This week, I conducted stability testing for the project in real-life conditions, aiming to assess its continued functionality over an extended period. The testing took place at two different locations: a home kitchen and a school laboratory. The duration of the testing was from 8 a.m. to 12 midnight, with measurements taken every two hours. The objective of the testing was to evaluate the air quality, noise level, temperature, and humidity in the respective environments. By monitoring these parameters, I aimed to determine whether the project could effectively provide accurate readings and detect pollution in real-world scenarios.
Based on the stability testing conducted at both locations, all parameter readings remained within normal ranges throughout the testing period. The sensors detected no sudden increases in readings or pollution. Therefore, I cannot see the effectiveness and functionality of the project output when the readings of both sensors were within the set threshold. However, this outcome suggests that even though the selected locations may have the potential for poor air quality or unfavourable temperature and humidity levels, the project successfully informs individuals about the current conditions, allowing them to determine if the environment is safe and comfortable. There was a slight increase in parameter readings during specific activities such as cooking in the kitchen and a laboratory experiment session. However, these increases were minimal and well within acceptable limits.
In conclusion, this week's stability testing represents an initial step toward implementing the project in an industrial setting. The results demonstrate the project's ability to provide reliable and accurate information regarding air quality, noise level, temperature, and humidity in real-life environments, ensuring the safety and comfort of individuals occupying those spaces.
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