Your search keyword '"Ling Cong"' showing total 1,440 results

1. Transmission of human-pet antibiotic resistance via aerosols in pet hospitals of Changchun

Author

Dao Mi Zhu, Ya Song Yan, Hao Wang, Yue Zhong, Inam, Yun Hang Gao, Gong Mei Li, Guo Dong Mu, Hui Feng Dong, Yuan Li, Ding Kuo Liu, Hong Xia Ma, and Ling Cong Kong

Subjects

PM2.5, Antibiotic-resistant bacteria, Antibiotic resistance gene, Dissemination, Aerosol, Cefotaxime, Medicine (General), R5-920

Abstract

In recent years, aerosols have been recognized as a prominent medium for the transmission of antibiotic-resistant bacteria and genes. Among these, particles with a particle size of 2 μm (PM2.5) can directly penetrate the alveoli. However, the presence of antibiotic-resistant genes in aerosols from pet hospitals and the potential risks posed by antibiotic-resistant bacteria in these aerosols to humans and animals need to be investigated. In this study, cefotaxime-resistant bacteria were collected from 5 representative pet hospitals in Changchun using a Six-Stage Andersen Cascade Impactor. The distribution of bacteria in each stage was analyzed, and bacteria from stage 5 and 6 were isolated and identified. Minimal inhibitory concentrations of isolates against 12 antimicrobials were determined using broth microdilution method. Quantitative Polymerase Chain Reaction was employed to detect resistance genes and mobile genetic elements that could facilitate resistance spread. The results indicated that ARBs were enriched in stage 5 (1.1–2.1 μm) and stage 3 (3.3–4.7 μm) of the sampler. A total of 159 isolates were collected from stage 5 and 6. Among these isolates, the genera Enterococcus spp. (51%), Staphylococcus spp. (19%), and Bacillus spp. (14%) were the most prevalent. The isolates exhibited the highest resistance to tetracycline and the lowest resistance to cefquinome. Furthermore, 56 (73%) isolates were multidrug-resistant. Quantitative PCR revealed the expression of 165 genes in these isolates, with mobile genetic elements showing the highest expression levels. In conclusion, PM2.5 from pet hospitals harbor a significant number of antibiotic-resistant bacteria and carry mobile genetic elements, posing a potential risk for alveolar infections and the dissemination of antibiotic resistance genes.

Published

2024

2. Identification and analysis of novel recessive alleles for Tan1 and Tan2 in sorghum

Author

Lixia Zhang, Chunyu Wang, Miao Yu, Ling Cong, Zhenxing Zhu, Bingru Chen, and Xiaochun Lu

Subjects

Sorghum bicolor, Tannins, New alleles, Distribution, Medicine, Biology (General), QH301-705.5

Abstract

Background The identification and analysis of allelic variation are important bases for crop diversity research, trait domestication and molecular marker development. Grain tannin content is a very important quality trait in sorghum. Higher tannin levels in sorghum grains are usually required when breeding varieties resistant to bird damage or those used for brewing liquor. Non-tannin-producing or low-tannin-producing sorghum accessions are commonly used for food and forage. Tan1 and Tan2, two important cloned genes, regulate tannin biosynthesis in sorghum, and mutations in one or two genes will result in low or no tannin content in sorghum grains. Even if sorghum accessions contain dominant Tan1 and Tan2, the tannin contents are distributed from low to high, and there must be other new alleles of the known regulatory genes or new unknown genes contributing to tannin production. Methods The two parents 8R306 and 8R191 did not have any known recessive alleles for Tan1 and Tan2, and it was speculated that they probably both had dominant Tan1 and Tan2 genotypes. However, the phenotypes of two parents were different; 8R306 had tannins and 8R191 had non-tannins in the grains, so these two parents were constructed as a RIL population. Bulked segregant analysis (BSA) was used to determine other new alleles of Tan1 and Tan2 or new Tannin locus. Tan1 and Tan2 full-length sequences and tannin contents were detected in wild sorghum resources, landraces and cultivars. Results We identified two novel recessive tan1-d and tan1-e alleles and four recessive Tan2 alleles, named as tan2-d, tan2-e, tan2-f, and tan2-g. These recessive alleles led to loss of function of Tan1 and Tan2, and low or no tannin content in sorghum grains. The loss-of-function alleles of tan1-e and tan2-e were only found in Chinese landraces, and other alleles were found in landraces and cultivars grown all around the world. tan1-a and tan1-b were detected in foreign landraces, Chinese cultivars and foreign cultivars, but not in Chinese landraces. Conclusion These results implied that Tan1 and Tan2 recessive alleles had different geographically distribution in the worldwide, but not all recessive alleles had been used in breeding. The discovery of these new alleles provided new germplasm resources for breeding sorghum cultivars for food and feed, and for developing molecular markers for low-tannin or non-tannin cultivar-assisted breeding in sorghum.

Published

2024

3. Antimicrobial resistance in E. Coli of animal origin and discovery of a novel ICE mobile element in Northeast China

Author

Dao mi Zhu, Qiang Ding, Peng hui Li, Yong liang Wang, Ya zhuo Li, Xuan yu Li, Gong mei Li, Hong xia Ma, and Ling cong Kong

Subjects

Novel ICE, Spread of antimicrobial resistance, Antimicrobial resistance genes, Antimicrobial resistance, E. Coli, Veterinary medicine, SF600-1100

Abstract

Abstract Background Multidrug resistance in Enterobacteriaceae including resistance to quinolones is rising worldwide. The development of resistance may lead to the emergence of new transmission mechanisms. In this study, the collection of different E. coli was performed from animals and subjected to subsequent procedures including pulsed-field gel electrophoresis, micro-broth dilution method, polymerase chain reaction. Whole genome sequencing of E. coli C3 was performed to detect the affinity, antimicrobial resistance and major carriers of the isolates. Results A total of 66 E. coli were isolated and their antibiotic resistance genes, frequency of horizontal transfer and genetic environment of E. coli C3 were determined. The results showed there were both different and same types in PFGE typing, indicating clonal transmission of E. coli among different animals. The detection of antimicrobial resistance and major antibiotic resistance genes and the plasmid transfer results showed that strains from different sources had high levels of resistance to commonly used clinical antibiotics and could be spread horizontally. Whole-genome sequencing discovered a novel ICE mobile element. Conclusion In summary, the antimicrobial resistance of E. coli in northeast China is a serious issue and there is a risk of antimicrobial resistance transmission. Meanwhile, a novel ICE mobile element appeared in the process of antimicrobial resistance formation.

