SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1993775892> ?p ?o ?g. }

Showing items 1 to 100 of ±106 with 100 items per page.

W1993775892 abstract "Dual-frequency (DF) transmit waveforms comprise signals at two different frequencies. With a DF transmit waveform operating at both fundamental frequency (f(0)) and second-harmonic frequency (2f(0)), tissue harmonic imaging can be simultaneously performed using not only the conventional 2f(0) second-harmonic signal but also using the f(0 )frequency-difference harmonic signal. Nonetheless, when chirp excitation is incorporated into the DF transmit waveform for harmonic SNR improvement, a particular waveform design is required to maintain the bandwidth of the f(0) harmonic signal. In this study, two different DF chirp waveforms are proposed to produce equal harmonic bandwidth at both the f(0) and 2f(0) frequencies to achieve speckle reduction by harmonic spectral compounding and to increase harmonic SNR for enhanced penetration and sensitivity. The UU13 waveform comprises an up-sweeping f(0) chirp and an up-sweeping 2f(0) chirp with triple bandwidth, whereas the UD11 waveform includes an up-sweeping f(0) chirp and a down-sweeping 2f(0) chirp with equal bandwidth. Experimental results indicate that the UU13 tends to suffer from a high range side lobe level resulting from 3f(0) interference. Consequently, the 2f(0) harmonic envelopes of the UD11 and the UU13 waveforms have compression qualities of 87% and 77%, respectively, when the signal bandwidth is 30%. When the bandwidth increases to 50%, the compression quality of the 2f(0) harmonic envelope degrades to 78% and 54%, respectively, for the UD11 and the UU13 waveforms. The compression quality value of the f0 harmonic envelope remains similar between the two DF transmit waveforms for all signal bandwidths. B-mode harmonic images also show that the UD11 is less contaminated by range side lobe artifacts than is the UU13. Compared with a short pulse with equal bandwidth, the UD11 waveform not only preserves the same spatial resolution after compression but also improves the image SNR by about 10 dB. Moreover, the image contrast-to-noise ratio (CNR), defined as the ratio of the mean to the standard deviation of image intensity in the speckle region, can be increased from 1.0 to about 1.2 when DF spectral compounding is performed. Therefore, it is concluded that the UD11 waveform is a potential solution for chirp-encoded DF harmonic imaging." @default.
W1993775892 created "2016-06-24" @default.
W1993775892 creator A5060163030 @default.
W1993775892 creator A5032380133 @default.
W1993775892 date "2012-11-01" @default.
W1993775892 modified "2023-10-04" @default.
W1993775892 title "Chirp-encoded excitation for dual-frequency ultrasound tissue harmonic imaging" @default.
W1993775892 cites W1968558958 @default.
W1993775892 cites W2015133091 @default.
W1993775892 cites W2024443146 @default.
W1993775892 cites W2027862129 @default.
W1993775892 cites W2054908985 @default.
W1993775892 cites W2056744696 @default.
W1993775892 cites W2060660943 @default.
W1993775892 cites W2092528731 @default.
W1993775892 cites W2097940843 @default.
W1993775892 cites W2113166611 @default.
W1993775892 cites W2124190176 @default.
W1993775892 cites W2124963045 @default.
W1993775892 cites W2128920723 @default.
W1993775892 cites W2135912534 @default.
W1993775892 cites W2144931639 @default.
W1993775892 cites W2146969765 @default.
W1993775892 cites W2154635034 @default.
W1993775892 cites W2155623494 @default.
W1993775892 cites W2158576013 @default.
W1993775892 cites W2169515983 @default.
W1993775892 cites W1977337154 @default.
W1993775892 doi "https://doi.org/10.1109/tuffc.2012.2474" @default.
W1993775892 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23192805" @default.
W1993775892 hasPublicationYear "2012" @default.
W1993775892 type Work @default.
W1993775892 sameAs 1993775892 @default.
W1993775892 citedByCount "14" @default.
