A hardware-timed radio beacon approach achieves approximately 20 ns synchronization delay at 1000 Hz without stack activity and sub-500 ns accuracy under typical BLE conditions in multiprotocol IoT systems.
Closed-loop transmission power control for reliable and low-power ble communication in dynamic iot settings
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Enhanced-BLE hybrid framework uses adaptive scheduling to combine ESB high-throughput forward transmission with BLE reliable reverse communication, achieving roughly 2x throughput, 20x lower wake-up energy, and 18 ms handovers on existing Nordic hardware.
ESB protocol cuts packet latency to 0.68 ms, halves transmission time and energy, doubles throughput, reduces wake-up overhead up to 10x, and lowers total system power by 60% versus BLE in on-demand sensing tests.
citing papers explorer
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Multiprotocol Wireless Timer Synchronization for IoT Systems
A hardware-timed radio beacon approach achieves approximately 20 ns synchronization delay at 1000 Hz without stack activity and sub-500 ns accuracy under typical BLE conditions in multiprotocol IoT systems.
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Enhanced-BLE: A Hybrid BLE-ESB Framework for Dynamically Reconfigurable and Energy-Efficient 2.4 GHz IoT Communication
Enhanced-BLE hybrid framework uses adaptive scheduling to combine ESB high-throughput forward transmission with BLE reliable reverse communication, achieving roughly 2x throughput, 20x lower wake-up energy, and 18 ms handovers on existing Nordic hardware.
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Enhanced ShockBurst for Ultra Low-Power On-Demand Sensing
ESB protocol cuts packet latency to 0.68 ms, halves transmission time and energy, doubles throughput, reduces wake-up overhead up to 10x, and lowers total system power by 60% versus BLE in on-demand sensing tests.