Systems and methods for reducing cold start emissions for autonomous vehicles

1 . A method comprising: while a vehicle is stationary with an engine not combusting air and fuel, actively raising a temperature of an exhaust catalyst positioned in an exhaust system of the engine to maintain the temperature of the exhaust catalyst above a threshold temperature until a subsequent request for engine torque to propel the vehicle is requested. 2 . The method of claim 1 , wherein the conditions where the vehicle is stationary with the engine not combusting air and fuel further comprise the vehicle being unoccupied. 3 . The method of claim 2 , wherein the vehicle is one of a plurality of vehicles participating in a car-sharing model, and where the subsequent request for engine torque to propel the vehicle is related to a scheduled pickup time of the vehicle by a customer. 4 . The method of claim 1 , wherein the conditions where the vehicle is stationary with the engine not combusting air and fuel include a start/stop event where the engine is deactivated and where the vehicle is occupied. 5 . The method of claim 1 , wherein actively raising the temperature of the exhaust catalyst includes activating the engine to combust air and fuel. 6 . The method of claim 1 , wherein actively raising the temperature of the exhaust catalyst includes activating an electric heater coupled to the exhaust catalyst. 7 . The method of claim 1 , further comprising actively raising the temperature of the exhaust catalyst to maintain the temperature of the exhaust catalyst above the threshold temperature under conditions where it is inferred that the subsequent request for engine torque to propel the vehicle is within a threshold duration of time from the time the engine was commanded to stop combusting air and fuel. 8 . The method of claim 1 , further comprising actively raising the temperature of the exhaust catalyst positioned in the exhaust system when the temperature of the exhaust catalyst is predicted to be within a threshold number of degrees of the threshold temperature. 9 . The method of claim 8 , further comprising obtaining a plurality of measurements corresponding to the temperature of the exhaust catalyst while the vehicle is stationary with the engine not combusting air and fuel, and regressing the plurality of measurements into an exponential decay formula in order to predict when the temperature of the exhaust catalyst will be within the threshold number of degrees of the threshold temperature. 10 . A method comprising: at an engine-off event for a vehicle, via a controller, obtaining a series of temperatures of an exhaust catalyst and extrapolating a predicted time after the engine-off event that the temperature of the exhaust catalyst is expected to drop below a threshold temperature; and responsive to a scheduled subsequent request for engine torque to propel the vehicle being after the predicted time and within a threshold duration of the engine-off event, actively raising the temperature of the exhaust catalyst to maintain the temperature above the threshold temperature at the time of the scheduled subsequent request. 11 . The method of claim 10 , wherein the vehicle is participating in a car-sharing model; and wherein the scheduled subsequent request for engine torque to propel the vehicle is related to a scheduled pickup time of the vehicle via a customer, where the scheduled pickup time is received via the controller of the vehicle via wireless communication between the controller and a software application that coordinates pickup times and locations of the vehicle in response to requests from customers. 12 . The method of claim 10 , wherein an amount that the temperature is actively raised to is variable depending on a relationship between the predicted time after the engine-off event that the temperature is expected to drop below the threshold temperature and the scheduled subsequent request for engine torque. 13 . The method of claim 12 , wherein the amount that the temperature is actively raised to is increased when a difference between the predicted time and the scheduled subsequent request increases; and wherein the amount that the temperature is actively raise to is decreased when the difference between the predicted time and the scheduled subsequent request decreases. 14 . The method of claim 10 , wherein obtaining the series of temperatures of the exhaust catalyst further comprises obtaining a temperature measurement of the exhaust catalyst while the controller is awake and then sleeping the controller for a predetermined time before waking the controller to obtain another temperature measurement pertaining to the temperature of the exhaust catalyst; and wherein the series of temperatures comprises a predetermined number of temperature measurements for extrapolating the predicted time after the engine-off event that the temperature of the exhaust catalyst is expected to drop below the threshold temperature. 15 . The method of claim 10 , wherein actively raising the temperature of the exhaust catalyst includes one of activating the engine to combust air and fuel, or activating an electric heater coupled to the exhaust catalyst. 16 . The method of claim 15 , wherein whether the temperature of the exhaust catalyst is raised via activating the engine or via activating the electric heater is based on which method of actively raising the temperature of the exhaust catalyst is more beneficial in terms of fuel economy and emissions. 17 . A system for a vehicle participating in a car-sharing model, comprising: an exhaust catalyst positioned in an exhaust of an engine of the vehicle and a temperature sensor coupled to the exhaust catalyst for monitoring temperature of the exhaust catalyst; and a controller with computer readable instructions stored on non-transitory memory that when executed cause the controller to: in response to an engine-off event, obtain a plurality of measurements pertaining to a temperature of the exhaust catalyst in order to infer a time, during the engine-off event, that the temperature of the exhaust catalyst is likely to drop below a threshold temperature; via a software application that communicates wirelessly with the controller, receive a scheduled pickup time of the vehicle based on a request from a customer using a software application; and in response to the scheduled pickup time being within a threshold duration from the engine-off event, and further in response to the scheduled pickup time being after the time that the temperature of the exhaust catalyst is likely to drop below the threshold temperature, actively raise the temperature of the exhaust catalyst in order to maintain the temperature of the exhaust catalyst above the threshold temperature until the scheduled pickup time of the vehicle. 18 . The system of claim 17 , wherein the controller stores further instructions to activate the engine to combust air and fuel in order to actively raise the temperature of the exhaust catalyst. 19 . The system of claim 18 , further comprising an electric heater coupled to the exhaust catalyst; and wherein the controller stores further instructions to select whether to utilize the engine in order to actively raise the temperature of the exhaust catalyst, or to use the electric heater to actively raise the temperature of the exhaust catalyst. 20 . The system of claim 17 , wherein the controller stores further instructions to actively raise the temperature to a predetermined level, the predetermined level a function of a time difference between the tim