Published

2023

4. Somatic embryogenesis from mature sorghum seeds: An underutilized genome editing recipient system

Author

Han Wu, Kuangye Zhang, Jia Li, Jiaxu Wang, Yanqiu Wang, Junchi Yu, Ling Cong, Youhou Duan, Fulai Ke, Fei Zhang, Zhiqiang Liu, Feng Lu, Zhipeng Zhang, Jianqiu Zou, and Kai Zhu

Subjects

Somatic embryogenesis, Regeneration, Sorghum, Seeds, Genome editing, Recipient, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Somatic embryogenesis is a process of cell totipotency in vitro, whereby an embryogenic cell develops from vegetative tissues rather than from zygotes after double fertilization. Sorghum is a recalcitrant crop in genetic transformation; previous recipient systems have usually been from immature zygotic embryos, which needed more time and labors to prepare. Here, an efficient 2,4-dichlorophenoxyacetic acid (2,4-D)-induced somatic embryogenesis system from mature sorghum seeds was introduced. 2,4-D can induce two types of calli from a plumular axis section. Low-concentration 2,4-D (e.g., 2 mg/L) induces white and loose non-embryogenic calli (type 1), while high-concentration 2,4-D (e.g., 8 mg/L) induces yellow and compact embryogenic calli (type 2), which can be clearly distinguished by Sudan red staining. Germinating seeds have a long 2-day window for SE induction. Somatic embryogenesis can be enhanced by HDAC inhibitor, trichostatin A (TSA), a histone deacetylase treatment, which shows more SE productivity and a bigger size. Importantly, this easily prepared protocol does not show obvious genotype dependency in sorghum hybrids. In this study, a high-concentration 2,4-D-induced SE system was established from mature sorghum seeds. This finding provides a technical option for the genome editing recipient in sorghum.

Published

2024

5. Rainfall characteristics significantly affect the scavenging of water-soluble ions attached to leaves

Author

Ling Cong, Shijun Zhou, Ying Liu, Zhenming Zhang, and Mingxiang Zhang

Subjects

Rainfall intensity, Rainfall duration, Water-soluble ions, Particulate matter, Leaf surface, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Precipitation is considered the most effective way to remove particulate matter from the leaves of plants. Changes in rainfall characteristics can affect the scavenging processes of particulate matter from leaves. In order to better understand the dynamics of PM scavenging during rainfall, especially the water-soluble ions components, leaves from the 11 plant species (trees, shrubs, terrestrial herbs, wetland plants) from the Olympic park were sampled and used in indoor experiments. During the experiments, the rainfall intensity was set at 30 mm/h, 45 mm/h, and 60 mm/h, and the duration was divided into 0–20 min, 20–40 min, and 40–60 min. The sampled plant leaves were set in the experiments at 1 m and 3 m height from the ground. Concentrations and compositions of nine water-soluble ions of rainfall samples were analyzed in this experiment. The results revealed that SO42-, Ca2+, and Na+ were the most abundant ionic species removed from the leaves, and NO3- ranked fourth, followed by Cl-, Mg2+ K+, NH4+, and F-. The ions concentration of rainfall samples decreased when the rain intensity increased from 30 to 45 mm/h and when the rain intensity increased to 60 mm/h. The efficiency of scavenging during different rainfall durations depends on the ionic species. Na+, Mg2+, Ca2+, and SO42- concentrations increased with the increase in rainfall duration, whereas those of NH4+, K+, and Cl- decreased. The effect of leaf height on ions concentration of rainfall samples was also different among the ionic species: Na+, Mg2+, Ca2+, NO3-, and F- concentrations were significantly higher at 1 m compared with 3 m. The principal component analysis of ions in rainfall samples revealed two main sources of particulate matter in our study. One is from vehicle exhaust and industrial and agricultural pollution. The other is agricultural combustion and ground dust sources. The results of the above study can provide a basis and theoretical support for the establishment of urban cleaning systems and the prevention of air pollution.

Published

2022

6. Consistency between deposition of particulate matter and its removal by rainfall from leaf surfaces in plant canopies

Author

Shijun Zhou, Ling Cong, Jiakai Liu, and Zhenming Zhang

Subjects

Particulate matter, Water-insoluble particulate matter, Water-soluble inorganic ions, Leaf surface, Canopy height, Rainfall process, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

The leaf surfaces of plants are important organs for retaining particulate matter (PM). They can be renewed via washout processes (e.g., rainfall), thereby restoring the ability to retain new PM. Most of the current studies have focused on the mechanisms of rainfall characteristics on the renewal of PM on plant leaf surfaces and interspecific differences, while the effects of different leaf heights on PM renewal within the same plant canopy have been less studied. In addition, the dynamics of PM during rainfall, especially the water-soluble ions (WSII) component, are often neglected. This research used Salix matsudana, a tree species with a significant natural height difference between the upper and lower leaves of its canopy, as its study object. Using artificially simulated rainfall, the rainfall intensity was quantified as low, medium, and high (i.e., 30 mm/h, 45 mm/h, and 60 mm/h), and the rainfall process was divided into three sub-stages: pre (0–20 min), mid (20–40 min), and post (40–60 min). The experimental setup was divided into upper (2 m) and lower leaves (1 m) according to the height of the canopy. The concentration and distribution of water-insoluble PM (WIPM) were obtained using the elution weighing method, whereas WSII were obtained using ion chromatography. The dynamics of WIPM and WSII during the removal of PM from the leaf surface by rainfall were studied at different canopy heights, and the results showed that the composition and proportions of WIPM and WSII varied at different stages of the rainfall process and that the concentrations of WIPM and WSII removed from the upper leaves differed slightly from those of the lower leaves. In particular, the concentrations of WIPM and WSII removed from the lower leaves were greater than those from the upper leaves at high rainfall intensity (60 mm/h), showing consistency between rainfall removal of PM from the leaf surface at different heights within the plant canopy and deposition of PM, while at low (30 mm/h) and medium (45 mm/h) rainfall intensities the performance was slightly different.

