Vehicle control device and method based on user-requested driving force

What is claimed is: 1. A vehicle control device, comprising one or more processors that execute computer-executable instructions stored in a memory, wherein the one or more processors execute the computer-executable instructions to cause the vehicle control device to: determine a system-required driving force when a vehicle is automatically driven; perform a travel control for the vehicle on a basis of the system-required driving force; detect a full user-requested driving force, which is the driving force for the vehicle requested by a user; determine whether or not the user is in contact with an operating element configured to steer the vehicle, wherein, in a case that the full user-requested driving force exceeds the system-required driving force in a state in which the user is not in contact with the operating element and a speed of the vehicle is not in excess of a speed threshold value, the one or more processors cause the vehicle control device to perform the travel control on a basis of a partial user-requested driving force which is less than the full user-requested driving force; in a case that the full user-requested driving force exceeds the system-required driving force in a state in which the user is not in contact with the operating element and a speed of the vehicle is in excess of a speed threshold value, the one or more processors cause the vehicle control device to perform the travel control on a basis of a partial driving force which is less than the partial user-requested driving force; and in a case that the full user-requested driving force exceeds the system-required driving force in a state in which the user is in contact with the operating element, the one or more processors cause the vehicle control device to perform the travel control on a basis of the full user-requested driving force, and wherein the vehicle is being automatically driven during the performance of the travel control. 2. The vehicle control device according to claim 1 , wherein: the travel control includes a first control state, and a second control state in which a burden on the driver is lighter than in the first control state, or in which a degree of automation is higher than in the first control state; and an upper limit of the system-required driving force in the first control state differs from an upper limit of the system-required driving force in the second control state. 3. The vehicle control device according to claim 1 , wherein the one or more processors cause the vehicle control device to prompt the user to steer the vehicle, in the case that the full user-requested driving force exceeds the system-required driving force. 4. The vehicle control device according to claim 3 , wherein the one or more processors cause the vehicle control device to determine that the user is steering the vehicle, in a case that the user is in contact with the operating element, or in a case that a torque applied to the operating element is greater than or equal to a predetermined value. 5. The vehicle control device according to claim 3 , wherein the one or more processors cause the vehicle control device to perform a retreat control to cause the vehicle to retreat, in a case that the state in which the user is not in contact with the operating element exceeds a state threshold value, in spite of the user having been prompted to steer the vehicle. 6. The vehicle control device according to claim 5 , wherein the state threshold value is a predetermined amount of elapsed time or a predetermined travel distance. 7. The vehicle control device according to claim 5 , wherein, when the retreat control is being performed, the one or more processors cause the vehicle control device to perform the travel control without being based on the full user-requested driving force. 8. The vehicle control device according to claim 5 , wherein, in a case that the user has come into contact with the operating element before the retreat control is initiated, the one or more processors cause the vehicle control device to continue the travel control. 9. The vehicle control device according to claim 1 , wherein: the travel control includes a first control state, and a second control state in which a burden on the driver is lighter than in the first control state, or in which a degree of automation is higher than in the first control state; the speed threshold value in the second control state is lower than the speed threshold value in the first control state. 10. The vehicle control device according to claim 5 , wherein the one or more processors cause the vehicle control device to: determine a surrounding environment; and determine the state threshold value on a basis of the surrounding environment determined. 11. The vehicle control device according to claim 1 , wherein the one or more processors cause the vehicle control device to: determine a surrounding environment; and determine the speed threshold value on a basis of the surrounding environment determined. 12. The vehicle control device according to claim 1 , wherein the one or more processors cause the vehicle control device to: automatically perform a steering control for the vehicle; and switch between a first mode in which the steering control for the vehicle is performed, and a second mode in which steering of the vehicle is performed by the user, and wherein the one or more processors cause the vehicle control device to switch from the first mode to the second mode in a case that it is determined that the user is in contact with the operating element. 13. A vehicle control method comprising: a step of determining a system-required driving force when a vehicle is automatically driven; a step of performing a travel control for the vehicle on a basis of the system-required driving force; a step of detecting a full user-requested driving force, which is the driving force for the vehicle requested by a user; and a step of determining whether or not the user is in contact with an operating element configured to steer the vehicle, wherein, in the step of performing the travel control, in a case that the full user-requested driving force exceeds the system-required driving force in a state in which the user is not in contact with the operating element and a speed of the vehicle is not in excess of a speed threshold value, the travel control is performed on a basis of a partial user-requested driving force which is less than the full user-requested driving force; in a case that the full user-requested driving force exceeds the system-required driving force in a state in which the user is not in contact with the operating element and a speed of the vehicle is in excess of a speed threshold value, the one or more processors cause the vehicle control device to perform the travel control on a basis of a partial driving force which is less than the partial user-requested driving force; and in a case that the full user-requested driving force exceeds the system-required driving force in a state in which the user is in contact with the operating element, the travel control is performed on a basis of full the user-requested driving force without applying the limit to the user-requested driving force, and wherein, in the step of performing the travel control, the vehicle is being automatically driven.