A full speed range adaptive cruise control system for a host vehicle includes a plurality of sensors that each generate a signal, a memory that includes executable instructions and a processor that executes the executable instructions. The executable instructions enable the processor to detect a target vehicle as being stopped along a route based upon the signals from the plurality of sensors, cause the host vehicle to stop at a distance from the target vehicle, detect the target vehicle moving along the route after the host vehicle has stopped based upon the signals from the plurality of sensors, determine whether a first predetermined period of time has elapsed since the host vehicle has stopped, determine whether a first predetermined condition is satisfied if the first predetermined period of time has elapsed, and cause the host vehicle to move if the system determines that the first predetermined condition is satisfied.

A full speed range adaptive cruise control system for a host vehicle includes a plurality of sensors that each generate a signal, a memory that includes executable instructions and a processor that executes the executable instructions. The executable instructions enable the processor to detect a target vehicle as being stopped along a route based upon the signals from the plurality of sensors, cause the host vehicle to stop at a distance from the target vehicle, detect the target vehicle moving along the route after the host vehicle has stopped based upon the signals from the plurality of sensors, determine whether a first predetermined period of time has elapsed since the host vehicle has stopped, determine whether a first predetermined condition is satisfied if the first predetermined period of time has elapsed, and cause the host vehicle to move if the system determines that the first predetermined condition is satisfied.

An automatic following control execution unit recognizes a preceding vehicle of the own vehicle and performs automatic following control of causing the own vehicle to automatically follow the preceding vehicle. A start-command acquisition unit acquires a start command to initiate the automatic following control. An automatic following control starting unit starts the automatic following control, when the brake is switched from on to off after satisfaction of a first to fifth conditions. The first condition is that the own vehicle is not under the automatic following control. The second condition is that a brake of the own vehicle is in an on state. The third condition is that the own vehicle is at rest. The fourth condition is that the preceding vehicle has been recognized. The fifth condition is that the start command acquisition means has acquired the start command. A target stopping inter-vehicle distance setting unit detects a first inter-vehicle distance between the own vehicle and the preceding vehicle when the first to fifth conditions are satisfied, and sets, as the first inter-vehicle distance, a target inter-vehicle distance for stopping the own vehicle. A start timing setting unit detects a second inter-vehicle distance between the own vehicle and the preceding vehicle at the start of the automatic following control, and sets a start timing for starting the own vehicle on the basis of the second inter-vehicle distance.

A vehicle control system includes a target drive force calculation unit, an arithmetic unit, a stop holding unit, a power-running-generative drive force calculation unit, and a traveling mode selection unit. The arithmetic unit calculates required drive force and required brake force based on target drive force calculated by the target drive force calculation unit. The arithmetic unit calculates the required drive force by setting the required brake force to stop hold brake force or greater if an engine traveling mode is selected at an immediately preceding timing by the traveling mode selection unit. The arithmetic unit calculates the required brake force by setting the required drive force to less than or equal to power-running-generative drive force calculated by the power-running-generative drive force calculation unit if an electric vehicle traveling mode is selected at the immediately preceding timing by the traveling mode selection unit.

This vehicle control device includes: a distance measurement unit that measures the distance between a vehicle and a preceding vehicle; and an engine control unit that starts up an engine when, in comparison to a distance measured by the distance measurement unit once a host vehicle has stopped and an engine mounted in the host vehicle has stopped, a distance newly measured by the distance measurement unit increases by at least an offset amount that indicates the amount of increase in distance used to determine whether to start up the engine.

A driving assistance device includes a determination unit configured to, in a case where a preceding vehicle located in front of a vehicle in a stopped state starts, determine whether an object is located inside a specified area that is a predetermined area in front of the vehicle, and a driving assistance unit configured to maintain the stopped state of the vehicle in a case where an object is located inside the specified area in a case where the preceding vehicle starts.

An ACC system and method for controlling a vehicle are disclosed. An adaptive cruise control (ACC) system includes: a radar sensor unit which detects an object around a vehicle and a movement detector which measures a driving speed and acceleration of the vehicle and a determination unit which determines a stopped object to be a stopped vehicle when the stopped object is detected in front of the vehicle and a surrounding vehicle detected around the vehicle is detected to decelerate on the basis of the measured driving speed and acceleration and a controller which regards the stopped vehicle as a preceding vehicle and performs deceleration control.

An ACC system and method for controlling a vehicle are disclosed. An adaptive cruise control (ACC) system includes: a radar sensor unit which detects an object around a vehicle and a movement detector which measures a driving speed and acceleration of the vehicle and a determination unit which determines a stopped object to be a stopped vehicle when the stopped object is detected in front of the vehicle and a surrounding vehicle detected around the vehicle is detected to decelerate on the basis of the measured driving speed and acceleration and a controller which regards the stopped vehicle as a preceding vehicle and performs deceleration control.

A method for operating a driver assistance system, performing a driver assistance function of a motor vehicle. The driver assistance function is activable by the driver only if at least one activation criterion is satisfied and is automatically deactivated if at least one deactivation criterion is satisfied. If the driver assistance system is activable, then a piece of activability information indicating the activability is output to the driver and a projected activity time before the onset of a deactivation criterion is ascertained and is output together with the activability information. A reliability value for the activity time is determined at the projected activity time and the output of the activability information and/or of the activity time is adjusted on the basis of the reliability value.

A control apparatus for a vehicle includes: an inter-vehicle distance control unit that performs an inter-vehicle distance control with respect to a preceding vehicle; an engine stop-start unit that stops the engine when an engine stop condition is satisfied and starts the engine when an engine start condition is satisfied; a vehicle stop state maintenance unit that maintains a braking force for stopping the vehicle; the engine stop-start unit stops the engine, by activation of the vehicle stop state maintenance unit in the case where the vehicle is stopped by the inter-vehicle distance control unit; and an engine operation control unit that, in the case where the inter-vehicle distance control unit is set to be active in the vehicle stop state, maintains the operation state of the engine before the inter-vehicle distance control unit is set to be active.