This study presents a method for verifying the reliability and stability of data communication using the MQTT protocol in a smart livestock barn environment. To achieve this, a testbed resembling an actual livestock barn was constructed, and a broker and sensor nodes were configured to transmit and receive temperature, humidity, and carbon dioxide data. Experiments focused on communication performance at different QoS levels and load changes with increasing sensor node counts. Analysis revealed that transmission reliability improved with higher QoS levels. Stable communication was maintained at QoS 1 or higher, achieving 0% packet loss rate and an integrity metric of 0.998 or higher. When the number of nodes increased, the average delay time rose to 121.4–174.5 ms, but no bottlenecking was observed. These results demonstrate that MQTT communication enables stable and efficient data exchange even in constrained wireless network environments like livestock barns. This study can serve as foundational data for future standardization of smart barn communications and the establishment of performance evaluation criteria.