Published

2022

7. Identification of microRNAs involved in crosstalk between nitrogen, phosphorus and potassium under multiple nutrient deficiency in sorghum

Author

Zhenxing Zhu, Dan Li, Ling Cong, and Xiaochun Lu

Subjects

Sorghum, MicroRNA, Nitrogen, Phosphate, Potassium, Agriculture, Agriculture (General), S1-972

Abstract

Nitrogen (N), phosphorus (P), and potassium (K) are important for plant growth and development. MicroRNAs (miRNAs) play important roles in regulating plant response to nutrient (N, P, and K) deficiencies. Several miRNAs have been identified under nutrient deficiency conditions in many plant species. However, the manner in which miRNAs regulate the interaction between NPK signaling pathways under multiple nutrient deficiency remains largely unknown. We systematically compared and identified microRNAs involved in both single and triple NPK nutrient deficiency responses. We identified 32 shoot and 17 root miRNAs differentially expressed under potassium deficiency. Several NP starvation-associated miRNAs including miR169s and miR399s, were also regulated by K deficiency. Several identified miRNAs including miR5565c, miR5564, and miR1432 have not previously been associated with respectively N, P, and K deficiency (−N, −P, and −K). Expression correlation analysis between miRNAs and their predicted targets showed that miR169, miR172, and miR160 displayed expression trends exactly opposite to those of their corresponding predicted targets. Of 550 predicted novel miRNAs, novel_mir_42 was upregulated in shoots under −K but was downregulated under −N and −P. The effects of combined NPK starvation were not a simple addition of the individual stresses on sorghum seedlings. The identified common and specific differentially expressed miRNAs were observed under single and combined NPK deficiencies. These findings will help to further elucidate the functions of microRNAs and their interactions under multiple nutrient deficiency.

Published

2021

8. Rainfall intensity plays an important role in the removal of PM from the leaf surfaces

Author

Shijun Zhou, Ling Cong, Ying Liu, Lumeng Xie, Shiqiang Zhao, and Zhenming Zhang

Subjects

Rainfall intensity, Particulate matter, Leaf surface, Removal capacity, Artificial rainfall, Ecology, QH540-549.5

Abstract

Apparently, plant leaf surface particulate matter (PM) can be effectively removed by rainfall, leaving space on the leaf surface to adsorb and retain PM again. At present, most of the relevant studies adopt the method of artificial rainfall simulation to quantify rainfall characteristics in terms of rainfall intensity, and mostly focus on one category of plants. Studies of rainfall intensity on different categories of plants are lacking. Therefore, in this study, common urban greenery plants were classified into four categories, namely, trees, shrubs, herbs, and aquatic plants. Artificial rainfall was used and three different gradients of rainfall intensity, 30 mm/h, 45 mm/h and 60 mm/h, were set. The mass of per unit leaf area PM removal was calculated using the elution weighing method and the filter membrane method was used to classify the PM into three particle sizes: coarse (10–100-μm), fine (3–10-μm) and ultrafine (0.4–3-μm). It was devoted to investigating the differences in the effect of rainfall intensity on the removal of PM from the leaf surfaces of different categories of common urban greenery. The results showed that the removal of coarse particles by rainfall was the highest under different rainfall intensities. At the same time, the removal effects of rainfall on leaf surface PM of herbs were the highest under different rainfall intensity, while that of trees was the lowest. Among the same category of plants, Salix matsudana had better particle retention capacity among trees, Buxus sinica among shrubs, Poa pratensis among herbs, and Acorus calamus among aquatic plants. In addition, all tested plants had the highest mass of PM removed from leaf surface units at high rainfall intensity (60 mm/h). However, at a higher rainfall intensity (45 mm/h), the mass of PM on plant unit leaf surface removed was lower than the minimum rainfall intensity (30 mm/h). The results of the above study can provide a basis and theoretical support for the selection of species for urban green space restoration, as well as a reference for the establishment of urban cleaning systems from the perspective of the relationship between rainfall intensity and PM on plant leaf surfaces.

Published

2021

9. Smoothing Linear Codes by R\'enyi Divergence and Applications to Security Reduction

Author

Yan, Hao and Ling, Cong

Subjects

Computer Science - Information Theory

Abstract

The concept of the smoothing parameter plays a crucial role in both lattice-based and code-based cryptography, primarily due to its effectiveness in achieving nearly uniform distributions through the addition of noise. Recent research by Pathegama and Barg has determined the optimal smoothing bound for random codes under R\'enyi Divergence for any order $\alpha \in (1, \infty)$ \cite{pathegama2024r}. Considering the inherent complexity of encoding/decoding algorithms in random codes, our research introduces enhanced structural elements into these coding schemes. Specifically, this paper presents a novel derivation of the smoothing bound for random linear codes, maintaining the same order of R\'enyi Divergence and achieving optimality for any $\alpha\in (1,\infty)$. We extend this framework under KL Divergence by transitioning from random linear codes to random self-dual codes, and subsequently to random quasi-cyclic codes, incorporating progressively more structures. As an application, we derive an average-case to average-case reduction from the Learning Parity with Noise (LPN) problem to the average-case decoding problem. This reduction aligns with the parameter regime in \cite{debris2022worst}, but uniquely employs R\'enyi divergence and directly considers Bernoulli noise, instead of combining ball noise and Bernoulli noise.

Published

2024

10. On the quantization goodness of polar lattices

Author

Liu, Ling, Lyu, Shanxiang, Ling, Cong, and Bai, Baoming

Subjects

Computer Science - Information Theory

Abstract

In this work, we prove that polar lattices, when tailored for lossy compression, are quantization-good in the sense that their normalized second moments approach $\frac{1}{2\pi e}$ as the dimension of lattices increases. It has been predicted by Zamir et al. \cite{ZamirQZ96} that the Entropy Coded Dithered Quantization (ECDQ) system using quantization-good lattices can achieve the rate-distortion bound of i.i.d. Gaussian sources. In our previous work \cite{LingQZ}, we established that polar lattices are indeed capable of attaining the same objective. It is reasonable to conjecture that polar lattices also demonstrate quantization goodness in the context of lossy compression. This study confirms this hypothesis., Comment: 12 pages, 5 figures, submitted to IEEE for possible publication

Published

2024

11. Decomposition and nutrient dynamics responses of plant litter to interactive effects of flooding and salinity in Yellow River Delta wetland in northeastern China

Author

Jiexiu Zhai, James T. Anderson, Guoxin Yan, Ling Cong, Yanan Wu, Liyi Dai, Jiakai Liu, and Zhenming Zhang

Subjects

Litter decomposition rate, Estuarine wetland, Salinity, Inundation, Litter quality, Ecology, QH540-549.5

Abstract

The main factors controlling plant litter decomposition rates are litter quality and environmental factors. We investigated how different salinity and inundation conditions influence the decomposition rate and how litter quality affects dynamic change during the decomposition process in the Yellow River Delta wetland in northeastern China. To do this, we designed a field experiment using the litter bag method to study two selected dominant halophyte species (Phragmites australis and Suaeda salsa). We found litter decomposed faster when inundated across a range of salinities. Both the water chemical oxygen demand and NH3-N concentration were inversely correlated with salinity. The ratio of nitrogen to phosphorous showed an upward trend during the process of decomposition. The decomposition rate increased during the later stage of the process. Under inundation conditions, the decomposition rate of only S. salsa showed a positive correlation with salinity. The study results suggest that moderately higher salinity would increase anaerobic decomposition owing to the combined effect of salinity and inundation. The implications of our findings may be used to further assess the impact of environmental parameters and litter quality on the decomposition rate in estuarine wetland and can help determine a strategy for wetland reparation and remediation.

