Designing continuous delay feedback control for lattice hydrodynamic model under cyber-attacks and connected vehicle environment
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Publication:2219606
DOI10.1016/j.cnsns.2020.105667zbMath1456.82635OpenAlexW3112599545MaRDI QIDQ2219606
Publication date: 20 January 2021
Published in: Communications in Nonlinear Science and Numerical Simulation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cnsns.2020.105667
Feedback control (93B52) Traffic problems in operations research (90B20) Dynamic lattice systems (kinetic Ising, etc.) and systems on graphs in time-dependent statistical mechanics (82C20) PDEs on time scales (35R07) Traffic and pedestrian flow models (76A30)
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Cites Work
- Unnamed Item
- A new lattice model of two-lane traffic flow with the consideration of optimal current difference
- Analysis of drivers' characteristics on continuum model with traffic jerk effect
- A lattice hydrodynamic model based on delayed feedback control considering the effect of flow rate difference
- An extended car-following model to describe connected traffic dynamics under cyberattacks
- An extended lattice hydrodynamic model considering the delayed feedback control on a curved road
- An extended lattice hydrodynamic model considering the driver's sensory memory and delayed-feedback control
- Analysis of a novel lattice hydrodynamic model considering density integral and ``backward looking effect
- Analysis of a novel two-lane lattice model on a gradient road with the consideration of relative current
- An improved car-following model accounting for the time-delayed velocity difference and backward looking effect
- Analysis of mixed traffic with connected and non-connected vehicles based on lattice hydrodynamic model
- A new lattice model of traffic flow with the consideration of individual difference of anticipation driving behavior
- Study on the effects of driver's lane-changing aggressiveness on traffic stability from an extended two-lane lattice model
- Analysis of a modified two-lane lattice model by considering the density difference effect
- A Lattice Model for Bidirectional Pedestrian Flow on Gradient Road
