Aldyanto, R Dicky Budi (2014) Sistem Pengaturan Suhu Ruangan Yang Adaptif Dengan Integrasi Positioning System Berbasis Wi-Fi Dan Sensor Suhu. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Sistem HVAC (Heating, Ventilation, and Air Conditioning)
pada bangunan mengeluarkan kurang lebih 50% energi dari total
energi yang dikeluarkan oleh bangunan. Pemakaian pendingin
ruangan yang tidak terkontrol, seperti halnya membiarkan
pendingin ruangan tetap menyala meskipun tidak terdapat
seseorang di ruangan tersebut. Dibutuhkan suatu sistem yang
dapat mengatur pendingin ruangan untuk mengurangi jumlah
energi yang terbuang secara percuma. Sistem tersebut tidak hanya
melakukan efisiensi energi, namun juga dapat mengatur suhu ideal
di dalam ruangan secara dinamis.
Kondisi pendingin ruangan berubah secara dinamis terkait
dengan jumlah orang yang berada di dalam ruangan dan suhu
lingkungan. Pendingin ruangan dapat menyala secara otomatis
ketika terdapat orang yang berada di dalam, dan akan mati bila
ruangan kosong. Suhu pada pendingin ruangan berubah secara
dinamis mengikuti naik dan turunnya suhu lingkungan, namun
juga ditetapkan batas atas dan batas bawah suhu pendingin
ruangan untuk mencegah suhu di dalam ruangan terlalu dingin
maupun terlalu panas. Mikrokontroler Arduino tersambung pada
sensor suhu dan pengendali pendingin ruangan jarak jauh yang
berfungsi memberikan perintah pada pendingin ruangan.
Data jumlah orang yang terdapat di dalam ruangan diperoleh
dari Indoor Positioning System dan data suhu lingkungan
digunakan server untuk menentukan suhu ideal secara dinamis di
dalam ruangan dan perintah yang akan dikirimkan pada
mikrokontroler melalui jaringan WLAN. Pengguna dapat melihat
data informasi terkini melalui aplikasi web dan mobile.
Sistem yang telah dibangun kemudian diuji coba mulai dari
uji fungsionalitas hingga uji performa dengan menggunakan
beberapa skenario yang telah ditentukan. Berdasarkan uji coba
tersebut, dapat disimpulkan bahwa sistem telah mampu
memerintah pendingin ruangan dan memberikan suhu secara
dinamis dengan integrasi jumlah orang di dalam ruangan dan
suhu lingkungan.
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HVAC (Heating, Ventilation, and Air-conditioning) systems
in buildings use approximately 50% energy from the total energy
consumed by the building. For example, uncontrolled use of air
conditioning as well as allowing the AC stays on when no one in
the room. From the above problems, we need a system that can
automatically adjust the air conditioning in order to reduce the
amount of energy wasted in vain. The system not only can improve
efficiency of energy, but also can adjust the ideal indoors
temperature dynamically.
The state of air conditioner change dynamically depends on
the amount of a person that was in the room, as well as
environmental temperature. Air conditioner can be turned on
automatically when there is a person inside, and will automatically
turns off when the room is empty. Air conditioner temperature can
change dynamically depends on the surrounding environment. Air
conditioner temperatures will be set upper limit and lower limit to
prevent the temperature in the room becomes too hot or too cold.
Arduino microcontroller is connected to a temperature sensor and
an AC remote controller that serves as a conduit command on the
AC.
Information about the number of a person that were in the
room obtained from the mechanism of the indoor positioning
system. Environmental data temperature used by the server to
dynamically determine the ideal temperature in the room, the data
is also used to specify a command to be sent to the microcontroller
via a WLAN network. Users can see recent data information
through the web or mobile application.
The system that has been built will be tested ranging from the
functionality test to performance test by using pre-determined
scenarios. Based on the tests that have been done, concluded that
the system can adjust the air conditioning and provide temperature
dynamically with the integration of total amount of person inside
the room and environmental temperature.
Item Type: | Thesis (Undergraduate) |
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Additional Information: | RSIf 629.89 Ald s 3100014056331 |
Uncontrolled Keywords: | Smart Room, Suhu Adaptif, Mikrokontroler, Arduino, Indoor Positioning System. |
Subjects: | H Social Sciences > HD Industries. Land use. Labor > HD9696 Temperature control equipment |
Divisions: | Faculty of Information Technology > Informatics Engineering > 55201-(S1) Undergraduate Thesis |
Depositing User: | Yeni Anita Gonti |
Date Deposited: | 11 Nov 2020 05:54 |
Last Modified: | 11 Nov 2020 05:54 |
URI: | http://repository.its.ac.id/id/eprint/82240 |
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