Method of controlling engine and transmission of hybrid vehicle

What is claimed is: 1. A method of controlling an engine and a transmission of a vehicle, comprising: determining, by a controller, whether the vehicle is under NCC (Neutral Coasting Control); determining, by the controller, whether an engine RPM reaches an engine RPM control point if it is determined that the NCC is in effect; determining, by the controller, an RPM and a gear stage of the transmission if it is determined that the engine RPM has reached the engine RPM control point; determining, by the controller, an engine target RPM of the vehicle; determining, by the controller, whether the engine RPM has reached a mild hybrid starter & generator (MHSG) control point; controlling the MHSG according to a condition if it is determined that the engine RPM has reached the MHSG control point; after determining, by the controller, whether the engine RPM has reached the MHSG control point, determining, by the controller, whether the engine RPM has slipped compared to the engine target RPM if it is determined that the engine RPM has not reached the MHSG control point; performing, by the controller, proportional-integral-derivative (PID) control to follow the engine target RPM if the controller determines that the engine RPM has slipped compared to the target engine RPM; and determining whether the controller satisfies a control escape condition, and if the control escape condition is satisfied, terminating the control; determining whether the engine RPM has reached the MHSG control point if the controller determines that the engine RPM has not reached the engine RPM control point; determining, by the controller, the RPM and the gear level of the transmission if it is determined that the engine RPM has reached the MHSG control point; determining, by the controller, an MHSG target RPM of the vehicle; determining, by the controller, whether the engine RPM has slipped compared to the MHSG target RPM; performing, by the controller, a motor speed control to follow the MHSG target RPM if it is determined that the engine RPM has slipped compared to the MHSG target RPM; and determining whether the controller satisfies a control escape condition, and if the control escape condition is satisfied, terminating the control; after determining, by the controller, whether the engine RPM has reached the MHSG control point when it is determined that the engine RPM has reached the engine RPM control point, determining, by the controller, the RPM and the gear level of the transmission if it is determined that the engine RPM has reached the MHSG control point; determining, by the controller, an MHSG target RPM of the vehicle; determining, by the controller, whether the engine RPM has slipped compared to the MHSG target RPM; performing, by the controller, a motor speed control to follow the MHSG target RPM if it is determined that the engine RPM has slipped compared to the MHSG target RPM; and determining whether the controller satisfies a control escape condition, and if the control escape condition is satisfied, terminating the control; and after determining, by the controller, weather the engine RPM has slipped compared to the MHSG target RPM, if the controller determines that the engine RPM does not slip compared to the MHSG target RPM, determining whether the contoller satisfies the control escape condition, and if the control escape condition is satisfied, terminating the control; wherein, in determining, by the controller, an engine target RPM of the vehicle, the controller determines a current vehicle speed, and the controller sets the engine target RPM according to a first map table previously set for the current vehicle speed and the gear stage; and wherein the NCC is configured to decrease a clutch RPM by turning off only a transmission clutch under predetermined conditions of the vehicle after an macerator pedal of the vehicle is released such that the engine RPM decrease. 2. The method of claim 1 , wherein: performing the PID control to follow the engine target RPM is performed by adjusting an ignition timing of the engine and adjusting an opening amount of the throttle. 3. The method of claim 2 , wherein: in a situation in which the engine RPM is overshot compared to the engine target RPM, the controller controls the engine ignition timing to be retarded and to reduce the opening amount of the throttle. 4. The method of claim 2 , wherein: in a situation in which the engine RPM is undershot compared to the engine target RPM, the controller controls to advance the engine ignition timing and increase the opening amount of the throttle. 5. The method of claim 1 , wherein: in determining, by the controller, whether the engine RPM has reached the MHSG control point, if the engine RPM is 700 rpm/sec or less, the controller determines that the MHSG control point has been reached. 6. The method of claim 1 , wherein: the motor speed control is to perform target speed tracking control based on motor current control. 7. A non-transitory computer readable medium containing program instructions executed by a processor, the computer readable medium comprising: program instructions that determine whether a vehicle is under NCC (Neutral Coasting Control); program instructions that determine whether an engine RPM reaches an engine RPM control point if it is determined that the NCC is in effect; program instructions that determine an RPM and a gear stage of a transmission if it is determined that the engine RPM has reached the engine RPM control point; program instructions that determine an engine target RPM of the vehicle; program instructions that determine whether the engine RPM has reached a mild hybrid starter & generator (MHSG) control point; and program instructions that control the MHSG according to a condition if it is determined that the engine RPM has reached the MHSG control point; program instructions that, after determining whether the engine RPM has reached the MHSG control point, determine whether the engine RPM has slipped compared to the engine target RPM if it is determined that the engine RPM has not reached the MHSG control point; perform proportional-integral-derivative (PID) control to follow the engine target RPM if it is determined that the engine RPM has slipped compared to the target engine RPM; and determine whether a control escape condition is satisfied, and if the control escape condition is satisfied, terminating the control; program instructions that determine whether the engine RPM has reached the MHSG control point if the controller determines that the engine RPM has not reached the engine RPM control point; program instructions that determine the RPM and the gear level of the transmission if it is determined that the engine RPM has reached the MHSG control point; program instructions that determine an MHSG target RPM of the vehicle; program instructions that determine whether the engine RPM has slipped compared to the MHSG target RPM; program instructions that perform a motor speed control to follow the MHSG target RPM if it is determined that the engine RPM has slipped compared to the MHSG target RPM; and program instructions that determine a control escape condition is satisfied, and if the control escape condition is satisfied, terminating the control; program instructions that, after determining whether the engine RPM has reached the MHSG control point when it is determined that the engine RPM has reached the engine RPM control point, determine the RPM and the gear level of the transmission if it is determined that the engine RPM has reached the MHSG control point; determine an MHSG target RPM of the vehicle; determine whether the engine RPM has slipped compared to the MHSG target RPM; det