Published

2021

12. Three-Dimensional Location of the Facial Artery in Relation to the Nasolabial Fold in Asian People: A Cadaveric CTA Study

Author

Peng, Tong, Yu, Hao, Hong, Wei-Jin, Zhou, Ling-Cong, Luo, Cheng-En, and Luo, Sheng-Kang

Published

2024

13. Understanding PM2.5 concentration and removal efficiency variation in urban forest park—Observation at human breathing height

Author

Guoxin Yan, Zibo Yu, Yanan Wu, Jiakai Liu, Yu Wang, Jiexiu Zhai, Ling Cong, and Zhenming Zhang

Subjects

Forest, PM2.5, Near the surface, Meteorological factors, Removal efficiency, Medicine, Biology (General), QH301-705.5

Abstract

To increase our knowledge of PM2.5 concentrations near the surface in a forest park in Beijing, an observational study measured the concentration and composition of PM2.5 in Beijing Olympic Forest Park from 2014 to 2015. This study analyzed the meteorological factors and removal efficiency at 1.5 m above the ground (human breathing height) over the day in the forest. The results showed that the average concentrations of PM2.5 near the surface peaked at 07:00–09:30 and reached their lowest at 12:00–15:00. Besides, the results showed that the annual concentration of PM2.5 in the forest was highest during winter, followed by spring and fall, and was lowest during summer. The main chemical components of PM2.5 near the surface in the forest were SO42− and NO3−, which accounted for 68.72% of all water-soluble ions that we observed. The concentration of PM2.5 in the forest had a significant positive correlation with relative humidity and a significant negative correlation with temperature. The removal efficiency near the surface showed no significant variation through the day or year. In the forest, the highest removal efficiency occurred between 07:00 and 09:30 in summer, while the lowest occurred between 09:30 and 12:00 in winter.

Published

2020

14. Multilevel lattice codes from Hurwitz quaternion integers

Author

Souza, Juliana G. F., Costa, Sueli I. R., and Ling, Cong

Subjects

Computer Science - Information Theory

Abstract

This work presents an extension of the Construction $\pi_A$ lattices proposed in \cite{huang2017construction}, to Hurwitz quaternion integers. This construction is provided by using an isomorphism from a version of the Chinese remainder theorem applied to maximal orders in contrast to natural orders in prior works. Exploiting this map, we analyze the performance of the resulting multilevel lattice codes, highlight via computer simulations their notably reduced computational complexity provided by the multistage decoding. Moreover it is shown that this construction effectively attain the Poltyrev-limit.

Published

2024

15. On the Spinor Genus and the Distinguishing Lattice Isomorphism Problem

Author

Ling, Cong, Liu, Jingbo, Mendelsohn, Andrew, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Chung, Kai-Min, editor, and Sasaki, Yu, editor

Published

2025

16. Lead isotope trends and sources in the atmosphere at the artificial wetland

Author

Ling Cong, Jiexiu Zhai, Guoxin Yan, Jiakai Liu, Yanan Wu, Yu Wang, Zhenming Zhang, and Mingxiang Zhang

Subjects

Total suspended particulate matter, Lead concentration, Lead isotope ratio, EF values, Artificial wetland, Medicine, Biology (General), QH301-705.5

Abstract

With the rapid development of industry, studies on lead pollution in total suspended particulate matter (TSP) have received extensive attention. This paper analyzed the concentration and pollution sources of lead in the Cuihu Wetland in Beijing during the period of 2016–2017. The results show that the lead contents in TSP in the Cuihu Wetland were approximately equal in summer and spring, greater in winter, and greatest in autumn. The corresponding lead concentrations were 0.052, 0.053, 0.101, and 0.115 ng/m3, respectively. We compared the 206Pb/207Pb data with other materials to further understand the potential sources of atmospheric lead. The mean values of 206Pb/207Pb from spring to winter were 1.082, 1.098, 1.092, and 1.078, respectively. We found that the lead sources may be associated with coal burning, brake and tire wear, and vehicle exhaust emissions. We also calculated the enrichment factor values for the four seasons, and the values were all much greater than 10, indicating that the lead pollution is closely related to human activities.

Published

2019

17. Enhancing intraneural revascularization following peripheral nerve injury through hypoxic Schwann-cell-derived exosomes: an insight into endothelial glycolysis

Author

Sun, Jun, Zeng, Qiuhua, Wu, Zhimin, Li, Zhangyu, Gao, Qun, Liao, Zhi, Li, Hao, Ling, Cong, Chen, Chuan, Wang, Hui, and Zhang, Baoyu

Published

2024

18. Sabina chinensis and Liriodendron chinense improve air quality in Beijing, China.

Author

Yanan Wu, Wenmei Ma, Jiakai Liu, Lijuan Zhu, Ling Cong, Jiexiu Zhai, Yu Wang, and Zhenming Zhang

Subjects

Medicine, Science

Abstract

Urban forests have been shown to be efficient for reducing air pollutants especially for particulate matters (PMs). This study aims to reveal the PM blocking capacity of two common artificial landscape species, Sabina chinensis and Liriodendron chinense and to investigate spatial-temporal heterogeneities by estimating the vegetation collection velocity of coarse (PM10) and fine particles (PM2.5) during different seasons and heights. PM concentration and meteorological data were collected on both leeward and windward sides of trees during the daytime in both summers and winters from 2013 to 2015. Concentration and meteorological monitors were installed at three heights, bottom (1.5 m), middle (3.5 m), and top (5.5 m) of the canopy. The results showed: During daytime, the collection velocity changed and PM2.5 collection velocity was much higher than that of PM10. Furthermore, the maximum collection velocities of L. chinense and S. chinensis occurred at 14:00-16:00 both in summer and winter. Moreover, the collection velocity had a positive correlation with wind speed and temperature. The blocking capacities of L. chinense and S. chinensis varied from season to season, and the concentrations of particulate matter indicate the middle canopy of both species as the most effective part for TSP blocking. Furthermore, these two species are more effective blocking in PM2.5 than PM10. The blocking capacity of S. chinensis is generally better. The vegetation collection is the major process of PM removal near the ground and sedimentation was not taken into consideration near the ground.

