Sistem monitoring dan kontrol kelembaban dan suhu rumah jamur berbasis internet of things menggunakan protocol http

Ragil, Aryanto (2018) Sistem monitoring dan kontrol kelembaban dan suhu rumah jamur berbasis internet of things menggunakan protocol http. Undergraduate Thesis thesis, Institut Teknologi Telkom Purwokerto.

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Abstract

Oyster mushroom plants are currently experiencing an increase in order to meet food security. The requirement for oyster mushrooms to grow optimally is that a temperature between 22-28ºC and humidity between 80-90% is needed, but many farmers ignore it. In the development of technology, it is currently used in making models of room temperature and humidity regulators of oyster mushroom houses using the Atmega 2560 microcontroller and DHT22 sensors. An automatic temperature and humidity control system based on Internet of Things (IoT) is a concept that utilizes a continuously connected internet connection. To find out the accuracy of the system made. The results of temperature and humidity testing of the performance of the DHT22 sensor and digital thermohygrometer results both have an error or inaccuracy that is equal to 0.5% at temperature and 0.601% in humidity. The reliability of the testing system is done by using Wireshark software. The results of the experimental interval obtained in the DHT22 sensor data were 15,485 and 30,613 second, experienced an increase in delay, but experienced a decrease in throughput. This is due to the effect of the delay function on the arduino program listing and to produce a packet loss of 0% which indicates that no package is lost when sending. The results of the comparison test between LCD display and HTTP client with testing for 2 hours with 15 minutes of data retrieval which is carried out in 2 stages with different times of day and night getting the same results. The sprayer nozzle on performance results are 3 times with the stipulated conditions an average increase of 1 oC and 1% takes approximately ± 60 seconds. Keywords: Oyster mushroom cultivation, Internet of Things, temperature and humidity control

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