Pedestrian navigation system and method thereof

What is claimed is: 1. A pedestrian navigation system through a foot apparatus of a pedestrian to navigate, which the foot apparatus has a sensor to sense a sensing data of the foot apparatus, an orientation unit to generate an orientation data, an apparatus communication unit to communicate with the pedestrian navigation system through a communication network, and an indication unit, the pedestrian navigation system comprising: a system communication unit for communicating with the apparatus communication unit of the foot apparatus through the communication network; a map database for storing a map data; a step data generation unit for generating step data according to the sensing data from the sensor of the foot apparatus, wherein the step data includes an angle of foot deflection and a distance between steps of the foot apparatus; a navigation path analysis unit coupled with the map database for receiving the map data and the orientation data to form a navigation path, for receiving the step data of the foot apparatus to determine a heading direction of the foot apparatus, and for generating a turning direction and a turning angle by the navigation path analysis unit according to the navigation path and the heading direction; a stepping database coupled with the navigation path analysis unit, and the stepping database records a plurality of historical step data and a personal step model of the pedestrian, and the navigation path analysis unit amends the heading direction according to the historical data and the personal step model of the pedestrian; and a feedback unit coupled with the navigation path analysis unit for receiving the turning direction and the turning angle to generate a feedback signal and for transmitting the feedback signal to the indication unit, wherein the indication unit generates an indication signal according to the feedback signal to indicate the turning direction and the turning angle. 2. The pedestrian navigation system of claim 1 , wherein the sensor is a triaxial accelerometer, a Gyroscope and an electronic compass. 3. The pedestrian navigation system of claim 1 , further comprising a step training unit coupled with the stepping database, wherein the step data are measured by the step training unit and are transmitted to the stepping database to act as the historical step data, and the personal step model is generated according to the historical step data by the step training unit. 4. The pedestrian navigation system of claim 1 , wherein the navigation path analysis unit further comprising: a step status analyzing module for determining the heading direction of the foot apparatus according to the angle of foot deflection and the distance between steps; and a turning angle analyzing module for generating the turning direction and the turning angle according to the navigation path and the heading direction. 5. The pedestrian navigation system of claim 1 , wherein the foot apparatus is a pair of shoes including a shoe on the right hand side and a shoe on the left hand side, and the indication unit is two vibration units that are disposed in the shoe on the right hand side and the shoe on the left hand side, respectively, wherein the indication signal is a vibration generated by one of the two vibration units according to the turning direction, and the vibration is stopped when the foot apparatus is turned. 6. A pedestrian navigation system through a foot appliance of a pedestrian to navigate, which the foot appliance has a sensor to sense a sensing data of the foot appliance, a wireless communication device to communicate with a portable apparatus, and an indication unit, wherein the portable apparatus has an orientation unit to generate an orientation data, a portable apparatus wireless communication device to communicate with the wireless communication device to receive the sensing data, and a portable apparatus communication unit, the pedestrian navigation system comprising: a system communication unit for communicating with the portable apparatus communication unit through a communication network to receive the sensing data and the orientation data; a map database for storing a map data; a step data generation unit for generating step data according to the sensing data from the sensor of the foot apparatus, wherein the step data includes an angle of foot deflection and a distance between steps of the foot apparatus; a navigation path analysis unit coupled with the map database for receiving the map data and the orientation data to form a navigation path, and for receiving the step data of the foot appliance to determine a heading direction of the foot appliance, and for generating a turning direction and a turning angle by the navigation path analysis unit according to the navigation path and the heading direction; a stepping database coupled with the navigation path analysis unit, and the stepping database records a plurality of historical step data and a personal step model of the pedestrian, and the navigation path analysis unit amends the heading direction according to the historical data and the personal step model of the pedestrian; and a feedback unit coupled with the navigation path analysis unit for receiving the turning direction and the turning angle to generate a feedback signal and for transmitting the feedback signal to the portable apparatus, wherein the portable apparatus transmits the feedback signal to the indication unit of the foot appliance, and the indication unit generates an indication signal according to the feedback signal to indicate the turning direction and the turning angle. 7. The pedestrian navigation system of claim 6 , wherein the wireless communication device of the foot appliance is a Bluetooth device. 8. The pedestrian navigation system of claim 6 , wherein the sensor is a triaxial accelerometer, a Gyroscope and an electronic compass. 9. The pedestrian navigation system of claim 6 , further comprising a step training unit coupled with the stepping database, wherein the step data are measured by the step training unit and are transmitted to the stepping database to act as the historical step data, and the personal step model is generated according to the historical step data by the step training unit. 10. The pedestrian navigation system of claim 6 , wherein the navigation path analysis unit further comprising: a step status analyzing module for determining the heading direction of the foot appliance according to the angle of foot deflection and the distance between steps; and a turning angle analyzing module for generating the turning direction and the turning angle according to the navigation path and the heading direction. 11. The pedestrian navigation system of claim 6 , wherein the foot appliance is a pair of shoes including a shoe on the right hand side and a shoe on the left hand side, and the indication unit is two vibration units that are disposed in the shoe on the right hand side and the shoe on the left hand side, respectively, wherein the indication signal is a vibration generated by one of the two vibration units according to the turning direction and the vibration is stopped when the foot appliance is turned. 12. A pedestrian navigation method using in a pedestrian navigation system through a foot apparatus of a pedestrian to navigate, which the foot apparatus has a sensor to sense a sensing data of the foot apparatus, an orientation unit to generate an orientation data, an apparatus communication unit to communicate with the pedestrian navigation system through a communication network, and an indication unit, the pedestrian navigation method comprising: communicating with the appa