A Novel Bidirectional Interaction Model and Electric Energy Measuring Scheme of EVs for V2G with Distorted Power Loads

With the increasing demand for petroleum resources and environmental issues,new energy electric vehicles are increasingly being used.However,the large number of electric vehicles connected to the grid has brought new challenges to the operation of the grid.Firstly,A novel bidirectional interaction model is established based on modulation theory with nonlinear loads.Then,the electric energy measuring scheme of EVs for V2G is derived under the conditions of distorted power loads.The scheme is composed of fundamental electric energy,fundamental-distorted electric energy,distorted-fundamental electric energy and distorted electric energy.And the characteristics of each electric energy are analyzed.Finally,the correctness of the model and energy measurement method is verified by three simulation cases:the impact signals,the fluctuating signals,and the harmonic signals.

Study on the Sliding Displacement of a Sliding Structure Subjected to Multi directional Earthquake Excitation

Transient dynamic analysis is used to study the effect of the bidirectional interaction of friction on the response of sliding displacement of a sliding structure subjected to bidirectional earthquake ground motion. The analysis varies the parameters of amplitude ratio of earthquake excitation, the period of the superstructure, and the coefficient of friction in the sliding support. Numerical results show that the sliding structure is significantly influenced by the interaction of frictional forces. So the sliding displacement may be underestimated and the acceleration of the superstructure may be overrated if the bidirectional interaction of frictional forces is neglected.

Discussion on the Expression of emotional appeal of consumer in Food Packaging Design

As the rapid development of modem society and the commodity economy, goods of each enterprise must through the competition to sales of commodities in the market have a foothold. Now the product packaging design requires not only simple packaging. but need to highlight the design sense, using a different visual language to convey product information to consumers, will also promise to consumers is conveyed. To the consumer＇s emotional experience as the main design starting point, only the value of the product itself into the purchase value of consumers, so as to reflect the role and value of the design. Now we are facing the problem is how to promote the sale of products through the design of product packaging, so that consumers have a strong desire to buy.

Microbiota-gut-brain axis and nutritional strategy under heat stress

Heat stress is a very universal stress event in recent years.Various lines of evidence in the past literatures indicate that gut microbiota composition is susceptible to variable temperature.A varied microbiota is necessary for optimal regulation of host signaling pathways and disrupting microbiota-host homeostasis that induces disease pathology.The microbiota-gut-brain axis involves an interactive mode of communication between the microbes colonizing the gut and brain function.This review summarizes the effects of heat stress on intestinal function and microbiota-gut-brain axis.Heat stress negatively affects intestinal immunity and barrier functions.Microbiota-gut-brain axis is involved in the homeostasis of the gut microbiota,at the same time,heat stress affects the metabolites of microbiota which could alter the function of microbiota-gut-brain axis.We aim to bridge the evidence that the microbiota is adapted to survive and thrive in an extreme environment.Additionally,nutritional strategies for alleviating intestinal heat stress are introduced.

Integration of structural simulations into a real-time capable Overall System Simulation for complex mechatronic systems

To meet the rising demand of performing complex tasks in a highly technologized world,the development of mechatronic systems faces two major challenges:First,the system is integrated in a fast changing environment and has to cope with dynamically modified tasks and circumstances.At the same time,the development of new methods has to be fast,cost-effective and efficient.By taking care of both aspects simultaneously,simulations have become an acknowledged tool to cost-effectively and rapidly test and optimize new solutions for complex mechatronic systems,as they are common in,e.g.,robotics.Mostly,simulation methods are specialized for one purpose and thus used as a stand-alone tool to analyze the behavior of single components or certain aspects of the whole system.But with size and complexity of the system,the susceptibility to errors rises when the interaction between components fails.If a component shows minimal deviations to its nominal behavior,huge interdependencies between components of complex systems might cause system failure.The structural behavior of a single component is therefore as crucial to the functionality of the whole system as the interplay of all components.Both aspects have to be analyzed in parallel,which is nowadays barely considered.Consequently,this work presents the integration of structural simulations into the overall picture.The developed approach consists of a concept,an implementation and the validation for an automated bidirectional interaction to integrate results from Finite Element Analysis(FEA)into an existing,real-time capable Overall System Simulation for mechatronic systems in general and robotics in particular.