105 research outputs found
SeACo-Paraformer: A Non-Autoregressive ASR System with Flexible and Effective Hotword Customization Ability
Hotword customization is one of the important issues remained in ASR field -
it is of value to enable users of ASR systems to customize names of entities,
persons and other phrases. The past few years have seen both implicit and
explicit modeling strategies for ASR contextualization developed. While these
approaches have performed adequately, they still exhibit certain shortcomings
such as instability in effectiveness. In this paper we propose
Semantic-augmented Contextual-Paraformer (SeACo-Paraformer) a novel NAR based
ASR system with flexible and effective hotword customization ability. It
combines the accuracy of the AED-based model, the efficiency of the NAR model,
and the excellent performance in contextualization. In 50,000 hours industrial
big data experiments, our proposed model outperforms strong baselines in
customization and general ASR tasks. Besides, we explore an efficient way to
filter large scale incoming hotwords for further improvement. The source codes
and industrial models proposed and compared are all opened as well as two
hotword test sets.Comment: updated draf
Mechanical properties and deformation mechanisms of nanocrystalline u-10mo alloys by molecular dynamics simulation
U-Mo alloys were considered to be the most promising candidates for high-density nuclear fuel. The uniaxial tensile behavior of nanocrystalline U-10Mo alloys with average grain sizes of 8–23 nm was systematically studied by molecular dynamics (MD) simulation, mainly focusing on the influence of average grain size on the mechanical properties and deformation mechanisms. The results show that Young’s modulus, yield strength and ultimate tensile strength follow as average grain size increases. During the deformation process, localized phase transitions were observed in samples. Grain boundary sliding and grain rotation, as well as twinning, dominated the deformation in the smaller and larger grain sizes samples, respectively. Increased grain size led to greater localized shear deformation, resulting in greater stress drop. Additionally, we elucidated the effects of temperature and strain rate on tensile behavior and found that lower temperatures and higher strain rates not only facilitated the twinning tendency but also favored the occurrence of phase transitions in samples. Results from this research could provide guidance for the design and optimization of U-10Mo alloys materials
Generative Model Watermarking Based on Human Visual System
Intellectual property protection of deep neural networks is receiving
attention from more and more researchers, and the latest research applies model
watermarking to generative models for image processing. However, the existing
watermarking methods designed for generative models do not take into account
the effects of different channels of sample images on watermarking. As a
result, the watermarking performance is still limited. To tackle this problem,
in this paper, we first analyze the effects of embedding watermark information
on different channels. Then, based on the characteristics of human visual
system (HVS), we introduce two HVS-based generative model watermarking methods,
which are realized in RGB color space and YUV color space respectively. In RGB
color space, the watermark is embedded into the R and B channels based on the
fact that HVS is more sensitive to G channel. In YUV color space, the watermark
is embedded into the DCT domain of U and V channels based on the fact that HVS
is more sensitive to brightness changes. Experimental results demonstrate the
effectiveness of the proposed work, which improves the fidelity of the model to
be protected and has good universality compared with previous methods.Comment: https://scholar.google.com/citations?user=IdiF7M0AAAAJ&hl=e
LRRC8 family proteins within lysosomes regulate cellular osmoregulation and enhance cell survival to multiple physiological stresses
LRRC8 family proteins on the plasma membrane play a critical role in cellular osmoregulation by forming volume-regulated anion channels (VRACs) necessary to prevent necrotic cell death.We demonstrate that intracellular LRRC8 proteins acting within lysosomes also play an essential role in cellular osmoregulation. LRRC8 proteins on lysosome membranes generate large lysosomal volume-regulated anion channel (Lyso-VRAC) currents in response to low cytoplasmic ionic strength conditions. When a double-leucine L706L707 motif at the C terminus of LRRC8A was mutated to alanines, normal plasma membrane VRAC currents were still observed, but Lyso-VRAC currents were absent. We used this targeting mutant, as well as pharmacological tools, to demonstrate that Lyso-VRAC currents are necessary for the formation of large lysosome-derived vacuoles, which store and then expel excess water to maintain cytosolic water homeostasis. Thus, Lyso-VRACs allow lysosomes of mammalian cells to act as the cell`s “bladder.” When Lyso-VRAC current was selectively eliminated, the extent of necrotic cell death to sustained stress was greatly increased, not only in response to hypoosmotic stress, but also to hypoxic and hypothermic stresses. Thus Lyso-VRACs play an essential role in enabling cells to mount successful homeostatic responses to multiple stressors
Small-molecule activation of lysosomal TRP channels ameliorates Duchenne muscular dystrophy in mouse models
