417 research outputs found
Does green finance promote the social responsibility fulfilment of highly polluting enterprises? – empirical evidence from China
This study explores whether and how the development of green
finance can facilitate the social responsibility of highly polluting
enterprises. We conducted a quasi-natural experiment in 2017 in five
Chinese provinces (districts), based on the establishment of green
finance reform and innovation pilot zones. The research samples
were China’s A-share heavy pollution-industry-listed companies from
2013 to 2020, and the difference in differences model was used to
examine the relationship between green finance and social responsibility
fulfilment of highly polluting firms. The mediating and moderating
effects of financial constraints and media monitoring were also
discussed. The findings indicate that the advancement of green
finance significantly improves the level of social responsibility fulfilment
of highly polluting firms, particularly in the area of environmental
responsibility. Furthermore, strengthened financing constraints
partially mediate the aforementioned relationship, and media monitoring
positively moderates the facilitation effect of green finance
development on highly polluting firms’ social responsibility fulfilment.
Our study demonstrates that a higher degree of financing constraints
is an important channel for establishing a green finance
reform and innovation pilot zone to force enterprises to fulfilment
their social responsibility, and provides theoretical support for governments
and enterprises to better understand the policy effects
Study on Growth and Change of Solid Particles with Water Flow in Oilfield Water-Injection Pipeline
The solid particles in oilfield water-injection pipelines with water flow will continuously grow and change, and the oversized solid particles may block the pores of the formation and reduce the oilfield recovery efficiency. Therefore, the study on the growth and change to solid particles during transportation has become a question of interest in oilfields. However, there is little research on this question currently. Therefore, on the basis of the liquid-solid two-phase flow model and the particle population balance model, a growth and change model of solid particles in long-distance water-injection pipelines flowing along water was established in this paper in consideration of the injected water temperature drop along the path, as well as the growth, coalescence, breakage and deposition of particles. Comparison of the field test results indicated that the average error of the particle size distribution fitting degree calculated by the model is 6.9%, and the average error of median diameter is 4.1%. This model was used for analyzing the impact of the flow rate, temperature and median diameter of the united station outlet in a block oilfield of Shengli Oilfield on the solid particle size of the wellheads, and the critical flow rate, temperature and median diameter of the united station outlet were predicted when the median diameter at the wellheads meets the injection requirement (< 2 μm). The establishment of this model cannot only be used for the study on the growth and change to solid particles in water-injection pipelines flowing along water, but also provides a technical reference for the study on the growth and change to low-concentration solid particles accompanying flow in long-distance liquid/gas phase pipelines
MPCPA: Multi-Center Privacy Computing with Predictions Aggregation based on Denoising Diffusion Probabilistic Model
Privacy-preserving computing is crucial for multi-center machine learning in
many applications such as healthcare and finance. In this paper a Multi-center
Privacy Computing framework with Predictions Aggregation (MPCPA) based on
denoising diffusion probabilistic model (DDPM) is proposed, in which
conditional diffusion model training, DDPM data generation, a classifier, and
strategy of prediction aggregation are included. Compared to federated
learning, this framework necessitates fewer communications and leverages
high-quality generated data to support robust privacy computing. Experimental
validation across multiple datasets demonstrates that the proposed framework
outperforms classic federated learning and approaches the performance of
centralized learning with original data. Moreover, our approach demonstrates
robust security, effectively addressing challenges such as image memorization
and membership inference attacks. Our experiments underscore the efficacy of
the proposed framework in the realm of privacy computing, with the code set to
be released soon
Demonstration of the first monolithically integrated self-rolled-up tube based vertical photonic coupler
We demonstrated the first monolithically integrated self-rolled-up SiN_x tube based
vertical photonic coupler on top of a planar ridge waveguide. The coupling efficiency between the
elements is >10 times higher than similar non-integrated device
Equipping Federated Graph Neural Networks with Structure-aware Group Fairness
Graph Neural Networks (GNNs) have been widely used for various types of graph
data processing and analytical tasks in different domains. Training GNNs over
centralized graph data can be infeasible due to privacy concerns and regulatory
restrictions. Thus, federated learning (FL) becomes a trending solution to
address this challenge in a distributed learning paradigm. However, as GNNs may
inherit historical bias from training data and lead to discriminatory
predictions, the bias of local models can be easily propagated to the global
model in distributed settings. This poses a new challenge in mitigating bias in
federated GNNs. To address this challenge, we propose GNN, a Fair
Federated Graph Neural Network, that enhances group fairness of federated GNNs.
