Stop-and-go suppression in two-class congested traffic
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Publication:2663877
DOI10.1016/j.automatica.2020.109381zbMath1471.93096arXiv1905.06476OpenAlexW3112889796MaRDI QIDQ2663877
Mark Burkhardt, Huan Yu, Krstić, Miroslav
Publication date: 20 April 2021
Published in: Automatica (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1905.06476
Control/observation systems governed by partial differential equations (93C20) Feedback control (93B52) Traffic problems in operations research (90B20)
Related Items (3)
Controller design for heterogeneous traffic with bottleneck and disturbances ⋮ Robust state-feedback stabilization of an underactuated network of interconnected \(n + m\) hyperbolic PDE systems ⋮ A stochastic model for stop-and-go phenomenon in traffic oscillation: on the prospective of macro and micro traffic flow
Cites Work
- Unnamed Item
- A new dynamic model for heterogeneous traffic flow
- Input-to-state stability for PDEs
- Heterogeneous traffic flow modelling using second-order macroscopic continuum model
- Traffic congestion control for Aw-Rascle-Zhang model
- Robust output feedback stabilization for two heterodirectional linear coupled hyperbolic PDEs
- Finite-time output regulation for linear \(2\times 2\) hyperbolic systems using backstepping
- Control of Homodirectional and General Heterodirectional Linear Coupled Hyperbolic PDEs
- Hyperbolicity and kinematic waves of a class of multi-population partial differential equations
- Boundary Exponential Stabilization of 1-Dimensional Inhomogeneous Quasi-Linear Hyperbolic Systems
- Boundary Feedback Stabilization of a Class of Coupled Hyperbolic Equations With Nonlocal Terms
- Feedback Control of Nonlinear Hyperbolic PDE Systems Inspired by Traffic Flow Models
- Stabilization of a System of <formula formulatype="inline"> <tex Notation="TeX">$n+1$</tex></formula> Coupled First-Order Hyperbolic Linear PDEs With a Single Boundary Input
- Necessary and Sufficient Conditions on the Exponential Stability of Positive Hyperbolic Systems
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