Electric power steering apparatus

What is claimed is: 1. An electric power steering apparatus in a vehicle having road wheels and a steering handle which is operatively connected to the road wheels through a steering shaft, comprising: a torque detecting unit for detecting a steering torque from the steering handle; an electric motor operatively connected to the steering shaft; a motor control unit for controlling the electric motor; at least one of an operational-quantity detecting unit and a vehicle-behavior detecting unit, the operational-quantity detecting unit detecting an operational quantity of an operating member for generating a behavior of the vehicle in transverse directions thereof or horizontal rotational directions, the vehicle-behavior detecting unit for detecting a quantity representative of the behavior of the vehicle in the transverse directions or the horizontal rotational directions; wherein the motor control unit includes: a first control unit for establishing a target reference current of the electric motor depending on the steering torque detected by the torque detecting unit; and a second control unit for calculating a target additive torque based on the operational quantity detected by the operational-quantity detecting unit or the quantity detected by the vehicle-behavior detecting unit, and calculating a target additive current deviation of the electric motor so as to bring a torque deviation between the target additive torque and the steering torque detected by the torque detecting unit closely to zero; wherein the motor control unit controls the electric motor based on a deviation between the target reference current and the target additive current deviation; and wherein there is a continuous mechanical connection between the road wheels and the steering handle. 2. The electric power steering apparatus according to claim 1 , further comprising: a vehicle speed detecting unit for detecting a vehicle speed of the vehicle; wherein the motor control unit corrects the output signal from the second control unit based on the vehicle speed detected by the vehicle speed detecting unit. 3. The electric power steering apparatus according to claim 1 , wherein the operational-quantity detecting unit detects a steering quantity of the steering handle. 4. The electric power steering apparatus according to claim 1 , wherein the vehicle-behavior detecting unit comprises at least one of a lateral acceleration sensor for detecting a lateral acceleration of the vehicle and a yaw rate sensor for detecting a yaw rate of the vehicle. 5. The electric power steering apparatus according to claim 1 , wherein the motor control unit controls the first control unit and the second control unit such that the first control unit controls the steering torque detected by the torque detecting unit in the event of a failure of the second control unit. 6. The electric power steering apparatus according to claim 1 , wherein the steering torque is a value equal to mechanical friction, which comprises the sum of friction of the electric motor, friction of a rack and pinion mechanism, friction of tie rods, friction of a worm gear. 7. A method performed by an electric power steering apparatus in a vehicle having road wheels and a steering handle which is operatively connected to the road wheels through a steering shaft, the method comprising: detecting a steering torque from the steering handle, wherein the steering torque is due to moment of inertia of an electric motor, the viscosity of grease applied to the steering shaft, and the mechanical friction of the steering shaft; detecting at least one of an operational-quantity and a vehicle-behavior quantity, the operational-quantity being an operational quantity of an operating member for generating a behavior of the vehicle in transverse directions thereof or horizontal rotational directions, the vehicle-behavior quantity being a quantity representative of the behavior of the vehicle in the transverse directions or the horizontal rotational directions; establishing a target reference current of the electric motor depending on the detected steering torque; calculating a target additive torque based on the operational quantity detected by the operational-quantity detecting unit or the quantity detected by the vehicle-behavior detecting unit, and calculating a target additive current deviation of the electric motor so as to bring a torque deviation between the target additive torque and the steering torque detected by the torque detecting unit closely to zero; and controlling the electric motor operatively connected to the steering shaft based on a deviation between the target reference current and the target additive current deviation.