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1. Contributions to the Algorithmic Foundations of Approximate Lie Symmetry Algebras of Differential Equations

Author

Deng, Siyuan and Reid, Gregory

Subjects
Mathematical Physics, Mathematics - Numerical Analysis
Abstract

Lie symmetry transformations that leave a differential equation invariant play a fundamental role in science and mathematics. Such Lie symmetry groups uniquely determine their Lie symmetry algebras. Exact differential elimination algorithms have been developed to determine the dimension and structure constants of the Lie symmetry algebra of an exact polynomially nonlinear differential equation. Directly applying these symbolic algorithms to approximate models is prone to instability since these algorithms strongly depend on the orderings of the variables involved. This motivates the need to address questions at the algorithmic foundation of approximate Lie symmetry algebras of differential equations. How do we define approximate Lie symmetry? How do we compute and apply approximate Lie symmetry algebras of differential equations? How reliable are the results? To address such questions, we define approximate Lie symmetry algebras in terms of exact Lie symmetry algebras of a nearby differential equation. Our algorithm for identifying these hidden approximate Lie symmetry algebras uses the SVD to find nearby rank-deficient systems combined with approximate geometric involutive forms of the approximate symmetry-defining systems. Our approach is local and depends on an input base point in the space of independent and dependent variables. In general, our local approach can yield many different nearby Lie symmetry algebras. We also outline a numerical approach to determining the approximate isomorphic of such Lie symmetry algebras as the local base point varies across a grid in the base space. We also provide a method for evaluating the reliability of our results. This enables the base space to be partitioned into regions where different local Lie symmetry algebras are admitted, separated by unstable transition regions.

Published
2024

2. Algorithmic reduction of polynomially nonlinear PDE systems to parametric ODE systems

Author

Deng, Siyuan, Hatzel, Michelle, Reid, Gregory, Yang, Wenqiang, and Wu, Wenyuan

Subjects
Computer Science - Symbolic Computation
Abstract

Differential-elimination algorithms apply a finite number of differentiations and eliminations to systems of partial differential equations. For systems that are polynomially nonlinear with rational number coefficients, they guarantee the inclusion of missing integrability conditions and the statement of of existence and uniqueness theorems for local analytic solutions of such systems. Further, they are useful in obtaining systems in a form more amenable to exact and approximate solution methods. Maple's \maple{dsolve} and \maple{pdsolve} algorithms for solving PDE and ODE often automatically call such routines during applications. Indeed, even casual users of Maple's dsolve and pdsolve commands have probably unknowingly used Maple's differential-elimination algorithms. Suppose that a system of PDE has been reduced by differential-elimination to a system whose automatic existence and uniqueness algorithm has been determined to be finite-dimensional. We present an algorithm for rewriting the output as a system of parameterized ODE. Exact methods and numerical methods for solving ODE and DAE can be applied to this form.

Published
2024

5. Development and Optimization of an Artificial Olfactory Bulb

Author

Wu, Zhiyuan, Covington, James A., Tian, Fengchun, Li, Hantao, Deng, Siyuan, and Liu, Yue

Abstract

This study combines thermal modulation technology with a metal oxide (MOX) sensor array to construct an artificial olfactory bulb (OB) comprising 450 response units (olfactory glomeruli). Compared to the unmodulated control group, this artificial OB both exhibits significant performance improvement and mimics the mammalian olfactory system by presenting odor information in a spatially encoded manner. Inspired by the weight distribution mechanism in the mammalian OB, a wavelet-based 2-D decomposition and reconstruction was applied for weight assignment to the designated core glomeruli (90 glomeruli) and secondary glomeruli (360 glomeruli), which were selected by a novel contribution analysis algorithm based on silhouette. Experimental results indicate that after wavelet reconstruction, the efficiency of spatial encoding is enhanced, with the average qualitative accuracy of six classifiers increasing from 89% to 96%. These findings demonstrate that this bio-inspired approach can effectively enhance the performance of artificial OB, providing insight for high-precision odor recognition.

