Fluid delivery

What is claimed is: 1 . A method of fluid delivery implemented in a flow control apparatus comprising tubing, a container of fluid in fluid communication with the tubing, and a pump motor operative to create a suction force on the fluid through the tubing to deliver a dose of the fluid from the container over a time interval, the dose comprising aliquots of the fluid deliverable over subintervals of the time interval, the method comprising: operating, based on an objective volume of an aliquot to be delivered during a subinterval, the pump motor for a first motor duration at a beginning of the subinterval to deliver less than the objective volume of the aliquot; sensing a change in a position of a first structure of the container relative to the position of a second structure of the container over the first motor duration; estimating a volume of fluid delivered over the first motor duration based on the sensed change in position; determining a second motor duration to deliver a remainder of the objective volume of the aliquot, the second motor duration ending no later than the end of the subinterval and being determined based on the objective volume of the aliquot and the estimated volume of the aliquot; and operating the pump motor for the second motor duration targeting delivery of the remainder of the aliquot. 2 . The method of claim 1 , wherein the container is a syringe, the first structure is a syringe plunger, and the second structure is a syringe barrel. 3 . The method of claim 1 , wherein a pump of the pump motor is a peristaltic pump. 4 . The method of claim 1 , wherein estimating the volume comprises adjusting the estimated volume based on one or more of a size of the container, a flow rate of the fluid while the pump motor is operating, and the fluid. 5 . The method of claim 4 , wherein the adjusting is based on actual delivered volume across a population of containers of similar one or more or size of the container, flow rate of the fluid while the pump motor is operating, and the fluid. 6 . The method of claim 1 , wherein the objective volume is a function of one or more of i) an objective delivery rate, and ii) an objective total amount of the fluid and an objective total time interval of the delivery. 7 . The method of claim 1 , wherein the objective volume is based on data entry via a user interface of the flow control apparatus. 8 . The method of claim 1 , wherein the second motor duration is based on a rate of volume of fluid delivered over time as determined from a cumulative estimated actual volume of fluid delivered for the dose and the cumulative motor duration for the dose. 9 . The method of claim 1 , wherein sensing a change of position of the first structure of the container relative to the position of a second structure of the container is performed using a linear potentiometer. 10 . The method of claim 1 , further comprising, for subsequent aliquots: operating, based on a second objective volume of an aliquot to be delivered during a subsequent subinterval, the pump motor for a third motor duration at the beginning of the subsequent subinterval to deliver less than the second objective volume of the aliquot; sensing a second change in a position of a first structure of the container relative to the position of a second structure of the container; estimating a volume of fluid delivered over the third motor duration based on the sensed second change in position; determining a fourth motor duration to deliver a remainder of the second objective volume of the aliquot, the fourth motor duration ending no later than the end of the subsequent subinterval and determined based on a difference between a cumulative objective volume of the aliquot at the end of the third motor duration and a cumulative estimated volume of the aliquot at the end of the third motor duration; and operating the pump motor for the fourth motor duration targeting delivery of the remainder of the subsequent aliquot. 11 . A flow control apparatus for fluid delivery comprising: a processor; memory in communication with the processor and storing instructions; tubing; a container in fluid communication with the tubing and adapted to store a fluid; and a pump motor operative, under control of the instructions executed by the processor, to create a suction force on a fluid in the container through the tubing to deliver a dose of the fluid from the container over a time interval, the dose comprising aliquots of the fluid deliverable over subintervals of the time interval, wherein the instructions, when executed by the processor are operative to cause the flow control apparatus to: operate, based on an objective volume of an aliquot to be delivered during a subinterval, the pump motor for a first motor duration at a beginning of the subinterval to deliver less than the objective volume of the aliquot; sense a change in a position of a first structure of the container relative to the position of a second structure of the container over the first motor duration; estimate a volume of fluid delivered over the first motor duration based on the sensed change in position; determine a second motor duration to deliver a remainder of the objective volume of the aliquot, the second motor duration ending no later than the end of the subinterval and being determined based on a difference between the objective volume of the aliquot and the estimated volume of the aliquot; and operate the pump motor for the second motor duration targeting delivery of the remainder of the aliquot. 12 . The apparatus of claim 11 , wherein the container is a syringe, the first structure is a syringe plunger, and the second structure is a syringe barrel. 13 . The apparatus of claim 11 , wherein a pump of the pump motor is a peristaltic pump. 14 . The apparatus of claim 11 , wherein the objective volume is a function of one or more of i) an objective delivery rate, and ii) an objective total amount of the fluid and an objective total time interval of the delivery. 15 . The apparatus of claim 11 , wherein the objective volume is based on data entry via a user interface of the apparatus. 16 . The apparatus of claim 11 , wherein the second motor duration is based on a rate of volume of fluid delivered over time as determined from a cumulative estimated actual volume of fluid delivered for the dose and the cumulative motor duration for the dose. 17 . The apparatus of claim 11 , further comprising: a linear potentiometer, wherein sensing a change of position of the first structure of the container relative to the position of a second structure of the container is performed using the linear potentiometer. 18 . The apparatus of claim 11 , further comprising, wherein the instructions, when executed by the processor are further operative to cause the flow control apparatus to, for subsequent aliquots: operate, based on a second objective volume of an aliquot to be delivered during a subsequent subinterval, the pump motor for a third motor duration at the beginning of the subsequent subinterval to deliver less than the second objective volume of the aliquot; sense a second change in a position of a first structure of the container relative to the position of a second structure of the container over the third motor duration; estimate a volume of fluid delivered over the third motor duration based on the sensed second change in position; determine a fourth motor duration to deliver a remainder of the second objective volume of the aliquot, the fourth motor