| 词汇 | example_english_simulation |
| 释义 | Examples of simulationThese examples are from corpora and from sources on the web. Any opinions in the examples do not represent the opinion of the Cambridge Dictionary editors or of Cambridge University Press or its licensors. Three-dimensional simulations of ion acceleration from a foil irradiated by a shor t-pulse laser. The theoretical results are supported by numerical simulations which have been compared with the experimental results. Experimental results have been analyzed with computer simulations. We report the average performance of these five example simulations. The design of the following simulations is relatively straightforward. We have some minor concerns regarding the interpretation of these simulations. Subjects show a pattern of results similar to that of model simulations as sensory input is degraded. In the above examples, computer simulations and robot experiments give comparable results and are both used to test and support the plausibility of biological models. In the following set of simulations, we systematically increased the distinctiveness of the targets: such a manipulation has not been done before experimentally. There is, however, even a deeper sense in which the robot (and the simulations) are models for embodiment. Several commentators extend the ethos of our simulations. I submit that such empirical work and neuroscience-based modeling should weigh more than ideological preconceptions and computer simulations. The simulations have been carried out for populations with two different growth rates. Again, we should note that the origin of these simulations apparently is not in the real life of the dreamer. Quantification of modelling uncertainties in a large ensemble of climate change simulations. The effectiveness of the proposed algorithm has been proved through simulations. Preliminary simulations were performed to assess the extent to which tsetse penetrated the target barrier. The simulations suggest that the most advanced countries stand to benefit most from use restriction while the least advanced stand to lose. We narrate salient results of the simulations in aggregate below. Using simulations, we have seen that increases in abatement spending may yield a win-win situation. Specification of the equations and the parameter values assumed in the simulations are presented in table 2. Due to technical difficulties in randomizing which factors receive a boost, simulations were run for a subset of possible combinations of productivity improvements. Numerical simulations are carried out under the standard assumptions of earlier studies. Section 3 presents and interprets the results from numerical simulations. Counterfactual simulations are also presented to highlight what might happen if things take a different turn. The simulations, however, only indicate small profitability differences among various combinations of control months towards the start of the planting season. However, in the simulations t is still used because we believe that collective activities are essential in providing irrigation services. We also present some simulations, and show global existence of solutions for the parabolically regularized problem. We then compare the outcomes of the carbon reduction simulations with the baseline solution. We also present an algorithm for numerical approximations of the solutions and give some representative numerical simulations. The finite element scheme described above has been implemented and applied to various thin film simulations. We observe these in numerical simulations, and provide some analysis of the overall structure in terms of asymptotics, phase portraits, and dynamical systems. Biorobots are not going to replace computer simulations, as they are complementary tools. On the other hand, computer simulations have the desirable feature that everything about the model is explicitly represented. Both of these simulations used exactly the same number of ticks. Unfortunately, it is much harder to reproduce simulations from the literature. Such simulations could be used to track the course of the speaker's turn, predict when that turn will end, and so on. The same set of simulations also yielded allele numbers and diversity (expected heterozygosity) values at the neutral locus under the infinite alleles model. Large-eddy simulations are simply numerical solutions to these equations. Therefore, we have also conducted three-dimensional direct simulations of the early stages of the frontal breakdown in the course of our study for validation purposes. In 2, background information concerning the flow and the simulations is presented along with some fundamental results. The same release time was used in all the simulations. Data from large-eddy simulations are expected to be an effective aid in pursuing this line of research. The simulations presented in this paper used four levels of grid refinement, with refinement ratios of 4 in each case. The numerical simulations allow for a complete investigation of the finite deformation of both the outer drop and the encapsulated particle. Discrepancies at high selfing rate occur, when all elements are lost from the simulations. From the trends revealed by the simulations, we can formulate expectations for the extreme case of free recombination. The simulations showed that the power to detect epistasis is high and that it increases with the heritability. Afterwards, we check the validity of the analytical approach by simulations. Our simulations showed that selection against large size (associated with biased mutation) similarly decreased within-population variability in both panmictic and clonal populations. An empirical route was followed through the use