Ultrasound imaging apparatus and method for controlling the same

What is claimed is: 1. An ultrasound imaging apparatus comprising: an ultrasonic probe configured to transmit an ultrasound signal toward an object, receive an echo ultrasound signal which is reflected from the object, and transform the received echo ultrasound signal to an electric signal; a beamformer configured to beamform and output the electric signal; an image generator circuitry configured to estimate a Point Spread Function (PSF) based on an ultrasonic image which corresponds to the output electric signal, and configured to generate a reconstructed image by using the estimated PSF, wherein the image generator circuitry is further configured to generate an impulse signal for a peak point of the reconstructed image, to generate a peak sharpening filter in a Gaussian form by filtering the impulse signal using a low pass filter, and to perform filtering on the reconstructed image by using the peak sharpening filter. 2. The ultrasound imaging apparatus of claim 1 , wherein the image generator circuitry is further configured to detect the peak point from the reconstructed image, and to generate the peak sharpening filter based on the detected peak point. 3. The ultrasound imaging apparatus of claim 1 , wherein the image generator circuitry is further configured to: set a parameter based on the ultrasonic image; generate the estimated PSF by using the parameter; and generate the reconstructed image by using the generated estimated PSF based on the ultrasonic image. 4. The ultrasound imaging apparatus of claim 3 , wherein the image generator circuitry is further configured to update the parameter by using the filtered image. 5. The ultrasound imaging apparatus of claim 4 , wherein the image generator circuitry is further configured to estimate an updated PSF by using the updated parameter. 6. The ultrasound imaging apparatus of claim 5 , wherein the image generator circuitry is further configured to generate an updated reconstructed image by using the updated PSF to the ultrasonic image. 7. The ultrasound imaging apparatus of claim 3 , wherein the image generator circuitry is further configured to transform the ultrasonic image into a Cepstrum domain, and to estimate the PSF by estimating a two dimensional (2D) PSF in the Cepstrum domain. 8. The ultrasound imaging apparatus of claim 1 , wherein the image generator circuitry is further configured to generate the reconstructed image by performing a deconvolution of the ultrasonic image and the PSF. 9. The ultrasound imaging apparatus of claim 1 , wherein the image generator circuitry is further configured to divide the ultrasonic image into a plurality of areas. 10. The ultrasound imaging apparatus of claim 9 , wherein the image generator circuitry is further configured to generate at least one reconstructed image for each of the plurality of areas. 11. The ultrasound imaging apparatus of claim 10 , wherein the image generator circuitry is further configured to perform filtering on each of the at least one reconstructed image. 12. The ultrasound imaging apparatus of claim 10 , wherein the image generator circuitry is further configured to compose the at least one reconstructed image. 13. A method for controlling an ultrasound imaging apparatus, the method comprising: transmitting an ultrasound signal toward an object, receiving an echo ultrasound signal reflected from the object, and transforming the received echo ultrasound signal to an electric signal; beamforming and outputting the electric signal; estimating a Point Spread Function (PSF) based on an ultrasonic image which corresponds to the output electric signal; generating a reconstructed image by using the estimated PSF; generating an impulse signal for a peak point of the reconstructed image, and generating a peak sharpening filter in a Gaussian form by filtering the impulse signal using a low pass filter; and performing filtering on the reconstructed image by using the peak sharpening filter. 14. The method of claim 13 , wherein the performing the filtering comprises: detecting the peak point from the reconstructed image, and generating the peak sharpening filter based on the detected peak point. 15. The method of claim 13 , wherein the generating the reconstructed image comprises: setting a parameter based on the ultrasonic image; generating the estimated PSF by using the parameter; and generating the reconstructed image by using the generated estimated PSF for the ultrasonic image. 16. The method of claim 15 , wherein the setting the parameter comprises: updating the parameter by using the filtered image, wherein the estimating the PSF comprises estimating an updated PSF by using the updated parameter, and wherein the generating the reconstructed image comprises generating an updated reconstructed image by using the estimated updated PSF. 17. The method of claim 13 , wherein the generating the reconstructed image comprises: generating the reconstructed image by performing a deconvolution of the ultrasonic image and the PSF.