Published

2018

19. Comparison of dry and wet deposition of particulate matter in near-surface waters during summer.

Author

Yanan Wu, Jiakai Liu, Jiexiu Zhai, Ling Cong, Yu Wang, Wenmei Ma, Zhenming Zhang, and Chunyi Li

Subjects

Medicine, Science

Abstract

Atmospheric particulate matter (PM) deposition which involves both dry and wet processes is an important means of controlling air pollution. To investigate the characteristics of dry and wet deposition in wetlands, PM concentrations and meteorological conditions were monitored during summer at heights of 1.5 m, 6 m and 10 m above ground level at Cuihu Wetland (Beijing, China) in order to assess the efficiency of PM2.5 (particles with an aerodynamic size of 6 m (0.007 ± 0.003 μg·m-2·s-1) > 1.5 m (0.005 ± 0.002 μg·m-2·s-1). And the following deposition fluxes for PM10 were recorded: 10 m (2.163 ± 2.941 μg·m-2·s-1) > 1.5 m (1.565 ± 0.872 μg·m-2·s-1) > 6 m (0.987 ± 0.595 μg·m-2·s-1). In the case of wet deposition, the relative deposition fluxes for PM2.5 and PM10 were 1.5 m > 10 m > 6 m, i.e. there was very little difference between the fluxes for PM2.5 (0.688 ± 0.069 μg·m-2·s-1) and for PM10 (0.904 ± 0.103 μg·m-2·s-1). It was also noted that rainfall intensity and PM diameter influenced wet deposition efficiency. Dry deposition (63%) was more tilted towards removing PM10 than was the case for wet deposition (37%). In terms of PM2.5 removal, wet deposition (92%) was found to be more efficient.

Published

2018

20. PAC Codes for Source and Joint Source-Channel Coding

Author

Zheng, Mengfan and Ling, Cong

Subjects

Computer Science - Information Theory

Abstract

Polarization-adjusted convolutional (PAC) codes, as a concatenated coding scheme based on polar codes, is able to approach the finite-length bound of binary-input AWGN channel at short blocklengths. In this paper, we extend PAC codes to the fields of source coding and joint source-channel coding and show that they can also approach the corresponding finite-length bounds at short blocklengths., Comment: 6 pages, 6 figures. Submitted to GC 2023 Workshop - Channel Coding Beyond 5G

Published

2023

21. Finding Short Vectors in Structured Lattices with Reduced Quantum Resources

Author

Schirman, Eden, Ling, Cong, and Mintert, Florian

Subjects

Quantum Physics

Abstract

Leading protocols of post-quantum cryptosystems are based on the mathematical problem of finding short vectors in structured lattices. It is assumed that the structure of these lattices does not give an advantage for quantum and classical algorithms attempting to find short vectors. In this work we focus on cyclic and nega-cyclic lattices and give a quantum algorithmic framework of how to exploit the symmetries underlying these lattices. This framework leads to a significant saving in the quantum resources (e.g. qubits count and circuit depth) required for implementing a quantum algorithm attempting to find short vectors. We benchmark the proposed framework with the variational quantum eigensolver, and show that it leads to better results while reducing the qubits count and the circuit depth. The framework is also applicable to classical algorithms aimed at finding short vectors in structured lattices, and in this regard it could be seen as a quantum-inspired approach.

Published

2023

22. The Safety of Injections in the Infraorbital Region

Author

Zhou, Ling-cong, Dong, Yun-xian, Cao, Mi-bu, Li, Jun-yu, Peng, Tong, Zhang, Si-yi, Zhou, Yang-wu, Shu, Hai-ning, and Luo, Sheng-kang

Published

2024

23. Clinical Relevance of the Variability of the Infraorbital Arterial Anatomy Evaluated by Three-Dimensional Computed Tomography

Author

Zhou, Ling-cong, Cao, Mi-bu, Peng, Tong, Yu, Hao, Li, Jun-yu, Zeng, Mai-qiu, Li, Ting, and Luo, Sheng-kang

Published

2024

24. Lattice codes for lattice-based PKE

Author

Lyu, Shanxiang, Liu, Ling, Ling, Cong, Lai, Junzuo, and Chen, Hao

Published

2024

25. Quantum algorithmic solutions to the shortest vector problem on simulated coherent Ising machines

Author

Dable-Heath, Edmund, Casas, Laura, Porter, Christian, Mintert, Florian, and Ling, Cong

Subjects

Quantum Physics

Abstract

Quantum computing poses a threat to contemporary cryptosystems, with advances to a state in which it will cause problems predicted for the next few decades. Many of the proposed cryptosystems designed to be quantum-secure are based on the Shortest Vector Problem and related problems. In this paper we use the Quadratic Unconstrained Binary Optimisation formulation of the Shortest Vector Problem implemented as a quantum Ising model on a simulated Coherent Ising Machine, showing progress towards solving SVP for three variants of the algorithm., Comment: 15 pages

