Simulations for the same FVM force vector law but with three values of the force exponent, with AIB = 100, seed 91. by G. Jordan Maclay (11714526)

Subjects:

DSP: Digital Spatial Profiling. by Jinho Lee (587173)

“…Ki-67, CDK6, and CD45 levels decreased in the LTT group, while INPP4B and BCL6 increased. …”

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–None. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Mechanical. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Vertical force–Fuzzy. by Tuan Anh Nguyen (121944)

“…Besides, the speed of the vehicle is also gradually increased from v₁ to v₄. As a result of the simulation, which was performed in the MATLAB-Simulink environment, the output values such as roll angle, change of the vertical force, and roll index were significantly reduced when the active stabilizer bar was used. …”

Spatial error model under nested matrix. by Li-Min Wang (783263)

Subjects:

Spatial stability is decreased in APP/PS1 mice in both dCA1 and vCA1. by Udaysankar Chockanathan (18510288)

Comparison of spatial working memory assessed by the Y-maze test between the CCH and control groups. by Jung-In Lee (1731727)

The SHAP force plots. by Tianzhi Huang (115630)

Estimation results of spatial Durbin panel data model. by Yuanzhi Guo (16624797)

Summary results of the logistic regression model M2-12 including the significant two-way interactions to maximise loglikelihood. by Dennis Ochola (11626912)