INTEGER: Journal of Information Technology

Spectroscopy method can be used to identify the type of gas by passing light into the sample gas and light are described using a monochromator. The resulting light captured using the detector that will produce different spectra for each gas. The light source can use incandescent lamps or using Light Emitting Diode (LED). If the tested gas is a type of gas that is difficult to be taken, such as the type of toxic gas, gas from the output of the volcano, so this way you will have trouble, and the data obtained is not real time. In this study designed a system of identification of gas or smoke in the air using a spectrophotometer using solar light. The spectrum of light that has been absorbed by the gas or fumes captured using a telescope, then described using a monochromator produces gray level curve representing the absorption of each wavelength of light. The sample used in this study is the smoke of burning oil, sulfur and dry leaves. The curve of each sample generated, analyzed and identified the type of smoke using Artificial Neural Network (ANN) with backpropagation training algorithm. The architecture consists of input layer, hidden and output. Input node number is 197, the number of neurons in the first hidden layer is 150, the number of neurons in the second hidden layer is 20, and the number of neurons in the output layer is 4. In this ANN learning process entails iterating as many as 900 epoch and the results can distinguish the smoke oil , sulfur and dry leaves. The success rate of 70% for oil and dried leaves, 80% for sulfur.

A Arifin, “Bahan ajar Mata Kuliah Sistem Elektronika Cerdasâ€, Institut Teknologi Sepuluh Nopember, 2013

Bo Galle,†Network for Observation of Volcanic and Atmospheric Change (NOVAC)—A global network for volcanic gas monitoring: Network layout and instrument descriptionâ€, Journal of Geophysical Research. VOL. 115, D05304, doi:10.1029/2009JD011823, 2010

Clive , “Exploiting ground-based optical sensing technologies of volcanic gas surveillanceâ€, Cambridge Volcanology Group, Departement of Geography, University of Cambridge. 2004.

Choirul Anam, Sirojudin, KS Firdausi, “Analisis Gugus Fungsi Pada Sampel Uji Bensin Dan Spiritus Dengan Menggunakan Metode Spektroskopi FTIRâ€, Berkala Fisika Vol 10 no 1, Indonesia 2007.

H Humaida, “Pengukuran Emisi SO2 dengan DOAS (Differential Optical Absorption Spectroscopy) dan COSPEC (Correlation Spectroscopy) di Gunung Merapi (Indonesia)â€. Indo. J. Chem. 2008, 8(2), 151-157.

E Jatmiko, E Prasetyo1, MAzam1, “RancangBangun Spektroskopi Cahaya Tampak Untuk Penentuan Kualitas Susu Dengan Menggunakan Jaringan Syaraf Tiruanâ€, Berkala Fisika Vol 7 No 2, Indonesia 2004.

Kantzas P. Euripdes and McGonigle J.S Andrew, “Groung Based Ultraviolet Remote Sensing Of Volcanic Gas Plumeâ€, Sensor 2008, 8.1559-1574.

SF Retnowati, “ Identifikasi Gas Menggunakan Kisi difraksi dan Jaringan Syaraf Tiruanâ€, Tesis, ITS-Surabaya 2012.