In a radio stripe ISAC system, dedicating more units to sensing improves target localization precision at the cost of lower communication sum rates, with sum rate depending only on the count of communication units and antenna count showing non-monotonic sensing effects due to array gain versus area-
Two-stage distributed beamforming design in cell-free massive MIMO ISAC systems
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Radio Stripe-Based Distributed ISAC System with Dynamic Sensing-Communication Reconfiguration
In a radio stripe ISAC system, dedicating more units to sensing improves target localization precision at the cost of lower communication sum rates, with sum rate depending only on the count of communication units and antenna count showing non-monotonic sensing effects due to array gain versus area-