Jqbt: Bluetooth Driver Top Better

The results demonstrate that intelligent scheduling at the driver interface significantly outperforms the standard FIFO approach. Future work will focus on integrating jqbt with the Bluetooth Mesh profile to optimize flooding network relay times.

The proliferation of Bluetooth Low Energy (BLE) and Bluetooth Classic dual-mode devices in Internet of Things (IoT) and real-time computing environments has exposed the limitations of legacy monolithic driver stacks. Traditional stacks often suffer from high context-switch overhead, non-deterministic latency in the HCI (Host Controller Interface) layer, and inefficient buffer management. This paper presents jqbt (Json-Queued Bluetooth Transport), a novel driver architecture implementing a "top-down" processing model. By prioritizing application-layer Quality of Service (QoS) at the driver entry point and utilizing a lock-less ring buffer for HCI transaction management, jqbt significantly reduces transmission latency and CPU utilization. Benchmark results indicate a 40% reduction in jitter for audio streaming and a 25% throughput improvement in bulk data transfer compared to the standard Linux BlueZ stack under heavy system load. jqbt bluetooth driver top

jqbt: A High-Performance, Top-Down Modular Bluetooth Driver Architecture for Real-Time Systems The results demonstrate that intelligent scheduling at the

Windows frequently turns off budget USB Bluetooth dongles to save electricity, causing drivers to crash. Benchmark results indicate a 40% reduction in jitter

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