科研成果

2022
Liang K, Wang W, Lei X, Zeng H, Gong W, Lou C, Chen L. Odor-induced sound localization bias under unilateral intranasal trigeminal stimulation. Chemical Senses [Internet]. 2022;47. 访问链接Abstract
As a stereo odor cue, internostril odor influx could help us in many spatial tasks, including localization and navigation. Studies have also revealed that this benefit could be modulated by the asymmetric concentrations of both influxes (left nose vs right nose). The interaction between olfaction and vision, such as in object recognition and visual direction judgment, has been documented; however, little has been revealed about the impact of odor cues on sound localization. Here we adopted the ventriloquist paradigm in auditory-odor interactions and investigated sound localization with the concurrent unilateral odor influx. Specifically, we teased apart both the "nature" of the odors (pure olfactory stimulus vs. mixed olfactory/trigeminal stimulus) and the location of influx (left nose vs. right nose) and examined sound localization with the method of constant stimuli. Forty-one participants, who passed the Chinese Smell Identification Test, perceived sounds with different azimuths (0°, 5°, 10°, and 20° unilaterally deflected from the sagittal plane by head-related transfer function) and performed sound localization (leftward or rightward) tasks under concurrent, different unilateral odor influxes (10% v/v phenylethyl alcohol, PEA, as pure olfactory stimulus, 1% m/v menthol as mixed olfactory/trigeminal stimulus, and propylene glycol as the control). Meanwhile, they reported confidence levels of the judgments. Results suggested that unilateral PEA influx did not affect human sound localization judgments. However, unilateral menthol influx systematically biased the perceived sound localization, shifting toward the odor source. Our study provides evidence that unilateral odor influx could bias perceived sound localization only when the odor activates the trigeminal nerves.
Wu C-Y. "Of Wellbing or Savior? Emending the Herennia Announcement. The East Asian Journal of Classical Studies [Internet]. 2022;1:1-28. 访问链接Abstract
This paper discusses a widely accepted emendation to an earlier version of IG X 2.1 137. Early draft copies of the Herennia announcement show that Antoninus Pius was hailed as Σωτήρ by the city of Thessalonike, a rare epithet for this emperor. This reading was later replaced due to an expert’s claim that σωτῆρος has to be read σωτηρίας. Since this seems to conform to a well-known salutary formula, the emendation was adopted from then on. This paper suggests that the reading of σωτῆρος is based on reliable and published reports instead, and ought to be preferred over the expert claim. Empirical evidence is given to support reading σωτῆρος. 
Ma X, Tan Z, Lu K, Yang X, Chen X, Wang H, Chen S, Xin F, Li S, Li X, et al. OH and HO2 radical chemistry at a suburban site during the EXPLORE-YRD campaign in 2018. Atmospheric Chemistry and Physics. 2022;22:7005-7028.
Jia T, Yang E-Y, Hsiao Y-S, Cruz J, Brooks D, Wei G-Y, Reddi VJ. OMU: A probabilistic 3D occupancy mapping accelerator for real-time OctoMap at the edge, in Design, Automation and Test in Europe (DATE).; 2022.
Wu P, Li H, Deng Y, Hu W, Hu W, Dai Q, Dong Z, Sun J, Zhang R, Zhou X-H. On the Opportunity of Causal Learning in Recommendation Systems: Foundation, Estimation, Prediction and Challenges. IJCAI-ECAI2022 [Internet]. 2022. 访问链接Abstract
Recently, recommendation based on causal inference has gained much attention in the industrial community. The introduction of causal techniques into recommender systems (RS) has brought great development to this field and has gradually become a trend. However, a unified causal analysis framework has not been established yet. On one hand, the existing causal methods in RS lack a clear causal and mathematical formalization on the scientific questions of interest. Many confusions need to be clarified: what exactly is being estimated, for what purpose, in which scenario, by which technique, and under what plausible assumptions. On the other hand, technically speaking, the existence of various biases is the main obstacle to drawing causal conclusions from observed data. Yet, formal definitions of the biases in RS are still not clear. Both of the limitations greatly hinder the development of RS.In this paper, we attempt to give a causal analysis framework to accommodate different scenarios in RS, thereby providing a principled and rigorous operational guideline for causal recommendation. We first propose a step-by-step guideline on how to clarify and investigate problems in RS using causal concepts. Then, we provide a new taxonomy and give a formal definition of various biases in RS from the perspective of violating what assumptions are adopted in standard causal analysis. Finally, we find that many problems in RS can be well formalized into a few scenarios using the proposed causal analysis framework.
