TY - JOUR
T1 - Extensive doppler method for single component doppler signal
AU - Tanaka, Naohiko
AU - Ohtsuki, Shigeo
AU - Tanaka, Motonao
PY - 1992/1
Y1 - 1992/1
N2 - Conventional pulsed Doppler technique has a limitation in the measurable range of Doppler shifted frequency. Extensive Doppler method makes it possible to overcome this limitation by means of compression or expansion of Doppler shifted frequency band. When the Doppler shifted frequency is compressed, the velocity range corresponding to Nyquist frequency band is higher than that of conventional technique. The principle and an example of the compression of Doppler shifted frequency band are shown here. The frequency of a single component Doppler signal can be compressed ideally in this technique without aliasing.
AB - Conventional pulsed Doppler technique has a limitation in the measurable range of Doppler shifted frequency. Extensive Doppler method makes it possible to overcome this limitation by means of compression or expansion of Doppler shifted frequency band. When the Doppler shifted frequency is compressed, the velocity range corresponding to Nyquist frequency band is higher than that of conventional technique. The principle and an example of the compression of Doppler shifted frequency band are shown here. The frequency of a single component Doppler signal can be compressed ideally in this technique without aliasing.
KW - Aliasing
KW - Doppler shifted frequency
KW - Extensive doppler signal
KW - Nyquist frequency
KW - Pulsed doppler signal
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U2 - 10.7567/JJAPS.31S1.125
DO - 10.7567/JJAPS.31S1.125
M3 - Article
AN - SCOPUS:84957268139
SN - 0021-4922
VL - 31
SP - 125
EP - 127
JO - Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
JF - Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
ER -