System and method for fluid delivery using pressure-based motor control for fluid injector devices

The invention claimed is: 1. A fluid injector system configured for use in administering at least one fluid to a patient, the fluid injector system comprising: a memory for storing therein a programmed flow rate to be delivered during execution of a fluid delivery procedure using a fluid injector and a maximum allowable deviation in the programmed flow rate; at least one sensor configured for measuring a pressure of the at least one fluid, wherein the pressure is generated by at least one drive component of the fluid injector during execution of the fluid delivery procedure; and a control device operatively associated with the at least one drive component of the fluid injector, the control device including at least one processor programmed or configured to perform an operation comprising: determining an actual flow rate during a specified time interval of the fluid delivery procedure based on a change in pressure measured by the at least one sensor over the specified time interval; determining a deviation of the actual flow rate from the programmed flow rate over the specified time interval; and calculating a new programmed flow rate for a subsequent time interval after the specified time interval based on the programmed flow rate and the deviation of the actual flow rate from the programmed flow rate over the specified time interval. 2. The fluid injector system of claim 1 , wherein the control device including the at least one processor is further programmed or configured to perform an operation comprising comparing the maximum allowable deviation to the deviation of the actual flow rate from the programmed flow rate over the specified time interval to determine a flow rate correction, and calculating the new programmed flow rate for the subsequent time interval based on the programmed flow rate and the flow rate correction. 3. The fluid injector system of claim 2 , wherein the flow rate correction is equal to the maximum allowable deviation if the determined deviation of the actual flow rate from the programmed flow rate is greater than the maximum allowable deviation. 4. The fluid injector system of claim 3 , wherein a difference between the deviation of the actual flow rate from the programmed flow rate and the maximum allowable deviation is stored as a buffer deviation for use in determining a new flow rate correction in one or more subsequent time intervals after the second time interval. 5. The fluid injector system of claim 2 , wherein the flow rate correction is equal to the actual flow rate if the deviation of the actual flow rate from the programmed flow rate is less than or equal to the maximum allowable deviation. 6. The fluid injector system of claim 2 , wherein the control device is configured to use a machine learning model designed to receive, as an input, data associated with the fluid injection procedure, and provide, as an output, instructions to drive the one or more drive components to deliver a desired volume of fluid at the programmed flow rate. 7. The fluid injector system of claim 1 , wherein the operation to determine the actual flow rate during the specified time interval comprises measuring a first pressure using the at least one sensor at a beginning of the specified time interval and measuring a second pressure using the at least one sensor at an end of the specified time interval and converting the first pressure and the second pressure to a change in pressure corresponding to the actual flow rate during the specified time interval. 8. The fluid injector system of claim 7 , wherein the change in pressure is based on a difference between the second pressure and the first pressure, and at least one scaling factor that is determined by one or more features of the fluid injector. 9. The fluid injector system of claim 2 , wherein the flow rate correction for each subsequent time interval is based on a difference between the maximum allowable deviation and the deviation of the actual flow rate from the new programmed flow rate over each subsequent time interval, and a buffer deviation from at least one previous time interval. 10. The fluid injector system of claim 1 , wherein the operation performed by the control device further comprises the operation to repeat the steps of the operation for each subsequent time interval in the fluid injection procedure, wherein the new programmed flow rate is used as the programmed flow rate. 11. The fluid injector system of claim 1 , wherein the operation performed by the control device further comprises delivering the fluid at the new programmed flow rate in the subsequent time interval. 12. A computer-implemented method for monitoring performance of a fluid injector system configured for use in administering at least one fluid to a patient, the method comprising: storing, in a memory device, a programmed flow rate for the fluid to be delivered and a maximum allowable deviation in the programmed flow rate during a fluid delivery procedure using a fluid injector; measuring, using at least one sensor, a pressure of the at least one fluid generated by at least one drive component of the fluid injector during execution of the fluid delivery procedure; determining, with a control device comprising at least one processor, an actual flow rate during a specified time interval of the fluid delivery procedure based on a change in pressure measured by the at least one sensor over the specified time interval; determining, with the control device, a deviation of the actual flow rate from the programmed flow rate over the specified time interval; and calculating, with the control device, a new programmed flow rate for a subsequent time interval after the specified time interval based on the programmed flow rate and the deviation of the actual flow rate from the programmed flow rate over the specified time interval. 13. The computer-implemented method of claim 12 , further comprising comparing, with the control device, the maximum allowable deviation to the deviation of the actual flow rate from the programmed flow rate over the specified time interval to determine a flow rate correction, and calculating the new programmed flow rate for the subsequent time interval based on the programmed flow rate and the flow rate correction. 14. The computer-implemented method of claim 13 , wherein the flow rate correction is equal to the maximum allowable deviation if the determined deviation of the actual flow rate from the programmed flow rate is greater than the maximum allowable deviation. 15. The computer-implemented method of claim 14 , wherein a difference between the deviation of the actual flow rate from the programmed flow rate and the maximum allowable deviation is stored as a buffer deviation for use in determining a new flow rate correction in one or more subsequent time intervals after the second time interval. 16. The computer-implemented method of claim 13 , wherein the flow rate correction is equal to the actual flow rate if the deviation of the actual flow rate from the programmed flow rate is less than or equal to the maximum allowable deviation. 17. The computer-implemented method of claim 13 , wherein the control device is configured to use a machine learning model designed to receive, as an input, data associated with the fluid injection procedure, and provide, as an output, instructions to drive the one or more drive components to deliver a desired volume of fluid at the programmed flow rate. 18. The computer-implemented method of claim 12 , wherein determining the actual flow rate during the specif