Ultrasonic image construction method, apparatus and signal-processing method

The invention claimed is: 1. An ultrasonic-image construction method comprising: transmitting and receiving steps in which an ultrasonic pulse is transmitted through a substrate in the state whereof a target substance and a reference substance are in contact with the substrate and in which a target signal from the target substance and a reference signal from the reference substance are received; a signal-normalization step to extract only a low-frequency component from a first normalized signal obtained by normalizing the target signal in a time domain, and to extract only a high-frequency component from a second normalized signal obtained by normalizing the target signal in a frequency domain using the reference signal, so as to synthesize the low-frequency component derived from the first normalized signal with the high-frequency component derived from the second normalized signal, thus obtaining a normalized impulse signal; a characteristic acoustic-impedance distribution-estimation step to estimate sequentially a characteristic acoustic-impedance distribution in the target substance from a front side to a back side in a depth direction according to the normalized impulse-response signal; and an image-construction step to construct image data of an acoustic property image according to the characteristic acoustic-impedance distribution in the depth direction. 2. The ultrasonic-image construction method according to claim 1 , characterized in that in the signal-normalization step, before extracting only the high-frequency component from the second normalized signal, a waveform is formed by applying a window function to the reference signal and to the target signal. 3. The ultrasonic-image construction method according to claim 1 , characterized in that in the signal-normalization step, the first normalized signal after extracting only the low-frequency component is converted into the frequency domain by Fourier transform. 4. The ultrasonic-image construction method according to claim 1 , characterized in that in the signal-normalization step, the low-frequency component derived from the first normalized signal and the high-frequency component derived from the second normalized signal are synthesized in the frequency domain and thereafter an acquired normalized impulse-response signal is converted into the time domain from the frequency domain by inverse Fourier transform. 5. The ultrasonic-image construction method according to claim 1 , characterized in that in the signal-normalization step, down-sampling processing is performed after removing the high-frequency component from the reference signal and from the target signal, respectively, thereafter, the target signal, after the down-sampling processing, is normalized in the time domain using the reference signal after the down-sampling processing, thus extracting only the low-frequency component from the first normalized signal. 6. The ultrasonic-image construction method according to claim 1 , characterized in that in the signal-normalization step, a source signal is obtained by removing the low-frequency component and the high-frequency component from a spectrum of the second normalized signal, thereafter such source signal is converted in the time domain for a peak detection, thereafter a base signal having an impulse is generated around the peak, thus normalizing the target signal in the time domain using the base signal instead of the reference signal, thus extracting only the low-frequency component from the first normalized signal. 7. An ultrasonic-image-construction apparatus comprising: a substrate; an ultrasonic transducer to transmit an ultrasonic pulse through the substrate in a state where a target substance and a reference substance are in contact with the substrate and which can receive a target signal from the target substance and receive a reference signal from a reference substance; a signal-normalization means to extract only a low-frequency component from a first normalized signal obtained by normalizing the target signal in a time domain and to extract only a high-frequency component from a second normalized signal obtained by normalizing the target signal in a frequency domain using the reference signal, so as to synthesize the low-frequency component derived from the first normalized signal with the high-frequency component derived from the second normalized signal, thus obtaining a normalized impulse-response signal; a characteristic acoustic-impedance distribution-estimation means to estimate sequentially a characteristic acoustic-impedance distribution in the target substance from a front side to a back side in a depth direction according to the normalized impulse-response signal; and an image-construction means to construct image data of an acoustic property image according to an acoustic-impedance distribution in the depth direction obtained by the characteristic acoustic-impedance distribution-estimation means. 8. The ultrasonic-image construction apparatus according to claim 7 , characterized in that by the signal-normalization means, before extracting only the high-frequency component from the second normalized signal, a waveform is formed by applying a window function to the reference signal and to the target signal. 9. The ultrasonic-image construction apparatus according to claim 7 , characterized in that by the signal-normalization means, the first normalized signal after extracting only the low-frequency component is converted into the frequency domain by Fourier transform. 10. The ultrasonic-image construction apparatus according to claim 7 , characterized in that by the signal-normalization means, the low-frequency component derived from the first normalized signal and the high-frequency component derived from the second normalized signal are synthesized in the frequency domain and thereafter the acquired normalized impulse-response signal is converted into the time domain from the frequency domain by inverse Fourier transform. 11. The ultrasonic-image construction apparatus according to claim 7 , characterized in that by the signal-normalization means, down-sampling processing is performed after removing the high-frequency component from the reference signal and from the target signal, respectively, thereafter, the target signal, after the down-sampling processing, is normalized in the time domain using the reference signal after the down-sampling processing, thus extracting only the low-frequency component from the first normalized signal. 12. The ultrasonic-image construction apparatus according to claim 7 , characterized in that by the signal-normalization means, a source signal is obtained by removing the low-frequency component and the high-frequency component from the spectrum of the second normalized signal, thereafter such source signal is converted in the time domain for a peak detection, thereafter a base signal having an impulse is generated around the peak, thus normalizing the target signal in the time domain using the base signal instead of the reference signal, thus extracting only the low-frequency component from the first normalized signal. 13. A signal-processing method for acquiring a normalized impulse-response signal based on a target signal obtained by pulse-wave irradiation against a target substance, and a reference signal obtained by pulse-wave irradiation against a reference substance, in comprising: a low-frequency extraction step to extract only a low-frequency component from a spectrum of a first normalized signal obtained by normalizing the target signal in a time domain; a high-frequency extraction step to extract only a high-frequency component