Duchenne muscular dystrophy (DMD) is a devastating disease caused by mutations in dystrophin that compromise sarcolemma integrity. Currently, there is no treatment for DMD. Mutations in transient receptor potential mucolipin 1 (ML1), a lysosomal Ca2+ channel required for lysosomal exocytosis, produce a DMD-like phenotype. Here, we show that transgenic overexpression or pharmacological activation of ML1 in vivo facilitates sarcolemma repair and alleviates the dystrophic phenotypes in both skeletal and cardiac muscles of mdx mice (a mouse model of DMD). Hallmark dystrophic features of DMD, including myofiber necrosis, central nucleation, fibrosis, elevated serum creatine kinase levels, reduced muscle force, impaired motor ability, and dilated cardiomyopathies, were all ameliorated by increasing ML1 activity. ML1-dependent activation of transcription factor EB (TFEB) corrects lysosomal insufficiency to diminish muscle damage. Hence, targeting lysosomal Ca2+ channels may represent a promising approach to treat DMD and related muscle diseases
Thermal Environment Analysis of a Scientific Laboratory using Computational Fluid Dynamics
University staff and students typically spend most of their time indoors. This paper evaluates the thermal environment of an air-conditioned scientific laboratory in a tertiary educational institution in Malaysia using Computational Fluid Dynamics (CFD). This computational technique has been used in analysing the indoor environments and has been found to be useful in aiding facilities management. A pilot survey was conducted to collect the required information such as indoor parameters and boundary conditions for the setting up of a CFD model of the laboratory. The model was then simulated based on the data obtained from field observations. Results indicate that the laboratory users sitting at different rows and work desks would experience different thermal sensations. The mean air temperature was below the recommended comfort zone specified in the local energy standard, but the air velocities were generally within the acceptable range. Based on the calculated predicted mean vote (PMV) and predicted percentage dissatisfied (PPD) indices, most of the users would be thermally uncomfortable, and a warmer environment was preferred. Recommendations were made to regulate the inlet air temperature of the laboratory to improve thermal comfort of laboratory users and for energy saving purposes
CivRealm: A Learning and Reasoning Odyssey in Civilization for Decision-Making Agents
The generalization of decision-making agents encompasses two fundamental
elements: learning from past experiences and reasoning in novel contexts.
However, the predominant emphasis in most interactive environments is on
learning, often at the expense of complexity in reasoning. In this paper, we
introduce CivRealm, an environment inspired by the Civilization game.
Civilization's profound alignment with human history and society necessitates
sophisticated learning, while its ever-changing situations demand strong
reasoning to generalize. Particularly, CivRealm sets up an
imperfect-information general-sum game with a changing number of players; it
presents a plethora of complex features, challenging the agent to deal with
open-ended stochastic environments that require diplomacy and negotiation
skills. Within CivRealm, we provide interfaces for two typical agent types:
tensor-based agents that focus on learning, and language-based agents that
emphasize reasoning. To catalyze further research, we present initial results
for both paradigms. The canonical RL-based agents exhibit reasonable
performance in mini-games, whereas both RL- and LLM-based agents struggle to
make substantial progress in the full game. Overall, CivRealm stands as a
unique learning and reasoning challenge for decision-making agents. The code is
available at https://github.com/bigai-ai/civrealm
An Updated Genome Assembly Improves Understanding of the Transcriptional Regulation of Coloration in Midas Cichlid
Midas cichlid (Amphilophus citrinellus), a popular aquarium fish, attracts extensive attention from worldwide biologists mainly due to its morphological polymorphism (dark versus gold). Continuous efforts have therefore been paid to address mechanisms of its coloration variants, while it is far away from the detailed illustration of a clear regulatory network. Some limits may come from the absence of a high-quality genome assembly and a relatively accurate gene set. In this study, we sequenced about 149 Gb of nucleotide sequences of Midas cichlid, generating a genome assembly with a total size of 933.5 Mb, which exhibits a good genome continuity with a contig N50 of 10.5 Mb. A total of 25,911 protein-coding genes were annotated and about 90% completeness was achieved, which helps to build a good gene pool for understanding expressional differences of color variation. With the assistance of the final gene set, we identified a total of 277 differential expressional genes (DEGs), of which 97 up- and 180 downregulated were determined in dark-vs-gold comparisons. Two protein-protein interaction (PPI) networks were constructed from these DEGs, and three key functional modules were classified. Hub genes within each module were evaluated, and we found that the third key module contains tyrp1b, oca2, pmela, tyr, and slc24a5, which were previously proven to be associated with melanin formation. Two downregulated DEGs (myl1 and pgam2) in the first key module may be involved in muscle movement and spermatogenesis, implying that certain side effects could result from the morphological polymorphism. The first key module, consisting of proteins encoded by upregulated DEGs that were associated with MAPK signaling, Toll-like receptor signaling, and gonadotropin-releasing hormone pathways, may contribute to a negative upstream regulation or downstream influence on melanin biosynthesis. Taken together, our new genome assembly and gene annotation of Midas cichlid provide a high-quality genetic resource for biological studies on this species, and the newly identified key networks and hub genes in dark-vs-gold comparisons enhance our understanding of the transcriptional regulatory mechanisms underlying coloration changes not only in Midas cichlid but also in other fishes from freshwater to marine ecosystems
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