W1993775892 countsByYear W19937758922013 @default.
W1993775892 countsByYear W19937758922014 @default.
W1993775892 countsByYear W19937758922015 @default.
W1993775892 countsByYear W19937758922016 @default.
W1993775892 countsByYear W19937758922017 @default.
W1993775892 countsByYear W19937758922018 @default.
W1993775892 countsByYear W19937758922019 @default.
W1993775892 countsByYear W19937758922020 @default.
W1993775892 countsByYear W19937758922023 @default.
W1993775892 crossrefType "journal-article" @default.
W1993775892 hasAuthorship W1993775892A5032380133 @default.
W1993775892 hasAuthorship W1993775892A5060163030 @default.
W1993775892 hasConcept C10513763 @default.
W1993775892 hasConcept C120665830 @default.
W1993775892 hasConcept C121332964 @default.
W1993775892 hasConcept C127413603 @default.
W1993775892 hasConcept C127934551 @default.
W1993775892 hasConcept C132794960 @default.
W1993775892 hasConcept C164323173 @default.
W1993775892 hasConcept C197424946 @default.
W1993775892 hasConcept C24326235 @default.
W1993775892 hasConcept C24890656 @default.
W1993775892 hasConcept C2776257435 @default.
W1993775892 hasConcept C30713254 @default.
W1993775892 hasConcept C41008148 @default.
W1993775892 hasConcept C520434653 @default.
W1993775892 hasConcept C554190296 @default.
W1993775892 hasConcept C76155785 @default.
W1993775892 hasConceptScore W1993775892C10513763 @default.
W1993775892 hasConceptScore W1993775892C120665830 @default.
W1993775892 hasConceptScore W1993775892C121332964 @default.
W1993775892 hasConceptScore W1993775892C127413603 @default.
W1993775892 hasConceptScore W1993775892C127934551 @default.
W1993775892 hasConceptScore W1993775892C132794960 @default.
W1993775892 hasConceptScore W1993775892C164323173 @default.
W1993775892 hasConceptScore W1993775892C197424946 @default.
W1993775892 hasConceptScore W1993775892C24326235 @default.
W1993775892 hasConceptScore W1993775892C24890656 @default.
W1993775892 hasConceptScore W1993775892C2776257435 @default.
W1993775892 hasConceptScore W1993775892C30713254 @default.
W1993775892 hasConceptScore W1993775892C41008148 @default.
W1993775892 hasConceptScore W1993775892C520434653 @default.
W1993775892 hasConceptScore W1993775892C554190296 @default.
W1993775892 hasConceptScore W1993775892C76155785 @default.
W1993775892 hasLocation W19937758921 @default.
W1993775892 hasLocation W19937758922 @default.
W1993775892 hasOpenAccess W1993775892 @default.
W1993775892 hasPrimaryLocation W19937758921 @default.
W1993775892 hasRelatedWork W1979909927 @default.
W1993775892 hasRelatedWork W1994643432 @default.
W1993775892 hasRelatedWork W2007798778 @default.
W1993775892 hasRelatedWork W2013156184 @default.
W1993775892 hasRelatedWork W2037628105 @default.
W1993775892 hasRelatedWork W2037811554 @default.
W1993775892 hasRelatedWork W2067413287 @default.
W1993775892 hasRelatedWork W2081688864 @default.
W1993775892 hasRelatedWork W2104023851 @default.
W1993775892 hasRelatedWork W2105362837 @default.
W1993775892 hasRelatedWork W2106120459 @default.
W1993775892 hasRelatedWork W2151323167 @default.
W1993775892 hasRelatedWork W2168892589 @default.
W1993775892 hasRelatedWork W2536894715 @default.
W1993775892 hasRelatedWork W2539098557 @default.
W1993775892 hasRelatedWork W2547311988 @default.
W1993775892 hasRelatedWork W2547864052 @default.
W1993775892 hasRelatedWork W2893165993 @default.