93 research outputs found
Non-autoregressive Machine Translation with Probabilistic Context-free Grammar
Non-autoregressive Transformer(NAT) significantly accelerates the inference
of neural machine translation. However, conventional NAT models suffer from
limited expression power and performance degradation compared to autoregressive
(AT) models due to the assumption of conditional independence among target
tokens. To address these limitations, we propose a novel approach called
PCFG-NAT, which leverages a specially designed Probabilistic Context-Free
Grammar (PCFG) to enhance the ability of NAT models to capture complex
dependencies among output tokens. Experimental results on major machine
translation benchmarks demonstrate that PCFG-NAT further narrows the gap in
translation quality between NAT and AT models. Moreover, PCFG-NAT facilitates a
deeper understanding of the generated sentences, addressing the lack of
satisfactory explainability in neural machine translation.Code is publicly
available at https://github.com/ictnlp/PCFG-NAT.Comment: NeurIPS 202
A Codesigned Compact Dual-Band Filtering Antenna with PIN Loaded for WLAN Applications
A codesigned compact dual-band filtering antenna incorporating a PIN diode for 2.45/5.2 GHz wireless local area network (WLAN) applications is proposed in this paper. The integrated filtering antenna system consists of a simple monopole radiator, a microstrip dual-band band-pass filter, and a PIN diode. The performance of the filtering antenna is notably promoted by optimizing the impedance between the antenna and the band-pass filter, with good selectivity and out-of-band rejection. The design process follows the approach of the synthesis of band-pass filter. In addition, the PIN diode is incorporated in the filtering antenna for further size reduction, which also widens the coverage of the bandwidth by about 230% for 2.4 GHz WLAN. With the presence of small size and good filtering performances, the proposed filtering antenna is a good candidate for the wireless communication systems. Prototypes of the proposed filtering antenna incorporating a PIN diode are fabricated and measured. The measured results including return losses and radiation patterns are presented
Diverse biological effects of glycosyltransferase genes from Tartary buckwheat
Background: Tartary buckwheat (Fagopyrum tataricum) is an edible cereal crop whose sprouts have been marketed and commercialized for their higher levels of anti-oxidants, including rutin and anthocyanin. UDP-glucose flavonoid glycosyltransferases (UFGTs) play an important role in the biosynthesis of flavonoids in plants. So far, few studies are available on UFGT genes that may play a role in tartary buckwheat flavonoids biosynthesis. Here, we report on the identification and functional characterization of seven UFGTs from tartary buckwheat that are potentially involved in flavonoid biosynthesis (and have varying effects on plant growth and development when overexpressed in Arabidopsis thaliana.)
Results: Phylogenetic analysis indicated that the potential function of the seven FtUFGT proteins, FtUFGT6, FtUFGT7, FtUFGT8, FtUFGT9, FtUFGT15, FtUFGT40, and FtUFGT41, could be divided into three Arabidopsis thaliana functional subgroups that are involved in flavonoid biosynthesis of and anthocyanin accumulation. A significant positive correlation between FtUFGT8 and FtUFGT15 expression and anthocyanin accumulation capacity was observed in the tartary buckwheat seedlings after cold stress. Overexpression in Arabidopsis thaliana showed that FtUFGT8, FtUFGT15, and FtUFGT41 significantly increased the anthocyanin content in transgenic plants. Unexpectedly, overexpression of FtUFGT6, while not leading to enhanced anthocyanin accumulation, significantly enhanced the growth yield of transgenic plants. When wild-type plants have only cotyledons, most of the transgenic plants of FtUFGT6 had grown true leaves. Moreover, the growth speed of the oxFtUFGT6 transgenic plant root was also significantly faster than that of the wild type. At later growth, FtUFGT6 transgenic plants showed larger leaves, earlier twitching times and more tillers than wild type, whereas FtUFGT15 showed opposite results.
Conclusions: Seven FtUFGTs were isolated from tartary buckwheat. FtUFGT8, FtUFGT15, and FtUFGT41 can significantly increase the accumulation of total anthocyanins in transgenic plants. Furthermore, overexpression of FtUFGT6 increased the overall yield of Arabidopsis transgenic plants at all growth stages. However, FtUFGT15 shows the opposite trend at later growth stage and delays the growth speed of plants. These results suggested that the biological function of FtUFGT genes in tartary buckwheat is diverse
Learning Domain-Aware Detection Head with Prompt Tuning
Domain adaptive object detection (DAOD) aims to generalize detectors trained
on an annotated source domain to an unlabelled target domain. However, existing
methods focus on reducing the domain bias of the detection backbone by
inferring a discriminative visual encoder, while ignoring the domain bias in
the detection head. Inspired by the high generalization of vision-language
models (VLMs), applying a VLM as the robust detection backbone following a
domain-aware detection head is a reasonable way to learn the discriminative
detector for each domain, rather than reducing the domain bias in traditional
methods. To achieve the above issue, we thus propose a novel DAOD framework
named Domain-Aware detection head with Prompt tuning (DA-Pro), which applies
the learnable domain-adaptive prompt to generate the dynamic detection head for
each domain. Formally, the domain-adaptive prompt consists of the
domain-invariant tokens, domain-specific tokens, and the domain-related textual
description along with the class label. Furthermore, two constraints between
the source and target domains are applied to ensure that the domain-adaptive
prompt can capture the domains-shared and domain-specific knowledge. A prompt
ensemble strategy is also proposed to reduce the effect of prompt disturbance.
Comprehensive experiments over multiple cross-domain adaptation tasks
demonstrate that using the domain-adaptive prompt can produce an effectively
domain-related detection head for boosting domain-adaptive object detection
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