Published

2023

26. A new bound for the orthogonality defect of HKZ reduced lattices

Author

Porter, Christian, Dable-Heath, Edmund, and Ling, Cong

Published

2024

27. Spatiotemporal Characteristics of Particulate Matter and Dry Deposition Flux in the Cuihu Wetland of Beijing.

Author

Lijuan Zhu, Jiakai Liu, Ling Cong, Wenmei Ma, Wu Ma, and Zhenming Zhang

Subjects

Medicine, Science

Abstract

In recent years, the rapid development of industrialization and urbanization has caused serious environmental pollution, especially particulate pollution. As the "Earth's kidneys," wetland plays a significant role in improving the environmental quality and adjusting the climate. To study how wetlands work in this aspect, from the early autumn of 2014 to 2015, we implemented a study to measure the PM concentration and chemical composition at three heights (1.5, 6, and 10 m) during different periods (dry, normal water, and wet periods) in the Cuihu wetland park in Beijing for analyzing the dry deposition flux and the effect of meteorological factors on the concentration. Results indicated that (1) the diurnal variations of the PM2.5 and PM10 concentrations at the three heights were similar in that the highest concentration occurred at night and the lowest occurred at noon, and the daytime concentration was lower than that at night; (2) the PM2.5 and PM10 concentrations also varied between different periods that wet period > normal water period > wet period, and the concentration at different heights during different periods varied. In general, the lowest concentration occurred at 10 m during the dry and normal water periods, and the highest concentration occurred at 1.5 m during the wet period. (3) SO42-, NO3-, and Cl- are the dominant constituents of PM2.5, accounting for 42.22, 12.6, and 21.56%, respectively; (4) the dry depositions of PM2.5 and PM10 at 10 m were higher than those at 6 m, and the deposition during the dry period was higher than those during the wet and normal water periods. In addition, the deposition during the night-time was higher than that during the daytime. Moreover, meteorological factors affected the deposition, the temperature and wind speed being negatively correlated with the deposition flux and the humidity being positively correlated. (5) The PM10 and PM2.5 concentrations were influenced by meteorological factors. The PM2.5 and PM10 concentrations were negatively correlated with temperature and wind speed but positively correlated with relative humidity.

Published

2016

28. Middle-Products of Skew Polynomials and Learning with Errors

Author

Ling, Cong, Mendelsohn, Andrew, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, and Quaglia, Elizabeth A., editor

Published

2024

29. Morphological Aesthetics Assessment of the Predicted 3D Simulation Results and the Actual Results of Breast Augmentation

Author

Zhou, Ling-cong, Hong, Wei-Jin, Cao, Mi-bu, Zeng, Li, Peng, Tong, Li, Xin-rui, Zhu, Guo-sheng, and Luo, Sheng-kang

Published

2024

30. Lattice Codes for Lattice-Based PKE

Author

Lyu, Shanxiang, Liu, Ling, Ling, Cong, Lai, Junzuo, and Chen, Hao

Subjects

Computer Science - Information Theory, Computer Science - Cryptography and Security

Abstract

Existing error correction mechanisms in lattice-based public key encryption (PKE) rely on either naive modulation or its concatenation with error correction codes (ECC). This paper shows that lattice coding, as a joint ECC and modulation technique, can substitute the naive modulation in existing lattice-based PKEs to enjoy better correction performance. We begin by modeling the FrodoPKE protocol as a noisy point-to-point communication system, where the communication channel is similar to the additive white Gaussian noise (AWGN) channel. To employ lattice codes for this special channel that hinges on hypercube shaping, we propose an efficient labeling function that converts between binary information bits and lattice codewords. The parameter sets of FrodoPKE are improved towards either higher security levels or smaller ciphertext sizes. For example, the proposed Frodo-1344-E$_\text{8}$ has a 10-bit classical security gain over Frodo-1344.

Published

2022

31. Wang Algebra: From Theory to Practice

Author

Ross, Bob and Ling, Cong

Subjects

Mathematics - History and Overview, Mathematics - Rings and Algebras

Abstract

Wang algebra was initiated by Ki-Tung Wang as a short-cut method for the analysis of electrical networks. It was later popularized by Duffin and has since found numerous applications in electrical engineering and graph theory. This is a semi-tutorial paper on Wang algebra, its history, and modern applications. We expand Duffin's historic notes on Wang algebra to give a full account of Ki-Tung Wang's life. A short proof of Wang algebra using group theory is presented. We exemplify the usefulness of Wang algebra in the design of T-coils. Bridged T-coils give a significant advantage in bandwidth, and were widely adopted in Tektronix oscilloscopes, but design details were guarded as a trade secret. The derivation presented in this paper, based on Wang algebra, is more general and simpler than those reported in literature. This novel derivation has not been shared with the public before., Comment: A story how Wang's algebra went from 1930s Shanghai to UC Berkeley classroom to Tektronix's high-tech oscilloscopes

Published

2022

32. Algorithms and Bounds for Complex and Quaternionic Lattices With Application to MIMO Transmission

Author

Stern, Sebastian, Ling, Cong, and Fischer, Robert F. H.

Subjects

Computer Science - Information Theory

Abstract

Lattices are a popular field of study in mathematical research, but also in more practical areas like cryptology or multiple-input/multiple-output (MIMO) transmission. In mathematical theory, most often lattices over real numbers are considered. However, in communications, complex-valued processing is usually of interest. Besides, by the use of dual-polarized transmission as well as by the combination of two time slots or frequencies, four-dimensional (quaternion-valued) approaches become more and more important. Hence, to account for this fact, well-known lattice algorithms and related concepts are generalized in this work. To this end, a brief review of complex arithmetic, including the sets of Gaussian and Eisenstein integers, and an introduction to quaternion-valued numbers, including the sets of Lipschitz and Hurwitz integers, are given. On that basis, generalized variants of two important algorithms are derived: first, of the polynomial-time LLL algorithm, resulting in a reduced basis of a lattice by performing a special variant of the Euclidean algorithm defined for matrices, and second, of an algorithm to calculate the successive minima - the norms of the shortest independent vectors of a lattice - and its related lattice points. Generalized bounds for the quality of the particular results are established and the asymptotic complexities of the algorithms are assessed. These findings are extensively compared to conventional real-valued processing. It is shown that the generalized approaches outperform their real-valued counterparts in complexity and/or quality aspects. Moreover, the application of the generalized algorithms to MIMO communications is studied, particularly in the field of lattice-reduction-aided and integer-forcing equalization.

Published

2022

33. A New Bound for the Orthogonality Defect of HKZ Reduced Lattices

Author

Porter, Christian, Dable-Heath, Edmund, and Ling, Cong

Subjects

Mathematics - Number Theory, Computer Science - Cryptography and Security

Abstract

In this work, we determine a sharp upper bound on the orthogonality defect of HKZ reduced bases up to dimension $3$. Using this result, we determine a general upper bound for the orthogonality defect of HKZ reduced bases of arbitrary rank. This upper bound seems to be sharper than existing bounds in literature, such as the one determined by Lagarias, Lenstra and Schnorr., Comment: 9 pages

Published

2022

34. Unit Reducible Fields and Perfect Unary Forms

Author

Leibak, Alar, Porter, Christian, and Ling, Cong

Subjects

Mathematics - Number Theory, Mathematics - Commutative Algebra

Abstract

In this paper, we introduce the notion of unit reducibility for number fields, that is, number fields in which all positive unary forms attain their nonzero minimum at a unit. Furthermore, we investigate the link between unit reducibility and the number of homothety classes of perfect unary forms for a given number field, and prove an open conjecture about the number of classes of perfect unary forms in real quadratic fields, stated by D. Yasaki., Comment: 23 pages including appendix

Published

2022

35. Optimal rate-limited secret key generation from Gaussian sources using lattices

Author

Luzzi, Laura, Ling, Cong, and Bloch, Matthieu R.