As bias can be sourced from both data and learning algorithms, GNN
aims to mitigate both types of bias under federated settings. First, we provide
theoretical insights on the connection between data bias in a training graph
and statistical fairness metrics of the trained GNN models. Based on the
theoretical analysis, we design GNN which contains two key
components: a fairness-aware local model update scheme that enhances group
fairness of the local models on the client side, and a fairness-weighted global
model update scheme that takes both data bias and fairness metrics of local
models into consideration in the aggregation process. We evaluate
GNN empirically versus a number of baseline methods, and
demonstrate that GNN outperforms these baselines in terms of both
fairness and model accuracy
Abrupt climatic events recorded by the Ili loess during the last glaciation in Central Asia: Evidence from grain-size and minerals
The loess record of Central Asia provides an important archive of regional climate and environmental changes. In contrast to the widely investigated loess deposits in the Chinese Loess Plateau, Central Asian loess-paleosol sequences remain poorly understood. Here, we present an aeolian loess section in the southern Ili Basin. Based on granularity and mineralogical analyses, we reconstruct climatic changes during the last glaciation. The results indicated that most of the abrupt climatic events (such as Dansgaard-Oeschger events and Heinrich events) were imprinted in this loess section, although their amplitudes and ages showed some differences. Compared with the millennial oscillations recoded in loess and stalagmites in East Asia, the arid Central Asia responded more sensitively to the warming events than to the cooling events. The shifting trajectory of westerlies across Central Asia played an important role in dust deposition during the stadials. The North Atlantic climatic signals may have been transmitted from Central Asia to the East Asian monsoon regions via the westerlies
Adverse renal outcomes following targeted therapies in renal cell carcinoma: a systematic review and meta-analysis
Introduction: To clarify the prevalence of adverse renal outcomes following targeted therapies in renal cell carcinoma (RCC).Methods: A systematic search was performed in MEDLINE, EMBASE, and Cochrane Central Library. Studies that had reported adverse renal outcomes following targeted therapies in RCC were eligible. Outcomes included adverse renal outcomes defined as either renal dysfunction as evidenced by elevated serum creatinine levels or the diagnosis of acute kidney injury, or proteinuria as indicated by abnormal urine findings. The risk of bias was assessed according to Cochrane handbook guidelines. Publication bias was assessed using Funnel plot analysis and Egger Test.Results: The occurrences of the examined outcomes, along with their corresponding 95% confidence intervals (CIs), were combined using a random-effects model. In all, 23 studies including 10 RCTs and 13 observational cohort studies were included. The pooled incidence of renal dysfunction and proteinuria following targeted therapies in RCC were 17% (95% CI: 12%–22%; I2 = 88.5%, p < 0.01) and 29% (95% CI: 21%–38%; I2 = 93.2%, p < 0.01), respectively. The pooled incidence of both types of adverse events varied substantially across different regimens. Occurrence is more often in polytherapy compared to monotherapy. The majority of adverse events were rated as CTCAE grades 1 or 2 events. Four studies were assessed as having low risk of bias.Conclusion: Adverse renal outcomes reflected by renal dysfunction and proteinuria following targeted therapies in RCC are not uncommon and are more often observed in polytherapy compared to monotherapy. The majority of the adverse events were of mild severity.Systematic Review Registration: Identifier CRD42023441979
Overlapping Leigh Syndrome/Myoclonic Epilepsy With Ragged Red Fibres in an Adolescent Patient With a Mitochondrial DNA A8344G Mutation
We present the case of a 16-year-old boy with a family history of epilepsy who presented with acute respiratory failure, limb weakness, diabetes mellitus, sinus tachycardia, lactic acidosis, and pneumonia. He went on to develop cranial nerve palsy, myoclonus, generalized seizures, ataxia, recurrent pneumonia, and hypotension. Biochemical investigation revealed elevated lactate, pyruvate, and glucose levels. Cerebral magnetic resonance imaging (MRI) revealed bilateral, symmetric, high-intensity T2-weighted signals in the thalamus, brainstem, and gray matter of the spinal cord. Histochemical analyses revealed ragged red fibers (RRF) and decreased cytochrome oxidase activity. Blood and muscle-derived DNA demonstrated a high level (95% and 96%, respectively) of the m.8344A>G mutation, while almost all of his maternal relatives (n = 17, including his mother) carried the same point mutation. The point mutation level of his mother (who had short stature, high blood lactate levels, and epilepsy) was 77% (blood-derived DNA). Although this mutation has been identified in approximately 30 individuals with these disorders, to our knowledge, this is the first reported case of overlapping Leigh syndrome/myoclonic epilepsy with RRF in an adolescent patient, and the largest reported pedigree of mitochondrial DNA A8344G mutation
The Technology and Application of Improving Bearing Capacity of Deep Peat Soil Subgrade
Peat soil is widely distributed in more than 500 countries around the world, covering an area of over 4 million square kilometers, among which the distribution area in China is about 40000 square kilometers, and most of Peat soil is distributed in swamps and forests. Peat soil is with high content of organic matter, poor engineering properties and low bearing capacity, which is very unfavorable to the safety and functionality of infrastructure construction. The Belt and Road, and the other two parts of the peat soil are studied in this paper. The key technologies of peat soil foundation are studied through literature review and comparative study. This will provide theoretical and technical support for repairing bridges, roads and houses in the distribution area of peat soil, and provide the theoretical basis and technical foundation for the construction of the “peat” Road area.
Chinese Library Classification: TU0
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