Published
2024
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15. Modernization Versus Dependency Approaches to Sustainable Development--Based on the UN Report 2019

Author

Deng Siyuan and Zhang Jingxing

Subjects
Environmental sciences, GE1-350
Abstract

The essay tends to focus on the investigation into the changing sustainable development trend. It is important to know which areas have seen the greatest progress and which areas have stalled or even regressed around the globe. The researchers will compare and combine the modernization theory and dependency theory to figure out the potential factors which result in the different levels of achievement between all the 17 sustainable development goals (SDG). The researcher team are more likely to adopt both qualitative method and quantitative method to ensure the accuracy of the conclusion. In addition, due to the fact that the primary data related to this topic is too broad to obtain, the scientific group will mostly employ secondary data from the United Nations to carry out the research. Most of the data in the essay are from various United Nations documents and reports to ensure the authenticity and objectivity of the data. It allows the researchers to pay more attention on the specific analysis. Lastly, the goal of this paper is to find out the basic laws of sustainable development by looking for the unique representative parts of the 17 SDG goals (Basic education, Food safety, Life below water, etc.) and analysing their development trends in the past few years. In addition, the researchers tend to work out suggestions and solutions to those problems.

Published
2021
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16. Research on franchised store chain operation based on evolutionary game theory

Author

Deng Siyuan

Subjects
Environmental sciences, GE1-350
Abstract

Franchised store chain is the most popular business model today. The franchisor and the franchisees share the same brand, but the value of the entire brand will be degraded once one side pursues self-interests in brand management. From the perspective of franchised store chain, this paper develops an evolutionary game model between franchisor and franchisees under the assumption of bounded rationality. The strategic selection of franchisor and franchisees includes cooperation and no-cooperation. In the end, the corresponding policy recommendations are proposed in the foundation of case analysis.

Published
2021
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26. Dually Cross-Linked Core-Shell Structure Nanohydrogel with Redox–Responsive Degradability for Intracellular Delivery

Author

Deng, Siyuan, primary, Gigliobianco, Maria, additional, Mijit, Emin, additional, Minicucci, Marco, additional, Cortese, Manuela, additional, Campisi, Barbara, additional, Voinovich, Dario, additional, Battistelli, Michela, additional, Salucci, Sara, additional, Gobbi, Pietro, additional, Lupidi, Giulio, additional, Zambito, Giorgia, additional, Mezzanotte, Laura, additional, Censi, Roberta, additional, and Di Martino, Piera, additional

Published
2021
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29. Development of a New Hyaluronic Acid Based Redox-Responsive Nanohydrogel for the Encapsulation of Oncolytic Viruses for Cancer Immunotherapy

Author

Deng, Siyuan, Iscaro, Alessandra, Zambito, Giorgia, Mijiti, Yimin, Minicucci, Marco, Essand, Magnus, Lowik, Clemens, Muthana, Munitta, Censi, Roberta, Mezzanotte, Laura, Di Martino, Piera, Deng, Siyuan, Iscaro, Alessandra, Zambito, Giorgia, Mijiti, Yimin, Minicucci, Marco, Essand, Magnus, Lowik, Clemens, Muthana, Munitta, Censi, Roberta, Mezzanotte, Laura, and Di Martino, Piera

Abstract

Oncolytic viruses (OVs) are emerging as promising and potential anti-cancer therapeutic agents, not only able to kill cancer cells directly by selective intracellular viral replication, but also to promote an immune response against tumor. Unfortunately, the bioavailability under systemic administration of OVs is limited because of undesired inactivation caused by host immune system and neutralizing antibodies in the bloodstream. To address this issue, a novel hyaluronic acid based redox responsive nanohydrogel was developed in this study as delivery system for OVs, with the aim to protect the OVs following systemic administration. The nanohydrogel was formulated by water in oil (W/O) nanoemulsion method and cross-linked by disulfide bonds derived from the thiol groups of synthesized thiolated hyaluronic acid. One DNA OV Ad[I/PPT-E1A] and one RNA OV Rigvir(R) ECHO-7 were encapsulated into the developed nanohydrogel, respectively, in view of their potential of immunovirotherapy to treat cancers. The nanohydrogels showed particle size of approximately 300-400 nm and negative zeta potential of around -13 mV by dynamic light scattering (DLS). A uniform spherical shape of the nanohydrogel was observed under the scanning electron microscope (SEM) and transmission electron microscope (TEM), especially, the successfully loading of OV into nanohydrogel was revealed by TEM. The crosslinking between the hyaluronic acid chains was confirmed by the appearance of new peak assigned to disulfide bond in Raman spectrum. Furthermore, the redox responsive ability of the nanohydrogel was determined by incubating the nanohydrogel into phosphate buffered saline (PBS) pH 7.4 with 10 mu M or 10 mM glutathione at 37 degrees C which stimulate the normal physiological environment (extracellular) or reductive environment (intracellular or tumoral). The relative turbidity of the sample was real time monitored by DLS which indicated that the nanohydrogel could rapidly degrade within 10 h in the

