String-Stable CACC Design and Experimental Validation: A Frequency-Domain Approach
Eindhoven University of Technology · Netherlands Organisation for Applied Scientific Research
Abstract
The design of a cooperative adaptive cruise-control (CACC) system and its practical validation are presented. Focusing on the feasibility of implementation, a decentralized controller design with a limited communication structure is proposed (in this case, a wireless communication link with the nearest preceding vehicle only). A necessary and sufficient frequency-domain condition for string stability is derived, taking into account heterogeneous traffic, i.e., vehicles with possibly different characteristics. For a velocity-dependent intervehicle spacing policy, it is shown that the wireless communication link enables driving at small intervehicle distances, whereas string stability is guaranteed. For a…
Citation impact
- FWCI
- 41.55
- Percentile
- 100%
- References
- 40
Authors
5- GNGerrit NausCorresponding
Eindhoven University of Technology
- RPRene P A Vugts
Eindhoven University of Technology
- JPJeroen Ploeg
Netherlands Organisation for Applied Scientific Research
- MJMarinus J G van de Molengraft
Eindhoven University of Technology
- MSM. Steinbuch
Eindhoven University of Technology
Topics & keywords
- Cooperative Adaptive Cruise Control
- String (physics)
- Control theory (sociology)
- Stability (learning theory)
- Frequency domain
- Wireless
- Controller (irrigation)
- Computer science