Subjects

Computer Science - Information Theory

Abstract

We propose a lattice-based scheme for secret key generation from Gaussian sources in the presence of an eavesdropper, and show that it achieves the strong secret key capacity in the case of degraded source models, as well as the optimal secret key / public communication rate trade-off. The key ingredients of our scheme are the use of the modulo lattice operation to extract the channel intrinsic randomness, based on the notion of flatness factor, together with a randomized lattice quantization technique to quantize the continuous source. Compared to previous works, we introduce two new notions of flatness factor based on $L^1$ distance and KL divergence, respectively, which might be of independent interest. We prove the existence of secrecy-good lattices under $L^1$ distance and KL divergence, whose $L^1$ and KL flatness factors vanish for volume-to-noise ratios up to $2\pi e$. This improves upon the volume-to-noise ratio threshold $2\pi$ of the $L^{\infty}$ flatness factor., Comment: 17 pages, 3 figures, accepted for publication in IEEE Trans. Inf. Theory

Published

2022

36. Model-based Deep Learning Receiver Design for Rate-Splitting Multiple Access

Author

Loli, Rafael Cerna, Dizdar, Onur, Clerckx, Bruno, and Ling, Cong

Subjects

Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning

Abstract

Effective and adaptive interference management is required in next generation wireless communication systems. To address this challenge, Rate-Splitting Multiple Access (RSMA), relying on multi-antenna rate-splitting (RS) at the transmitter and successive interference cancellation (SIC) at the receivers, has been intensively studied in recent years, albeit mostly under the assumption of perfect Channel State Information at the Receiver (CSIR) and ideal capacity-achieving modulation and coding schemes. To assess its practical performance, benefits, and limits under more realistic conditions, this work proposes a novel design for a practical RSMA receiver based on model-based deep learning (MBDL) methods, which aims to unite the simple structure of the conventional SIC receiver and the robustness and model agnosticism of deep learning techniques. The MBDL receiver is evaluated in terms of uncoded Symbol Error Rate (SER), throughput performance through Link-Level Simulations (LLS), and average training overhead. Also, a comparison with the SIC receiver, with perfect and imperfect CSIR, is given. Results reveal that the MBDL receiver outperforms by a significant margin the SIC receiver with imperfect CSIR, due to its ability to generate on demand non-linear symbol detection boundaries in a pure data-driven manner.

Published

2022

37. Iterative Quantum Optimization with Adaptive Problem Hamiltonian

Author

Zhu, Yifeng Rocky, Joseph, David, Ling, Cong, and Mintert, Florian

Subjects

Quantum Physics

Abstract

Quantum optimization algorithms hold the promise of solving classically hard, discrete optimization problems in practice. The requirement of encoding such problems in a Hamiltonian realized with a finite -- and currently small -- number of qubits, however, poses the risk of finding only the optimum within the restricted space supported by this Hamiltonian. We describe an iterative algorithm in which a solution obtained with such a restricted problem Hamiltonian is used to define a new problem Hamiltonian that is better suited than the previous one. In numerical examples of the shortest vector problem, we show that the algorithm with a sequence of improved problem Hamiltonians converges to the desired solution., Comment: 6 pages, 4 figures

Published

2022

38. Better Lattice Quantizers Constructed from Complex Integers

Author

Lyu, Shanxiang, Wang, Zheng, Ling, Cong, and Chen, Hao

Subjects

Computer Science - Information Theory

Abstract

This paper investigates low-dimensional quantizers from the perspective of complex lattices. We adopt Eisenstein integers and Gaussian integers to define checkerboard lattices $\mathcal{E}_{m}$ and $\mathcal{G}_{m}$. By explicitly linking their lattice bases to various forms of $\mathcal{E}_{m}$ and $\mathcal{G}_{m}$ cosets, we discover the $\mathcal{E}_{m,2}^+$ lattices, based on which we report the best known lattice quantizers in dimensions $14$, $15$, $18$, $19$, $22$ and $23$. Fast quantization algorithms of the generalized checkerboard lattices are proposed to enable evaluating the normalized second moment (NSM) through Monte Carlo integration., Comment: To appear in IEEE Transactions on Communications. 10 pages

Published

2022

39. A novel endocardial activation–derived predictor for focal paraseptal atrial tachycardias: Evidence from a multicenter cohort study

Author

Kong, Ling-cong, Shuang, Tian, Tan, Hong-wei, Sun, Yu-min, Han, Bing, and Wang, Xin-hua

Published

2024

40. Activation of PAR1 contributes to ferroptosis of Schwann cells and inhibits regeneration of myelin sheath after sciatic nerve crush injury in rats via Hippo-YAP/ACSL4 pathway

Author

Wu, Zhimin, Sun, Jun, Liao, Zhi, Sun, Tao, Huang, Lixin, Qiao, Jia, Ling, Cong, Chen, Chuan, Zhang, Baoyu, and Wang, Hui

Published

2025

41. Peak early diastolic strain rate improves prediction of adverse cardiovascular outcomes in patients with ST-elevation myocardial infarction

Author

Wei, Lai, Dong, Jian-Xun, Jin, Li-Xing, He, Jie, Zhao, Chen-Xu, Kong, Ling-Cong, An, Dong-Ao-Lei, Ding, Song, Yang, Fan, Yang, Yi-Ning, Yan, Fu-Hua, Xiu, Jian-Cheng, Wang, Hu-Wen, Ge, Heng, and Pu, Jun

Published

2023

42. Reduction Theory of Algebraic Modules and their Successive Minima

Author

Porter, Christian and Ling, Cong

Subjects

Mathematics - Number Theory, Computer Science - Cryptography and Security

Abstract

Lattices defined as modules over algebraic rings or orders have garnered interest recently, particularly in the fields of cryptography and coding theory. Whilst there exist many attempts to generalise the conditions for LLL reduction to such lattices, there do not seem to be any attempts so far to generalise stronger notions of reduction such as Minkowski, HKZ and BKZ reduction. Moreover, most lattice reduction methods for modules over algebraic rings involve applying traditional techniques to the embedding of the module into real space, which distorts the structure of the algebra. In this paper, we generalise some classical notions of reduction theory to that of free modules defined over an order. Moreover, we extend the definitions of Minkowski, HKZ and BKZ reduction to that of such modules and show that bases reduced in this manner have vector lengths that can be bounded above by the successive minima of the lattice multiplied by a constant that depends on the algebra and the dimension of the module. In particular, we show that HKZ reduced bases are polynomially close to the successive minima of the lattice in terms of the module dimension. None of our definitions require the module to be embedded and thus preserve the structure of the module., Comment: 23 pages, including appendix. Submitted to Journal of Number Theory