Published
2021
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30. Dually cross-linked core-shell structure nanohydrogel with redox–responsive degradability for intracellular delivery

Author

Deng, Siyuan, Gigliobianco, Maria Rosa, Mijiti, Yimin, Minicucci, Marco, Cortese, Manuela, Campisi, Barbara, Voinovich, Dario, Battistelli, Michela, Salucci, Sara, Gobbi, Pietro, Lupidi, Giulio, Zambito, Giorgia, Mezzanotte, Laura, Censi, Roberta, Di Martino, Piera, Deng, Siyuan, Gigliobianco, Maria Rosa, Mijiti, Yimin, Minicucci, Marco, Cortese, Manuela, Campisi, Barbara, Voinovich, Dario, Battistelli, Michela, Salucci, Sara, Gobbi, Pietro, Lupidi, Giulio, Zambito, Giorgia, Mezzanotte, Laura, Censi, Roberta, and Di Martino, Piera

Abstract

A redox-responsive nanocarrier is a promising strategy for the intracellular drug release be-cause it protects the payload, prevents its undesirable leakage during extracellular transport, and favors site-specific drug delivery. In this study, we developed a novel redox responsive core-shell structure nanohydrogel prepared by a water in oil nanoemulsion method using two biocompatible synthetic polymers: vinyl sulfonated poly(N-(2-hydroxypropyl) methacrylamide mono/dilactate)-polyethylene glycol-poly(N-(2-hydroxypropyl) methacrylamide mono/dilactate) triblock copolymer, and thiolated hyaluronic acid. The influence on the nanohydrogel particle size and distribution of formulation parameters was investigated by a three-level full factorial design to optimize the preparation condi-tions. The surface and core-shell morphology of the nanohydrogel were observed by scanning electron microscope, transmission electron microscopy, and further confirmed by Fourier transform infrared spectroscopy and Raman spectroscopy from the standpoint of chemical composition. The redox-responsive biodegradability of the nanohydrogel in reducing environments was determined using glutathione as reducing agent. A nanohydrogel with particle size around 250 nm and polydispersity index around 0.1 is characterized by a thermosensitive shell which jellifies at body temperature and crosslinks at the interface of a redox-responsive hyaluronic acid core via the Michael addition reaction. The nanohydrogel showed good encapsulation efficiency for model macromolecules of different molecular weight (93% for cytochrome C, 47% for horseradish peroxidase, and 90% for bovine serum albumin), capacity to retain the peroxidase-like enzymatic activity (around 90%) of cytochrome C and horseradish peroxidase, and specific redox-responsive release behavior. Additionally, the nanohydrogel exhibited excellent cytocompatibility and internalization efficiency into macrophages. Therefore, the developed core-shell struc

Published
2021

31. Fluorinated PLGA-PEG-Mannose Nanoparticles for Tumor-Associated Macrophage Detection by Optical Imaging and MRI

Author

Zambito, Giorgia, Deng, Siyuan, Haeck, Joost, Gaspar, Natasa, Himmelreich, Uwe, Censi, Roberta, Löwik, Clemens, Di Martino, Piera, Mezzanotte, Laura, Zambito, Giorgia, Deng, Siyuan, Haeck, Joost, Gaspar, Natasa, Himmelreich, Uwe, Censi, Roberta, Löwik, Clemens, Di Martino, Piera, and Mezzanotte, Laura

Abstract

Tumor-associated macrophages (TAMs) promote cancer growth and metastasis, but their role in tumor development needs to be fully understood due to the dynamic changes of tumor microenvironment (TME). Here, we report an approach to visualize TAMs by optical imaging and by Fluorine-19 (19F) magnetic resonance imaging (MRI) that is largely applied to track immune cells in vivo. TAMs are targeted with PLGA-PEG-mannose nanoparticles (NPs) encapsulating perfluoro-15-crown-5-ether (PFCE) as MRI contrast agent. These particles are preferentially recognized and phagocytized by TAMs that overexpress the mannose receptor (MRC1/CD206). The PLGA-PEG-mannose NPs are not toxic and they were up-taken by macrophages as confirmed by in vitro confocal microscopy. At 48 h after intravenous injection of PLGA-PEG-mannose NPs, 4T1 xenograft mice were imaged and fluorine-19 nuclear magnetic resonance confirmed nanoparticle retention at the tumor site. Because of the lack of 19F background in the body, observed 19F signals are robust and exhibit an excellent degree of specificity. In vivo imaging of TAMs in the TME by 19F MRI opens the possibility for detection of cancer at earlier stage and for prompt therapeutic interventions in solid tumors.

