## What is/are Cs Model?

Cs Model - In this paper, an attempt has been made to study the global dynamical behavior of a viral dynamics model incorporating both the lytic and nonlytic immune responses.^{[1]}For the microscopic CS model and its selected variants, the collision-avoidance phenomenon is discussed.

^{[2]}The goal of this work is to build model credibility of a structural dynamics model by comparing simulated responses to measured responses in random vibration environments, with limited knowledge of the true test input.

^{[3]}Computational fluid dramatics model using two turbulence models, Reynolds Stress Model and \( {\text{k}}\,{-}\,\upomega \) SST model, have been used for the analysis in this paper.

^{[4]}The results showed that in all in vitro experiments only aglycones have anti-inflammatory activity in PMNs and HUVECs models in the concentration range 1-50 μM.

^{[5]}This articles proposes a dynamic sustainability assessment method based on system dynamics modeling of behaviors and systemically connects economic, environmental, and social impact assessments in manufacturing system sustainability assessment.

^{[6]}The crude protein requirement of Channa striata was estimated by the saturation kinetics model to be 51.

^{[7]}In this article, we study the null controllability of a linear system coming from a population dynamics model with age structuring and spatial diffusion (of Lotka–McKendrick type).

^{[8]}Using vehicle–track dynamics theory, we establish a railway vehicle–track dynamics model with a 30t axle load.

^{[9]}This research aims to build a specific logistics model for tuna loin business based on Central Sulawesi resources as a productive supplier for exportation.

^{[10]}(A) heutige Struktur, (B) ein lineares CCU Modell, (C) ein CCS Modell.

^{[11]}During the analyses, two ANN models were applied: considering the entire factors aforementioned (CS model) and excluding seismic factors above (ES model).

^{[12]}A full lumped kinetics model study is presented to describe the oxy-cracking reaction.

^{[13]}In this paper, a new guidance law based on SDRE method is designed to solve the problem of terminal angle constraint of a missile by using nonlinear kinematics model and dynamic model of a missile.

^{[14]}Here, by combining in-situ high-speed high-resolution synchrotron x-ray imaging experiments and multi-physics modeling, we unveil the dynamics and mechanisms of pore motion and elimination in the LPBF process.

^{[15]}This chapter presents the control strategies and codesign based on the NCS models presented in Chap.

^{[16]}In this chapter we describe how to implement geophysical fluid dynamics models in Firedrake, focusing on two-dimensional models.

^{[17]}In this work, we study the size of this bias by studying several new physics models and fiducial phase-space regions.

^{[18]}The data were analyzed using descriptive statistics such as mean, percentage, chi-square and mathematical approach data envelopment analysis DEA, econometrics model such as Tobit.

^{[19]}We then review some surprising ways that language impacts semantic knowledge, and discuss how distributional semantics models can help us better understand its role.

^{[20]}In this study, we propose an adaptive Kriging method to build a fast-to-evaluate surrogate of the GCS model to alleviate the heavy computational burden.

^{[21]}The optimal control problem coupling with traction power system and vehicle dynamics model is formulated.

^{[22]}Based on a novel simplification of the driving force of the robot, a quasi-statics model is established to estimate the contact torque.

^{[23]}Up to our knowledge, this is the first SCCS model with flexible intensity able to handle multiple longitudinal features in a single model.

^{[24]}This allows one to fit parameters of a broad class of new physics models to combined Higgs, electroweak, quark flavour, and lepton flavour observables.

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