Vehicle driving control apparatus including sound sensor and vehicle driving control method using the vehicle driving control apparatus

What is claimed is: 1. A vehicle driving control apparatus comprising: a communication interface configured to receive, from a sound sensor, a signal corresponding to sound that is generated in an external environment; and a processor configured to: identify a sound object generating the sound, by obtaining a type of the sound object and either one or both of a direction of the sound object and a distance from the sound object to a vehicle comprising the vehicle driving control apparatus, based on the received signal; and control driving of the vehicle, based on the type of the sound object, wherein the processor is further configured to identify the type of the sound object by: receiving an electrical signal subdivided by frequency from the sound sensor, the electrical signal corresponding to a plurality of frequencies; determining at least one frequency, at which an intensity change is equal to or greater than a reference range, among the plurality of frequencies; generating a sound pattern corresponding to the at least one frequency, at which the intensity change is equal to or greater than the reference range; and identifying the type of the object by comparing the sound pattern with a sound template. 2. The vehicle driving control apparatus of claim 1 , wherein the processor is further configured to change either one or both of a driving route of the vehicle and a speed of the vehicle, based on the identified sound object. 3. The vehicle driving control apparatus of claim 1 , wherein the processor is further configured to control the driving of the vehicle to prevent a collision between the vehicle and the identified sound object. 4. The vehicle driving control apparatus of claim 1 , further comprising an output interface configured to output information of any one or any combination of the type of the sound object, the direction of the sound object, and the distance from the sound object to the vehicle. 5. The vehicle driving control apparatus of claim 4 , wherein the output interface comprises a display configured to display an image related to the external environment, the image comprising the information of the type of the sound object. 6. The vehicle driving control apparatus of claim 5 , wherein the display is further configured to display, on the displayed image, a relative position of the sound object with respect to the vehicle. 7. The vehicle driving control apparatus of claim 1 , wherein the sound sensor is mounted on the vehicle. 8. The vehicle driving control apparatus of claim 1 , wherein the sound sensor comprises a plurality of vibrators arranged in different directions and having different resonance bands, and at least two among the plurality of vibrators are configured to vibrate in response to the sound. 9. The vehicle driving control apparatus of claim 8 , wherein any one or any combination of the plurality of vibrators is arranged in parallel with a driving direction of the vehicle. 10. The vehicle driving control apparatus of claim 8 , wherein the processor is further configured to: obtain a frequency band of the sound, based on a resonance frequency of a vibrating vibrator among the at least two among the plurality of vibrators; obtain the type of the sound object, based on the obtained frequency band of the sound; obtain the direction of the sound object relative to the vehicle, based on a direction of the vibrating vibrator; obtain and the distance from the sound object to the vehicle, based on an output intensity of the vibrating vibrator; and obtain a change in the distance from the sound object to the vehicle, based on a time-dependent variation of the output intensity of the vibrating vibrator. 11. The vehicle driving control apparatus of claim 1 , wherein the sound object is not identified by an optical sensor mounted on the vehicle. 12. The vehicle driving control apparatus of claim 11 , wherein the sound object is in an area other than a line of sight of the optical sensor, in the external environment of the vehicle. 13. The vehicle driving control apparatus of claim 11 , wherein the optical sensor comprises an image sensor. 14. The vehicle driving control apparatus of claim 11 , wherein the processor is further configured to: obtain one or more candidate sound objects potentially generating the sound, based on a result that is output from the sound sensor; and identify, as the sound object, one among the one or more candidate sound objects that is not identified by the optical sensor. 15. A method of controlling driving of a vehicle, the method comprising: receiving, from a sound sensor, a signal corresponding to sound that is generated in an external environment; identifying a sound object generating the sound, by obtaining a type of the sound object and either one or both of a direction of the sound object and a distance from the sound object to the vehicle, based on the received signal; and controlling driving of the vehicle, based on the type of the sound object, wherein the type of the sound object is identified by: receiving an electrical signal subdivided by frequency from the sound sensor, the electrical signal corresponding to a plurality of frequencies, and determining at least one frequency, at which an intensity change is equal to or greater than a reference range, among the plurality of frequencies; generating a sound pattern corresponding to the at least one frequency, at which the intensity change is equal to or greater than the reference range; and identifying the type of the object by comparing the sound pattern with a sound template. 16. The method of claim 15 , wherein the controlling of the driving of the vehicle comprises changing any one or any combination of a driving route of the vehicle and a speed of the vehicle, based on the identified sound object. 17. The method of claim 15 , wherein the controlling of the driving of the vehicle comprises controlling the driving of the vehicle such that the vehicle and the identified sound object do not collide with each other. 18. The method of claim 15 , further comprising outputting information of any one or any combination of the type of the sound object, the direction of the sound object, and the distance from the sound object to the vehicle. 19. The method of claim 18 , wherein the outputting comprises displaying an image related to the external environment, the image comprising the information of the type of the sound object. 20. The method of claim 15 , wherein the sound object is not identified by an optical sensor mounted on the vehicle. 21. The method of claim 20 , wherein the identifying of the sound object comprises: obtaining one or more candidate sound objects potentially generating the sound, based on a result that is output from the sound sensor; and identifying, as the sound object, one among the one or more candidate sound objects that is not identified by the optical sensor. 22. The method of claim 15 , wherein the sound sensor is mounted on the vehicle and comprises a plurality of vibrators arranged in different directions and having different resonance bands, and at least two among the plurality of vibrators are configured to vibrate in response to the sound. 23. The method of claim 22 , wherein the identifying of the sound object comprises: obtaining a frequency band of the sound, based on a resonance frequency of a vibrating vibrator among the at least two among the plurality of vibrators; ob