Toward Safe and Energy-Efficient 5G NR V2X Communications in Rural Environments
Abstract
Connected braking can reduce fatal collisions in connected and autonomous vehicles (CAVs) by using reliable, low-latency 5G New Radio (NR) links, especially NR Sidelink Vehicle-to-Everything (V2X). In rural areas, road side units are sparse and power-constrained, so energy efficiency must be considered alongside safety. This paper studies how three communication control factors including subcarrier spacing (SCS), modulation and coding scheme (MCS), and transmit power (Pt) should be configured to balance safety and energy consumption in rural scenarios in light and heavy traffic scenarios. Safety is quantified by the packet receive ratio (PRR) against the minimum communication distance Dcomm, defined as the distance that the vehicle travels during the transmission of the safety message. Results show that, under heavy traffic, increasing Pt and selecting a low-rate MCS at SCS = 30 kHz sustains high PRR at Dcomm, albeit with higher energy cost. In light traffic, maintaining lower Pt with low MCS levels achieves a favorable reliability-energy trade-off while preserving acceptable PRR at Dcomm. These findings demonstrate the necessity of adaptive, energy-aware strategy to guarantee both safety and energy efficiency in rural V2X systems.
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