Perancangan Inovasi Drone Pencegah Penyebaran Covid-19 Menggunakan Integrasi Model Kano dan HOQ

Fariza Halidatsani Azhra; Nayoko Prasetyo Jati; Magister Alfatah Kalijaga

doi:10.24123/saintek.v2i2.4546

Fariza Halidatsani Azhra Teknik Industri, Fakultas Teknologi Industri, Universitas Islam Indonesia, Sleman-Indonesia
Nayoko Prasetyo Jati Teknik Industri, Fakultas Teknologi Industri, Universitas Islam Indonesia, Sleman-Indonesia
Magister Alfatah Kalijaga Teknik Industri, Fakultas Teknologi Industri, Universitas Islam Indonesia, Sleman-Indonesia

DOI: https://doi.org/10.24123/saintek.v2i2.4546

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Keywords: Disease Transmission Tool, Model Kano, Virus COVID-19

Abstract

Abstract—COVID-19 be a concern in all countries because of its rapid spread through droplets or airborne. The COVID-19 Task Force recorded that 1.4 million Indonesians were exposed to the virus. The government has established health protocols, one of which is social distancing. However, as time goes by, people's awareness of the dangers of COVID 19 is decreasing. Many people violate health protocols and crowd in various places. Based on these problems, a disease transmission prevention tool is designed to reducing the spread of the virus. The method used in this research is Kano Model. From the results of the voice of customer and Kano Model analysis, it was found that the drone that consumers want is have a disinfectant in the form of 360⁰ UVC rays, sound transmission in the form of a mic along with speakers, both of which are included in the attractive category, while the one-dimensional category is a temperature gauge in the form of infrared rays to help detect the symptoms of the COVID-19 virus. The presence of PATRON is expected to help the COVID-19 Task Force in an effort to prevent the transmission of the COVID-19 virus.

Keywords: disease transmission tool, kano model, covid-19

Abstrak—Virus COVID 19 menjadi perhatian di berbagai negara dikarenakan penyebaranya yang cepat melalui droplet atau airborne. Berdasarkan data SATGAS COVID 19 tercatat sejumlah 1,4 juta penduduk indonesia terpapar virus. Pemerintah menetapkan berbagai protokol kesehatan untuk mengurangi risiko penyebaran virus, salah satunya yaitu menjaga jarak. Namun, seiring berjalannya waktu kesadaran penduduk akan bahaya COVID 19 semakin berkurang. Banyak masyarakat yang melanggar protokol kesehatan dan berkerumun di berbagai tempat. Sebagai langkah mengurangi jumlah kerumunan, dibutuhkan sebuah alat untuk membubarkan kerumunan dengan tujuan mengurangi penyebaran virus. Berdasarkan permasalahan tersebut, maka dirancang disease transmission prevention tool. Metode yang digunakan dalam perancangan desain alat adalah Model Kano. Dari hasil voice of costumer dan analisis Model Kano, didapatkan hasil bahwa drone yang dihendaki oleh konsumen yaitu memiliki disinfektan berupa sinar UVC 360⁰, transmisi suara berupa mic beserta speaker, kedua hal tersebut termasuk kedalam kategori attractive, sedangkan kategori one dimensional yaitu pengukur suhu berupa sinar infrared untuk membantu mendeteksi gejala virus COVID-19. Kehadiran PATRON diharapkan dapat membantu membantu SATGAS COVID-19 dalam upaya pencegahan penularan virus COVID-19.

Kata kunci: disease transmission tool, model kano, covid-19

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References

Adrian, K., 2021. Alodokter Kementrian Kesehatan Republik Indonesia. [Online]

Available at: https://www.alodokter.com/mengenal-covid-19-varian-delta [Accessed 15 Juli 2021].

Berger, C., 1993. "Kano's methods for understanding customer-defined quality,". Center for quality management journal, Volume 2, pp. 3-36.

Budiarti, P. W., 2016. Analisis Thermal Signature Wajah Manusia Pada Saat Aktivitas Jogging dengan Teknik Termografi Inframerah, Surabaya: ITS.

Fraenkel, J. & Wallen, N., 1993. How to Design and Evaluate Research in Education. New York: McGraw-Hill Inc..

Jati, B. & Putra, G. R. A., 2020. Optimalisasi Upaya Pemerintah dalam Mengatasi Pandemi Covid-19 Sebagai Bentuk Pemenuhan Hak Negara. Jurnal Sosial dan Budaya Syar'i, 7(5), pp. 473-483.

Kano , N., Seraku, N., Takahashi, F. & Tsuji, S., 1984. Attractive Quality and Must-be Quality. The Journal of the Japanese Society for Quality Control, pp. 80-101.

Kitagawa, H. et al., 2020. Effectiveness of 222-nm ultraviolet light on disinfecting SARS-CoV-2 surface contamination. American Journal of Infection Control, pp. 1-3.

Kusuma, Y. W., 2021. Kompas.com. [Online] Available at: https://regional.kompas.com/read/2021/07/13/193620778/186-pelanggaran-terjadi-selama-sepekan-ppkm-darurat-di-sleman [Accessed 15 Juli 2021].

Mustiko, C., Muvianto, O. & Yuniarto, K., 2020. Pemanfaatan UV-C Chamber Sebagai Desinfektan Alat Pelindung Diri untuk Pencegahan Penyebaran Virus Corona. Jurnal Abdi Insani Universitas Mataram, 7(1), pp. 87-92.

Putri, S. I. & Anulus, A., 2020. Preventive Actions to Minimizing The Coronavirus Disease 19 (COVID-19) Transmissions Among Health Workers: a Systematic Review. Journal of the Medical Sciences, 52(3), pp. 148-157.

Rif'ah, A., Sitania, F. D. & Gunawan, S., 2020. Perancangan Produk Pai Buah Lai Dengan Menggunakan Model Kano dan Metode QFD. Jurnal Agritechnno, 13(2), pp. 112-119.

Shimoda, H., Matsuda, J., Iwasaki, T. & Hayasaka, D., 2021. Efficacy of 265-nm ultraviolet light in inactivating infectious SARS-CoV-2. Journal of Photochemistry and Photobiology, Volume 7, pp. 1-3.

Yusup, F., 2018. Uji Validitas dan Reliabilitas Instrumen Penelitian Kuantitatif. Jurnal Tarbiyah: Jurnal Ilmiah Kependidikan, 7(1), pp. 17-23.