Method for controlling a hybrid automotive vehicle and hybrid vehicle adapted to such a method

The invention claimed is: 1. Hybrid automotive vehicle comprising an internal combustion engine, an electric machine connected to an energy storage system, each of the internal combustion engine and the electric machine being adapted to deliver torque to a driveline of the vehicle, means to estimate, during a mission of the vehicle, a temperature of the energy storage system at a beginning of a next mission of the vehicle, means to determine if the current mission of the vehicle is about to end, means to charge the energy storage system, subsequent to the determining means determining that the vehicle is approaching the end of the mission, on a basis of the temperature estimation before an end of a current mission of the vehicle, if the estimated temperature is below a threshold value, and means to discharge the energy storage system at a beginning of a next mission of the vehicle before or after a starting phase of the internal combustion engine to meet a low target state of charge lower than a normal operating state of charge used when the temperature estimated is above the threshold value and once the energy storage system reaches the low target state of charge, maintain the state of charge around the low target state of charge until temperature exceeds the threshold value. 2. Hybrid, automotive vehicle according claim 1 , comprising an electronic control unit adapted to control a state of charge target of the energy storage system. 3. Hybrid automotive vehicle according to claim 2 , wherein the electronic control unit is adapted to control a ratio between the torque delivered to the driveline by the internal combustion engine and the torque delivered to the driveline by the electric machine. 4. Hybrid automotive vehicle according to claim 1 , comprising a temperature sensor adapted to measure the temperature of the energy storage System. 5. Method for controlling a hybrid automotive vehicle, equipped with an internal combustion engine, and an electric machine connected to an energy storage system, each of the internal combustion engine and the electric machine being adapted to deliver torque to a driveline of the vehicle, wherein the method comprises at least the following steps: a) during a mission of the vehicle, estimating a temperature of the energy storage system at a beginning of a next mission of the vehicle; a1) determining that the vehicle is approaching the end of the mission; b) if the temperature estimated at step a) is below a threshold value, recharging, subsequent to determining that the vehicle is approaching the end of the mission and prior to the vehicle reaching the destination, the energy storage system to store an amount of electrical energy, wherein the amount of electrical energy to be stored in energy storage system is determined depending on the temperature estimated at step a) and such that a discharge of the amount of electrical energy can heat up the energy storage system from the temperature estimated at step a) to a higher temperature; c) if the energy storage system has been recharged at step b), then, at a beginning of a next operating period of the vehicle, discharging the energy storage system, wherein at step c) the discharge is conducted to meet a low target state of charge lower than a normal operating state of charge used when the temperature estimated at step a) is above the threshold value, the energy storage system is discharged, and once the energy storage system reached the low target state of charge, the state of charge is maintained around the low target state of charge until temperature exceeds the threshold value. 6. Method according to claim 5 , wherein if the temperature estimated at step a) below the threshold value then recharging the energy storage system at step b) with a state of charge target higher than a normal operating state of charge used when the temperature estimated at step a) is above the threshold value. 7. Method according, to claim 5 , wherein at step c), the energy storage system is discharged by reducing a ratio between the torque delivered to the driveline by the internal combustion engine and the torque delivered to the driveline by the electric machine. 8. Method according to claim 5 , comprising, after step c), further steps of: d) measuring or estimating the temperature of the energy storage system, e) if the temperature measured or estimated at step d) is superior to a threshold temperature value, adjusting a state of charge target of the energy storage system to a normal value. 9. Method according to claim 5 , wherein at step b), recharging of the energy storage system is performed by increasing a state of charge target of the energy storage system. 10. Method according to claim 5 wherein at step b), a given amount of the torque delivered by the internal combustion engine is converted by the electrical machine into electrical energy and stored in the energy storage system. 11. Method according to claim 5 , wherein at step a), the estimation is made on a basis of weather forecast data. 12. Method according to claim 5 , wherein at step a), the estimation is made on a basis of weather statistic data. 13. Method according to claim 5 , wherein at step a1), determination is made by geographically locating the vehicle with respect to a predefined trip. 14. Method according to claim 5 , wherein at step a1), determination is made by comparing a distance covered by the vehicle during the current mission to an average distance covered during missions of the vehicle. 15. Method according to claim 5 , wherein at step a1), determination is made through a device triggered by a driver of the vehicle. 16. Method for controlling a hybrid automotive vehicle, equipped with an internal combustion engine, and an electric machine connected to an energy storage system, each of the internal combustion engine and the electric machine being adapted to deliver torque to a driveline of the vehicle, wherein the method comprises at least the following steps: a) during a mission of the vehicle, estimation of a temperature of the energy storage system at a beginning of a next mission of the vehicle; a1) maintaining a normal state of charge (SOC) target during a major portion of the mission; a2) determining if the mission of the vehicle is about to end; b) after step a2), if the temperature estimated at step a) is below a threshold value, recharging, before an end of a current mission of the vehicle, the energy storage system to store an amount of electrical energy, wherein the amount of electrical energy to be stored in energy storage system is determined depending on the temperature estimated at step a) and such that a heavy discharge of the amount of electrical energy can heat up the energy storage system from the temperature estimated at step a) to a higher temperature at which the energy storage system can exchange more electrical power with the electric machine; c) if the energy storage system has been recharged at step b), then, at a beginning of a next operating period of the vehicle heavily discharging the energy storage system, wherein at step c) the discharge is conducted to meet a low target state of charge lower than a normal operating state of charge used when the temperature estimated at step a) is above the threshold value, the energy storage system is discharged, and once the energy storage system reached the low target state of charge, the state of charge is maintained around the low target state of charge until temperature exceeds the threshold value. 17. Method according to claim 16 , comprising rechar