconstruction and events having an energy level value below a predetermined range of energy level values; combining the energy level values of events having an energy level below the first predetermined range of energy level values and having pixel locations that are near each other; comparing each of the combined energy level values to a combined predetermined range of energy level values and counting the combined energy level value as a single event when the combined energy level value is within the combined predetermined range of energy level values; and assigning at least one pixel location to each of the single events. 18. The method of claim 17 , further comprising reconstructing an image using each of the counted events. 19. A system, comprising: a camera having a detector comprising multiple pixels, each of the pixels configured to detect events corresponding to energy received during an imaging process, wherein the detector generates event information for each event detected by each of the pixels; and a processing unit comprising a memory to store the event information and an event processing module having a processor configured to: read event information for each event detected by each pixel of a mult