This study experimentally analyzes optimization techniques for securing real-time inference performance of TinyML models in a microcontroller (MCU) environment. Specifically targeting the ESP32-S2 platform without a Floating-Point Unit (FPU), we evaluated the performance limitations of floating-point operations and verified the effects of applying 8-bit integer quantization. Experimental results showed that integer quantization provided approximately 4 times faster inference speed and reduced memory usage by over 75% compared to the floating-point +model, with minimal accuracy degradation. The study demonstrates that appropriate quantization and integer arithmetic optimizations enable real-time processing of TinyML models even in constrained MCU environments, highlighting their practical applicability to IoT applications.