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VANET-GPSR+: A Lightweight Direction-Aware Routing Protocol for Vehicular Ad Hoc Networks
by
Zhang, Zhuhua
, Ye, Ning
in
Communication
/ Design
/ direction awareness
/ Greedy Perimeter Stateless Routing (GPSR)
/ link stability
/ Multiple criteria decision making
/ Network topologies
/ Optimization
/ probability model
/ Protocol
/ routing optimization
/ Vehicles
/ vehicular ad hoc networks (VANETs)
2026
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VANET-GPSR+: A Lightweight Direction-Aware Routing Protocol for Vehicular Ad Hoc Networks
by
Zhang, Zhuhua
, Ye, Ning
in
Communication
/ Design
/ direction awareness
/ Greedy Perimeter Stateless Routing (GPSR)
/ link stability
/ Multiple criteria decision making
/ Network topologies
/ Optimization
/ probability model
/ Protocol
/ routing optimization
/ Vehicles
/ vehicular ad hoc networks (VANETs)
2026
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Do you wish to request the book?
VANET-GPSR+: A Lightweight Direction-Aware Routing Protocol for Vehicular Ad Hoc Networks
by
Zhang, Zhuhua
, Ye, Ning
in
Communication
/ Design
/ direction awareness
/ Greedy Perimeter Stateless Routing (GPSR)
/ link stability
/ Multiple criteria decision making
/ Network topologies
/ Optimization
/ probability model
/ Protocol
/ routing optimization
/ Vehicles
/ vehicular ad hoc networks (VANETs)
2026
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VANET-GPSR+: A Lightweight Direction-Aware Routing Protocol for Vehicular Ad Hoc Networks
Journal Article
VANET-GPSR+: A Lightweight Direction-Aware Routing Protocol for Vehicular Ad Hoc Networks
2026
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Overview
Vehicular Ad hoc Networks (VANETs) feature high node mobility and volatile topologies, rendering the conventional Greedy Perimeter Stateless Routing (GPSR) protocol prone to weak link stability and inefficient route discovery due to its lack of direction awareness. Existing direction-aware improvements typically rely on multi-criteria weighting or clustering, introducing heavy parameter fusion and computational overhead that conflict with the resource-constrained nature of onboard units. To overcome these limitations, this paper presents VANET-GPSR+, a lightweight enhanced routing protocol. Its key novelty is that it discards multi-parameter fusion and relies solely on movement direction, supported by a synergistic framework of three lightweight mechanisms: direction-aware neighbor classification to prioritize nodes with consistent trajectories, adaptive greedy forwarding region expansion in sparse and dynamic networks, and path deviation angle-based next-hop selection. This work builds a probabilistic link lifetime model that theoretically quantifies the stability gains of direction awareness—a novel theoretical foundation. Comprehensive urban and highway simulations show that VANET-GPSR+ improves the packet delivery ratio by 16.3% and reduces end-to-end delay by 27.5% compared with standard GPSR, and it outperforms both OP-GPSR and AK-GPSR. It introduces negligible CPU and memory overhead, with CPU usage over 50% lower than the two benchmark protocols at 80 vehicles/km, and demonstrates strong robustness against varying beacon intervals and communication radii. Retaining GPSR’s stateless and distributed traits, VANET-GPSR+ delivers substantial performance gains with minimal overhead, serving as an efficient routing solution for highly dynamic VANETs.
Publisher
MDPI AG,Multidisciplinary Digital Publishing Institute (MDPI)
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