of stochastic simulations and comparisons with traditional truncation selection. Among the 1000 simulations, the proportion of significant simulations was used as a power estimate. Further simulations in larger populations confirmed the expected results. Stochastic simulations are necessary for a full understanding of clines in polygenic traits. Our first set of simulations was carried out to investigate the performance of the proposed test when all chromosomes were identical in length. The same matrix is used for all simulations discussed in this paper. Thus, simulations can assist in the design of empirical research on several aspects of genetic parentage in species with polygynous or polyandrous mating systems. We did not find this in our simulations. In the simulations reported below, individuals consist of 7 chromosomes, each experiencing an average of 1 recombination event per chromosome. I develop computer simulations and analytical approximations of element transposition and selection under mixed mating. A large number of simulations and sample schemes were examined in this study. The black triangle pinpoints the true parameter values for the simulations. We do not use any simulations in the proof of our theorems. Nevertheless, the current trend is increasingly to account for precise effects even in large-scale simulations. Any processes that exist in both simulations are pruned; the rest are the unique ones. A representation for comparing simulations and computing the purpose of geometric features. To compare the two simulations, our program first represents them as sequences of causal processes and prunes out any processes common to both. Figure 3 shows the collection of causal processes from the nominal and modified simulations the history lists are not shown!. The simulations are then translated into a "causal-process" representation, which allows qualitatively impor tant differences to be identified. We do not have to sell you on the idea that simulations are potentially useful in technical education of all sor ts. The "cost" column shows the total number of simulations used in the 16 optimizations. We have performed power simulations to estimate the maximum possible intermarker distance that still allows for sufficient power. Extensive simulations under different sampling strategies, heritability levels and gene action modes were performed to investigate the statistical properties of the model. Results for the same set of simulations appear in the same vertical column. In our simulations we considered founding events but not extinctions. The vast majority of reservoir simulations are two-phase, non-linear, non-symmetric models. Their demonstration stands on firmer empirical ground than other simulations which do not even attempt to take into account what input is actually like. Our reasoning is that, by assessing whether the simulation's output mimics the child data, it is possible to test whether such ancillary assumptions are required. The transfer of scientific principles using concrete and idealized simulations. Moreover, the results of several simulations agree with experimental results obtained from the study of biological locomotion. However, it is worth noting that this value remains zero for the simulations in which only 20% of the samples are corrupted by noise. The method has been tested in computer simulations and test results are presented. The effectiveness and robustness characteristics of our proposed method were verified successfully in both simulations and experiments. Numerical simulations for the two and the three-link robot are presented. The resulting ground impact is found to be acceptable from the subsequent dynamic simulations to be discussed in a later section. Their simulations suggest that the resulting algorithm was both computationally feasible and robust to unknown disturbances and timevarying parameters. Seminars, courses, systems analysis, panel discussions, case studies and simulations are some of the solutions suggested. Typically, agent-based simulations have been modeled using reactive agent models that follow a small number of simple rules. The fit of the simulations to the human data is quite good. Several tests of the traditional view have been carried out using connectionist network simulations. The chapters present different types of model architecture illustrated by simulations that are particularly relevant to linguistic and cognitive development. During this procedure, children witnessed live simulations of their parents engaging in a conflict and a subsequent resolution over the telephone. The policy simulations underline the need for sheltering capital formation in the economy as a whole when stimulating higher productivity in the agricultural sectors. The same grouping of countries and the same time horizon are used in the simulations discussed below. In the next section we describe the model we use for simulations. The policy simulations show that the way the emissions tax induces abatement leads to not only lower emissions but also lower costs. Our accurate nonlinear simulations of the full model show that the predictions of the earlier work are approximately valid. The model derived here should find its application in the numerical simulations of various junction devices. A combination of numerical simulations, asymptotic analysis and perturbation techniques is used to study the model and yields results, which agree well with experimentally-observed phenomena. These examples are from corpora and from sources on the web. Any opinions in the examples do not represent the opinion of the Cambridge Dictionary editors or of Cambridge University Press or its licensors. |
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