Published
2021

32. Development of a New Hyaluronic Acid Based Redox-Responsive Nanohydrogel for the Encapsulation of Oncolytic Viruses for Cancer Immunotherapy

Author

Deng, Siyuan, primary, Iscaro, Alessandra, additional, Zambito, Giorgia, additional, Mijiti, Yimin, additional, Minicucci, Marco, additional, Essand, Magnus, additional, Lowik, Clemens, additional, Muthana, Munitta, additional, Censi, Roberta, additional, Mezzanotte, Laura, additional, and Di Martino, Piera, additional

Published
2021
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37. Chitin and chitosans: Characteristics, eco-friendly processes, and applications in cosmetic science

Author

Casadidio, Cristina, Peregrina, Dolores Vargas, Gigliobianco, Maria Rosa, Deng, Siyuan, Censi, Roberta, Di Martino, Piera, Casadidio, Cristina, Peregrina, Dolores Vargas, Gigliobianco, Maria Rosa, Deng, Siyuan, Censi, Roberta, and Di Martino, Piera

Abstract

Huge amounts of chitin and chitosans can be found in the biosphere as important constituents of the exoskeleton of many organisms and as waste by worldwide seafood companies. Presently, politicians, environmentalists, and industrialists encourage the use of these marine polysaccharides as a renewable source developed by alternative eco-friendly processes, especially in the production of regular cosmetics. The aim of this review is to outline the physicochemical and biological properties and the different bioextraction methods of chitin and chitosan sources, focusing on enzymatic deproteinization, bacteria fermentation, and enzymatic deacetylation methods. Thanks to their biodegradability, non-toxicity, biocompatibility, and bioactivity, the applications of these marine polymers are widely used in the contemporary manufacturing of biomedical and pharmaceutical products. In the end, advanced cosmetics based on chitin and chitosans are presented, analyzing different therapeutic aspects regarding skin, hair, nail, and oral care. The innovative formulations described can be considered excellent candidates for the prevention and treatment of several diseases associated with different body anatomical sectors.

Published
2019

44. Analysis on Energy Resources for the Development of Low Carbon Economy in Hebei Province

Author

Yin Ana and Deng Siyuan

Subjects
Consumption (economics), High energy, business.industry, Natural resource economics, Energy resources, Low-carbon economy, business, Technology innovation, Non-renewable resource, Renewable energy
Abstract

The industrial structure of Hebei Province is dominated by high energy consumption. In order to develop a low carbon economy, Hebei Province has the advantages of energy resources, but also the certain difficulty for energysaving and emission reduction. This paper analyzes the actuality of energy resources in Hebei Province and the existing problems, including nonrenewable energy resources and renewable energy resources, and put forward the countermeasures of developing low carbon economy in Hebei Province: to accelerate the pace of adjustment of industrial structure; vigorously promoting energy technologies and emission reduction technology innovation; improving the supporting policies; promoting the “low-carbon” mode, etc. Keywords-energy resources; the low carbon economy; Hebei Province

Published
2015
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46. Technology selection in the development of low-carbon industry in Hebei province

Author

Huo Qingqing, Deng Siyuan, and Yin Ana

Subjects
Sustainable development, Economic growth, Safeguard, Business, Plan (drawing), Technology development, China, Selection (genetic algorithm), Industrial organization, Connotation
Abstract

The core in development of low-carbon industry is low-carbon technology. Low-carbon technology refers to take the technological means for the realization of low-carbon economy Low-carbon technology development can safeguard for our response to climate change, adjusting the industrial structure and promoting social low-carbon development, and it is also the focus of China's 12th five-year plan. Hebei province should grasp this historic opportunity, use of its resources and technological advantages, to become low-carbon technology leader and create new competitiveness for the sustainable economic development. This paper analyses in depth the connotation of low-carbon technology, Basing on experiences of some developed countries' technology selection in developing low-carbon industry, analyses and explores the low-carbon industry technology selection in Hebei province. Finally, put suggestions for development of low-carbon technology in Hebei province.

Published
2013
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