Systems and methods for estimating diesel exhaust fluid volume

The invention claimed is: 1. A method, comprising: during a liquid diesel exhaust fluid (DEF) in freezing conditions, for a first vehicle including a first tank for storing the liquid DEF with a first heater for thawing frozen DEF, estimating a volume of the liquid DEF in the first tank using a freezing conditions transfer function during freezing in the first tank, and using a first non-freezing conditions transfer function specific to the first vehicle during non-freezing conditions; and for a second vehicle including a second tank for storing the liquid DEF with a second heater for thawing frozen DEF, estimating a volume of the liquid DEF in the second tank using the freezing conditions transfer function during freezing in the second tank, and using a second non-freezing conditions transfer function specific to the second vehicle during non-freezing conditions, the first tank is different in size and/or shape from the second tank while the first heater in the first tank is identical to the second heater in the second tank, wherein the freezing conditions transfer function is identical for the first vehicle and the second vehicle. 2. The method of claim 1 , wherein each of the first heater and the second heater are operated during freezing conditions to thaw frozen DEF in the first tank and the second tank respectively, a heating profile for the first heater identical to the heating profile of the second heater. 3. The method of claim 2 , wherein the freezing conditions transfer function is based on the heating profile of the first heater and the second heater including a power delivered to respective heating elements of the first heater and the second heater. 4. The method of claim 1 , wherein the first non-freezing conditions transfer function is based on a size and shape of the first tank, and the second non-freezing conditions transfer function is based on another size and shape of the second tank. 5. The method of claim 1 , wherein in the first vehicle, estimating the volume of the liquid DEF using the freezing conditions transfer function includes estimating a first height of liquid DEF relative to the first heater via a first ultrasonic sensor coupled to the first heater, and then estimating the volume of liquid DEF based on the first height and the first non-freezing conditions transfer function specific to the first vehicle; and wherein in the second vehicle, estimating the volume of the liquid DEF using the freezing conditions transfer function includes estimating a second height of liquid DEF relative to the second heater via a second ultrasonic sensor coupled to the second heater, and then estimating the volume of liquid DEF based on the second height and the second non-freezing conditions transfer function specific to the second vehicle.