Published

2021

43. Functional Broadcast Repair of Multiple Partial Failures in Wireless Distributed Storage Systems

Author

Mital, Nitish, Kralevska, Katina, Ling, Cong, and Gunduz, Deniz

Subjects

Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Information Theory

Abstract

We consider a distributed storage system with $n$ nodes, where a user can recover the stored file from any $k$ nodes, and study the problem of repairing $r$ partially failed nodes. We consider \textit{broadcast repair}, that is, $d$ surviving nodes transmit broadcast messages on an error-free wireless channel to the $r$ nodes being repaired, which are then used, together with the surviving data in the local memories of the failed nodes, to recover the lost content. First, we derive the trade-off between the storage capacity and the repair bandwidth for partial repair of multiple failed nodes, based on the cut-set bound for information flow graphs. It is shown that utilizing the broadcast nature of the wireless medium and the surviving contents at the partially failed nodes reduces the repair bandwidth per node significantly. Then, we list a set of invariant conditions that are sufficient for a functional repair code to be feasible. We further propose a scheme for functional repair of multiple failed nodes that satisfies the invariant conditions with high probability, and its extension to the repair of partial failures. The performance of the proposed scheme meets the cut-set bound on all the points on the trade-off curve for all admissible parameters when $k$ is divisible by $r$, while employing linear subpacketization, which is an important practical consideration in the design of distributed storage codes. Unlike random linear codes, which are conventionally used for functional repair of failed nodes, the proposed repair scheme has lower overhead, lower input-output cost, and lower computational complexity during repair., Comment: 20 pages, 2 figures, 3 tables, to appear in IEEE JSAIT. arXiv admin note: text overlap with arXiv:1807.00220

Published

2021

44. Error Correction for FrodoKEM Using the Gosset Lattice

Author

Saliba, Charbel, Luzzi, Laura, and Ling, Cong

Subjects

Computer Science - Cryptography and Security

Abstract

We consider FrodoKEM, a lattice-based cryptosystem based on LWE, and propose a new error correction mechanism to improve its performance. Our encoder maps the secret key block-wise into the Gosset lattice $E_8$. We propose two sets of parameters for our modified implementation. Thanks to the improved error correction, the first implementation outperforms FrodoKEM in terms of concrete security by $10$ to $13$ bits by increasing the error variance; the second allows to reduce the bandwidth by $7\%$ by halving the modulus $q$. In both cases, the decryption failure probability is improved compared to the original FrodoKEM. Unlike some previous works on error correction for lattice-based protocols, we provide a rigorous error probability bound by decomposing the error matrix into blocks with independent error coefficients.

Published

2021

45. Berberine inhibits NLRP3 inflammasome activation and proinflammatory macrophage M1 polarization to accelerate peripheral nerve regeneration

Author

Sun, Jun, Zeng, Qiuhua, Wu, Zhimin, Huang, Lixin, Sun, Tao, Ling, Cong, Zhang, Baoyu, Chen, Chuan, and Wang, Hui

Published

2024

46. Unit Reducible Fields and Perfect Unary Forms

Author

LEIBAK, Alar, PORTER, Christian, and LING, Cong

Published

2023

47. Transmission of human-pet antibiotic resistance via aerosols in pet hospitals of Changchun

Author

Zhu, Dao Mi, Yan, Ya Song, Wang, Hao, Zhong, Yue, Inam, Gao, Yun Hang, Li, Gong Mei, Mu, Guo Dong, Dong, Hui Feng, Li, Yuan, Liu, Ding Kuo, Ma, Hong Xia, and Kong, Ling Cong

Published

2024

48. Nomogram to Predict the Outcome of Ventriculoperitoneal Shunt Among Patients with Non-HIV Cryptococcal Meningitis

Author

Cao, Cheng'an, Luo, Lun, Hu, Yuanjun, Huang, Tengchao, Gao, Shuangqi, Ling, Cong, He, Haiyong, and Guo, Ying

Published

2024

49. Quantum mean value approximator for hard integer value problems

Author

Joseph, David, Martinez, Antonio J., Ling, Cong, and Mintert, Florian

Subjects

Quantum Physics

Abstract

Evaluating the expectation of a quantum circuit is a classically difficult problem known as the quantum mean value problem (QMV). It is used to optimize the quantum approximate optimization algorithm and other variational quantum eigensolvers. We show that such an optimization can be improved substantially by using an approximation rather than the exact expectation. Together with efficient classical sampling algorithms, a quantum algorithm with minimal gate count can thus improve the efficiency of general integer-value problems, such as the shortest vector problem (SVP) investigated in this work., Comment: 3 Figures, 4 pages main text, 4 pages supplementary material

Published

2021

50. Subfield Algorithms for Ideal- and Module-SVP Based on the Decomposition Group

Author

Porter, Christian, Mendelsohn, Andrew, and Ling, Cong

Subjects

Computer Science - Cryptography and Security, Mathematics - Number Theory, Mathematics - Rings and Algebras, 11T71

Abstract

Whilst lattice-based cryptosystems are believed to be resistant to quantum attack, they are often forced to pay for that security with inefficiencies in implementation. This problem is overcome by ring- and module-based schemes such as Ring-LWE or Module-LWE, whose keysize can be reduced by exploiting its algebraic structure, allowing for faster computations. Many rings may be chosen to define such cryptoschemes, but cyclotomic rings, due to their cyclic nature allowing for easy multiplication, are the community standard. However, there is still much uncertainty as to whether this structure may be exploited to an adversary's benefit. In this paper, we show that the decomposition group of a cyclotomic ring of arbitrary conductor can be utilised to significantly decrease the dimension of the ideal (or module) lattice required to solve a given instance of SVP. Moreover, we show that there exist a large number of rational primes for which, if the prime ideal factors of an ideal lie over primes of this form, give rise to an "easy" instance of SVP. It is important to note that the work on ideal SVP does not break Ring-LWE, since its security reduction is from worst case ideal SVP to average case Ring-LWE, and is one way., Comment: 29 pages plus appendix, to appear in Banach Center Publications

Published

2021