A detection system for American English glides /w y r l/in a knowledge-based automatic speech recognition system is presented.The method uses detection of dips in band-limited energy to total energy ratios,instead of ...A detection system for American English glides /w y r l/in a knowledge-based automatic speech recognition system is presented.The method uses detection of dips in band-limited energy to total energy ratios,instead of detecting dips along the unmodified band-limited energy contours.By using band-limited energy ratio,the dip detection is applicable in not only intervocalic regions but also in non-intervocalic regions.A Gaussian mixture model(GMM)based classifier is then used to separate the detected vowels and nasals.This approach is tested using the TIMIT corpus and results in an overall detection rate of 69.5%,which is a 4.7% absolute increase in detection rate compared with an hidden Markov model(HMM)based phone recognizer.展开更多
Glycosylphosphatidylinositol-anchored sperm hyaluronidases have long been believed to assist in sperm penetration through the cumulus-oocyte complex(COC);however,their role in mammalian fertilization remains unclear.P...Glycosylphosphatidylinositol-anchored sperm hyaluronidases have long been believed to assist in sperm penetration through the cumulus-oocyte complex(COC);however,their role in mammalian fertilization remains unclear.Previously,we have shown that hyaluronidase 5(Hyal5)/Hyal7 double-knockout(dKO)mice produce significantly fewer offspring than their wild-type(WT)counterparts because of defective COC dispersal.Male infertility is mainly caused by a low sperm count.It can be further exacerbated by the deficiency of sperm hyaluronidase,which disperses the cumulus cells of the outer layer of the COC.In the current study,we evaluated the effects of a low count of Hyal-deficient sperm and conditions of ovulated oocytes on the fertilization rate using a mouse model.Our results demonstrated that a low sperm count further decreases the in vitro fertilization(IVF)rate of Hyal-deficient dKO spermatozoa.In addition,the dKO spermatozoa resulted in a fertilization rate of 12.5%upon fertilizing COCs with a thick cumulus layer,whereas the IVF rate was comparable to that of WT spermatozoa when oocytes with a thin or no cumulus layer were fertilized.Finally,we proved that the IVF rate of dKO spermatozoa could be recovered by adding rat spermatozoa as a source of sperm hyal.Our results suggest that a deficiency of proteins involved in fertilization,such as sperm hyal,has a vital role in fertilization.展开更多
Using Si-based anodes in Li-ion batteries is one of the most feasible approaches to achieve high energy densities despite their disadvantages, such as low conductivity and massive volume expansion, which cause unstabl...Using Si-based anodes in Li-ion batteries is one of the most feasible approaches to achieve high energy densities despite their disadvantages, such as low conductivity and massive volume expansion, which cause unstable solid electrolyte interphase layers with mechanical failure. The forefront in research and development to address the above challenges suggests the possibility of fully commercially viable cells using various structural and interfacial modifications. In particular, we present a discussion of each dimension of Si-based anodes in multiple controlled systems, including plain, hollow, porous, and uniquely engineered structures, which are further evaluated based on their anode performances, such as initial reversibility, capacity retention for extended cycles with its efficiency, degree of volume expansion tolerance, and rate capabilities, by several practical standards in half cells. With these practical considerations, multi-dimensional structures with uniform size distributions (micrometers, on average) are strongly desired to satisfy the rigorous requirements for widespread applications. Furthermore, we closely examined several full cells composed of Si-based multicomponent anodes coupled with suitable cathodes based on practical standards to propose future research directions for Si-based anodes to keep pace with the rapidly changing market demands for diverse energy storage systems.展开更多
基金The Ministry of Knowledge Economy,Korea,under the Infor mation Technology Research Center support program supervised by the National IT Industry Promotion Agency(NIPA-2012-H0301-12-2006)
文摘A detection system for American English glides /w y r l/in a knowledge-based automatic speech recognition system is presented.The method uses detection of dips in band-limited energy to total energy ratios,instead of detecting dips along the unmodified band-limited energy contours.By using band-limited energy ratio,the dip detection is applicable in not only intervocalic regions but also in non-intervocalic regions.A Gaussian mixture model(GMM)based classifier is then used to separate the detected vowels and nasals.This approach is tested using the TIMIT corpus and results in an overall detection rate of 69.5%,which is a 4.7% absolute increase in detection rate compared with an hidden Markov model(HMM)based phone recognizer.
基金supported by the KRIBB Research Initiative Program(KGM4252122)the National Research Foundation(2018M2A9Hl078340)the National Research Foundation of Korea Grant funded by the Korean Government(NRF-2020R111A3072358).
文摘Glycosylphosphatidylinositol-anchored sperm hyaluronidases have long been believed to assist in sperm penetration through the cumulus-oocyte complex(COC);however,their role in mammalian fertilization remains unclear.Previously,we have shown that hyaluronidase 5(Hyal5)/Hyal7 double-knockout(dKO)mice produce significantly fewer offspring than their wild-type(WT)counterparts because of defective COC dispersal.Male infertility is mainly caused by a low sperm count.It can be further exacerbated by the deficiency of sperm hyaluronidase,which disperses the cumulus cells of the outer layer of the COC.In the current study,we evaluated the effects of a low count of Hyal-deficient sperm and conditions of ovulated oocytes on the fertilization rate using a mouse model.Our results demonstrated that a low sperm count further decreases the in vitro fertilization(IVF)rate of Hyal-deficient dKO spermatozoa.In addition,the dKO spermatozoa resulted in a fertilization rate of 12.5%upon fertilizing COCs with a thick cumulus layer,whereas the IVF rate was comparable to that of WT spermatozoa when oocytes with a thin or no cumulus layer were fertilized.Finally,we proved that the IVF rate of dKO spermatozoa could be recovered by adding rat spermatozoa as a source of sperm hyal.Our results suggest that a deficiency of proteins involved in fertilization,such as sperm hyal,has a vital role in fertilization.
文摘Using Si-based anodes in Li-ion batteries is one of the most feasible approaches to achieve high energy densities despite their disadvantages, such as low conductivity and massive volume expansion, which cause unstable solid electrolyte interphase layers with mechanical failure. The forefront in research and development to address the above challenges suggests the possibility of fully commercially viable cells using various structural and interfacial modifications. In particular, we present a discussion of each dimension of Si-based anodes in multiple controlled systems, including plain, hollow, porous, and uniquely engineered structures, which are further evaluated based on their anode performances, such as initial reversibility, capacity retention for extended cycles with its efficiency, degree of volume expansion tolerance, and rate capabilities, by several practical standards in half cells. With these practical considerations, multi-dimensional structures with uniform size distributions (micrometers, on average) are strongly desired to satisfy the rigorous requirements for widespread applications. Furthermore, we closely examined several full cells composed of Si-based multicomponent anodes coupled with suitable cathodes based on practical standards to propose future research directions for Si-based anodes to keep pace with the rapidly changing market demands for diverse energy storage systems.