Vorticity for only RNG <i>k-ε</i> model, t = 21.06 s. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Analysis and design of algorithms for the manufacturing process of integrated circuits حسب Sonia Fleytas (16856403)

"…Additionally, the results obtained from our new ILP model indicate that our genetic algorithm results are very close to the optimal values.…"

Simulated trajectories from real data, optimal schedule, and nearest optimal schedule. حسب Samuel Christensen (9922554)

Effect of stopping an optimal schedule early. حسب Samuel Christensen (9922554)

The fault repair and recovery phase flowchart. حسب Naiwei Tu (22177688)

"…The lower considers the economic effect of the loss during repair and determines the optimal fault repair sequence. Furthermore, an enhanced Nutcracker Optimization algorithm to solve the bilayer model was proposed, determining the dynamic combination of the fault reconfiguration scheme and the repair sequence. …"

The structure of the Resnet50. حسب Nour Eldeen Mahmoud Khalifa (19259450)

"…The process of designing each model can be divided into three phases. The first phase is feature extraction. …"

The bottleneck residual block for Resnet50. حسب Nour Eldeen Mahmoud Khalifa (19259450)

"…The process of designing each model can be divided into three phases. The first phase is feature extraction. …"

The illustration depicts our CQ-CNN architecture for binary image classification. حسب Mominul Islam (3513758)

Secure MANET routing with blockchain-enhanced latent encoder coupled GANs and BEPO optimization حسب Sandeep Jagonda Patil (22048337)

"…The performance of the proposed LEGAN-BEPO-BCMANET technique attains 29.786%, 19.25%, 22.93%, 27.21%, 31.02%, 26.91%, and 25.61% greater throughput, compared to existing methods like Blockchain-based BATMAN protocol utilizing MANET with an ensemble algorithm (BATMAN-MANET), Block chain-based trusted distributed routing scheme with optimized dropout ensemble extreme learning neural network in MANET (DEELNN-MANET), A secured trusted routing utilizing structure of a new directed acyclic graph-blockchain in MANET internet of things environment (DAG-MANET), An Optimized Link State Routing Protocol with Blockchain Framework for Efficient Video-Packet Transmission and Security over MANET (OLSRP-MANET), Auto-metric Graph Neural Network based Blockchain Technology for Protected Dynamic Optimum Routing in MANET (AGNN-MANET) and Data security-based routing in MANETs under key management process (DSR-MANET) respectively.…"

Data in Fig 16. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Data in Fig 7. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Different strategy in Fig 18. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

The grid settings near the manikin. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Boundary conditions used during the simulations. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Data logging in Fig 17. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Unsteady simulation for Fig 12. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Data in Fig 17. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Data in Fig 8. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Sampling points during the 6th respiration. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"

Meshing of the test chamber. حسب Feng Gao (3548)

"…Differences in exhaled gas vorticity and jet penetration depth across different flow models were identified. Finally, combined with the non-iterative algorithm, the optimal strategy of human respiration simulation was proposed. …"