Bu T, Fang W, Ding J, Dai P, Yu Z*, Huang T. Optimal ANN-SNN Conversion for High-accuracy and Ultra-low-latency Spiking Neural Networks, in The Tenth International Conference on Learning Representations (ICLR).; 2022.Abstract
Spiking Neural Networks (SNNs) have gained great attraction due to their distinctive properties of low power consumption and fast inference on neuromorphic hardware. As the most effective method to get deep SNNs, ANN-SNN conversion has achieved comparable performance as ANNs on large-scale datasets. Despite this, it requires long time-steps to match the firing rates of SNNs to the activation of ANNs. As a result, the converted SNN suffers severe performance degradation problems with short time-steps, which hamper the practical application of SNNs. In this paper, we theoretically analyze ANN-SNN conversion error and derive the estimated activation function of SNNs. Then we propose the quantization clip-floor-shift activation function to replace the ReLU activation function in source ANNs, which can better approximate the activation function of SNNs. We prove that the expected conversion error between SNNs and ANNs is zero, enabling us to achieve high-accuracy and ultra-low-latency SNNs. We evaluate our method on CIFAR-10/100 and ImageNet datasets, and show that it outperforms the state-of-the-art ANN-SNN and directly trained SNNs in both accuracy and time-steps. To the best of our knowledge, this is the first time to explore high-performance ANN-SNN conversion with ultra-low latency (4 time-steps).
Hu Q, Li Q, Zhu S, Gu C, Liu S, HUANG R, Wu Y. Optimized IGZO FETs for Capacitorless DRAM with Retention of 10 ks at RT and 7 ks at 85° C at Zero V hold with Sub-10 ns Speed and 3-bit Operation, in 2022 International Electron Devices Meeting (IEDM). IEEE; 2022:26–6.
Bu T, Ding J, Yu Z*, Huang T. Optimized Potential Initialization for Low-latency Spiking Neural Networks, in Thirty-Sixth AAAI Conference on Artificial Intelligence (AAAI).; 2022.Abstract
Spiking Neural Networks (SNNs) have been attached great importance due to the distinctive properties of low power consumption,  biological plausibility, and adversarial robustness. The most effective way to train deep SNNs is through ANN-to-SNN conversion, which have yielded the best performance in deep network structure and large-scale datasets. However, there is a trade-off between accuracy and latency. In order to achieve high precision as original ANNs, a long simulation time is needed to match the firing rate of a spiking neuron with the activation value of an analog neuron, which impedes the practical application of SNN. In this paper, we aim to achieve high-performance converted SNNs with extremely low latency (fewer than 32 time-steps). We start by theoretically analyzing ANN-to-SNN conversion and show that scaling the thresholds does play a similar role as weight normalization. Instead of introducing constraints that facilitate ANN-to-SNN conversion at the cost of model capacity, we applied a more direct way by optimizing the initial membrane potential to reduce the conversion loss in each layer. Besides, we demonstrate that optimal initialization of membrane potentials can implement expected error-free ANN-to-SNN conversion. We evaluate our algorithm on the CIFAR-10, CIFAR-100 and ImageNet datasets and achieve state-of-the-art accuracy, using fewer time-steps. For example, we reach top-1 accuracy of 93.38% on CIFAR-10 with 16 time-steps. Moreover, our method can be applied to other ANN-SNN conversion methodologies and remarkably promote performance when the time-steps is small.
Wang L, Li X, Chen H, Liang Y, Xu Z, Liu J, Liu W, Qi J. Optimizing Co site electron structure by construction of heterogeneous interface for efficient sulfite activation on paracetamol removal. Journal of Environmental Chemical Engineering [Internet]. 2022;10:108660. 访问链接Abstract
Sulfite(S(IV))-induced advanced oxidation processes (AOPs) have great prospect in the field of removing organic pollutants, yet developing highly efficient sulfite activation systems and optimizing active sites for favorable catalytic processes are important but still challenging. Herein, we have achieved a composite catalyst with modulated Co electron structure for efficient AOPs by decorating Co(OH)2 on ultrathin graphitic carbon nitride (g-C3N4) nanosheet through an adjustable strategy, which exhibits high catalytic performance in S(IV) activation system. At optimal pH 9, 92% of paracetamol (APAP) (0.005 mM) is removed with the degradation rate constant of k1 = 0.193 min−1 within 30 min in presence of the composite material. The in-situ synthesis mode introduces strong heterogeneous interface interaction, resulting in directional electron transfer from cobalt hydroxide layer to g-C3N4 sheet revealed by X-ray photoelectron spectroscopy and density functional theory (DFT) calculations. The underlying activity enhanced mechanisms for APAP in S(IV) activation system using Co(OH)2/g-C3N4 are proposed: (i) The ultrathin g-C3N4 nanosheets provide more anchoring centers for generating small Co(OH)2 nanoparticles with abundant active sites which benefit to form metastable intermediates of Co(II)-SO3; (ii) The strong interface interaction induces charge redistribution between Co(OH)2 and g-C3N4 conformed by DFT calculation, which modulates the d-band center of Co site and strengthens the bind of Co(II)-SO3, thereby giving rise to radicals (•OH, SO4• and O2•) and nonradicals (1O2 and electron transfer) oxidation for highly-efficient removal APAP. Our work will pave the way to build an environmentally friendly strategy for emerging organic pollutant degradation in water through building efficient catalysts in sulfite activation system.
Ni X, Huang H, Brédas J-L. Organic Higher-Order Topological Insulators: Heterotriangulene-based Covalent Organic Frameworks. J. Am. Chem. Soc [Internet]. 2022;144(49):22778–22786. 访问链接
Liu M, Bu Y, Chen C, Xu J, Li D, Leng Y, Freeman RB, Meyer ET, Yoon W, Sung M, et al. Pandemics are catalysts of scientific novelty: Evidence from COVID-19. Journal of the Association for Information Science and Technology. 2022;73(8):1065-1078.
Zhao G, Hu M, Zhu W, Tan T, Shang D, Zheng J, Du Z, Guo S, Wu Z, Zeng L, et al. Parameterization of the ambient aerosol refractive index with source appointed chemical compositions. Science of the Total EnvironmentScience of the Total Environment. 2022;842.
Zhao G, Hu M*. Parameterization of the ambient aerosol refractive index with source appointed chemical compositions. SCIENCE OF THE TOTAL ENVIRONMENT [Internet]. 2022;842. 访问链接
Xie K. Partai Republik Indonesia: Communist exiles and their noncommunist approaches to anticolonialism. In: Experiments with Marxism-Leninism in Cold War Southeast Asia. Canberra: Australian National University (ANU) Press; 2022. pp. 165-196. 访问链接
Zong T, Wang H, Wu Z, Lu K, Wang Y, Zhu Y, Shang D, Fang X, Huang X, He L, et al. Particle hygroscopicity inhomogeneity and its impact on reactive uptake. Science of the Total EnvironmentScience of the Total Environment. 2022;811.
Iyer G, Ou Y, Edmonds J, Fawcett AA, Hultman N, McFarland J, Fuhrman J, Waldhoff S, McJeon H. The path to 1.5° C requires ratcheting of climate pledges. Nature Climate Change. 2022;12(12):1092-1093.
Ma X, Wang Y, Chu X, Ma L, Tang W, Zhao J, Yuan Y, Wang G. Patient health representation learning via correlational sparse prior of medical features. IEEE Transactions on Knowledge and Data Engineering. 2022;35:11769–11783.
Gao Q, Liu M, Peng L, Zhang Y, Shi Y, Teuwen DE, Yi H. Patient Satisfaction and Its Health Provider-related Determinants in Primary Health Facilities in Rural China. BMC Health Services Research [Internet]. 2022;946(22). 访问链接
Li J, Peng G, Xu X, Liang E, Sun W, Chen Q, Yao L. Per- and polyfluoroalkyl substances (PFASs) in groundwater from a contaminated site in the North China Plain: Occurrence, source apportionment, and health risk assessment. ChemosphereChemosphere. 2022;302.Abstract
Per-and polyfluoroalkyl substances (PFASs) are manmade chemicals that have wide industrial and commercial application. However, little research has been carried out on PFASs pollution in groundwater from a previously contaminated site. Here, we investigated 43 PFASs in a monitoring campaign from two different aquifers in the North China Plain. Our results revealed that total PFASs concentrations ( n-ary sumation 43PFASs) ranged from 0.22 to 3,776.76 ng/L, with no spatial or compositional differences. Moreover, perfluorooctanoic acid (PFOA) and perfluoroheptane sulfonate (PFHpS) were the dominant pollutants with mean concentrations of 177.33 ng/L and 51 ng/L, respectively. n-ary sumation 43PFAS decreased with well depth due to the adsorption of PFASs to the aquifer materials. Water temperature, total organic carbon, dissolved oxygen, and total phosphorus concentrations were correlated to the PFAS concentrations. Principal component analysis indicated that the main sources of PFASs in groundwater were untreated industrial discharge, untreated domestic wastewater, food packaging, aqueous film forming foams and metal plating, and surface runoff, which overlapped with the industries that previously existed in a nearby city. Human health risks from drinking contaminated groundwater were low to the local residents, with children aged 1-2 years being the most sensitive group. One specific site with a high PFOA concentration was of concern, as it was several orders higher than the 70 ng/L recommended by US Environmental Protection Agency health advisory. This study provided baseline data for PFASs in a previously contaminated site, which will help in the development of effective strategies for controlling PFASs pollution in the North China Plain.
Liu F, Dong Q, Nie C, Li Z, Zhang B, Han P, Yang W, Tong M. Peroxymonosulfate enhanced photocatalytic degradation of serial bisphenols by metal-free covalent organic frameworks under visible light irradiation: mechanisms, degradation pathway and DFT calculation. Chemical Engineering Journal. 2022;430:132833.

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