Show simple item record

dc.contributor.authorIswahyudi, Catur
dc.contributor.authorNovianta, M. Andang
dc.date.accessioned2020-01-03T02:12:33Z
dc.date.available2020-01-03T02:12:33Z
dc.date.issued2019
dc.identifier.citationAvnery S Mauzerall D L Liu J and Horowitz LW, (2011), Global crop yield reductions due to surface ozone exposure: 2. Year 2030 potential crop production losses and economic damage under two scenarios of O3 pollution, Atmos Environ, Vol. 45, pp. 2297–2309 Castell N Viana M Minguillón M C Guerreiro C and Querol X, (2013) Real-world application of new sensor technologies for air quality monitoring, ETC/ACM Technical Paper Departemen Kesehatan, (2012), Parameter Pencemaran Udara dan Dampaknya Bagi Kesehatan Depkes (http://www.depkes.go.id/downloads/udara.pdf). Accessed on March 20 2018 Fenger J, (2009), Air pollution in the last 50 years–from local to global, Atmos Environ, Vol. 43, pp. 13–22 Hagler G S W Solomon P A and Hunt S W, (2013), New Technology for Low-cost, Real-time Air Monitoring, EM Magazine, Air & Waste Management Association. Hidayati R, (2012) Masalah Perubahan Iklim di Indonesia Beberapa Contoh Kasus, Makalah Falsafah Sains, Progam Doktor IPB Holmes N S and Morawska L, (2006), A review of dispersion modelling and its application to the dispersion of particles: an overview of different dispersion models available. Kumar P Ketzel M Vardoulakis S Pirjola L and Britter R, (2011), Dynamics and dispersion modelling of nanoparticles from road traffic in the urban atmospheric environment—a review, Journal Aerosol Sci, Vol. 42, pp. 580– 603 Kumar P Morawska L Birmili W Paasonen P Hu M Kulmala M Harrison R M Norford L and Britter R, (2014), Ultrafine particles in cities, Environ Int, Vol. 66, pp. 1–10 Kumar P Morawska L Martani C Biskos G Neophytou M Di Sabatino S Bell M Norford L and Britter R, (2015), The rise of low-cost sensing for managing air pollution in cities, Environ Int, Vol. 75, pp. 199–205 Løkke M M Seefeldt H F Edwards G and Green O, (2011), Novel Wireless Sensor System for Monitoring Oxygen, Temperature and Respiration Rate of Horticultural Crops Post Harvest, Sensors, Vol. 11, pp. 845-864 Menz FC and Seip H M, (2004), Acid rain in Europe and the United States: an update, Environ Sci, Pol, Vol. 7, pp. 253–265 Mladen K, Zeljko I, and Branko D, (2012), GPRS-Based Electrical Energy Monitoring System, Symposium Industrial Electronics INDEL, pp 282-284 Mouzourides P Kumar P and Neophytou M K A, (2015), Assessment of long-term measurements of particulate matter and gaseous pollutants in South-East Mediterranean, Atmos Environ, Vol. 107, pp. 148–165 Murota K and Hirade K, (2001), GMSK Modulation for Digital Mobile Radio Telephony, IEEE Transactions on Communications, Vol. COM-29, pp. 1044-1050 Ramanathan V and Feng Y, (2009), Air pollution, greenhouse gases and climate change: global and regional perspectives, Atmos Environ, Vol. 43, pp. 37–50 Raul I Gabriel V and Septimiu M, (2012), GPRS Based Data Acquisition And Analysis System With Mobile Phone Control Measurement Vol 45 Issue 6 pp 1462-1470 Sharma P Jain S and Kumar P, (2013), An integrated statistical approach for evaluating the exceedence of criteria pollutants in the ambient air of megacity Delhi, Atmos Environ, Vol. 70, pp. 7–17 Snyder E G Watkins T H Solomon P A Thomas E D Williams R W Hagler G S Shelow D Hindin D A Kilaru V J and Preuss P W, (2013), The changing paradigm of air pollution monitoring, Environ Sci Technol, Vol. 47, pp. 11369–11377 Solomon S Garcia R R Rowland F S Wuebbles D J, (1986), On the depletion of Antarctic ozone, Nature, Vol. 321, pp. 755–758 Solomon S, (1999), Stratospheric ozone depletion: a review of concepts and history, Rev Geophys, Vol. 37, pp. 275– 316 Sudarsono M A Novianta and Purnawan, (2018a), Development of SMS Gateway Information System for Detecting Air Quality, IOP Conf. Series: Materials Science and Engineering, Vol. 434, pp. 1-6 Sudarsono M A Novianta and Purnawan, (2018b), Performance of AVR Microcontroller-SMS Gateway for Detecting SO2 and NO2, The 3rd International Conference on Energy, Environmental and Information System (ICENIS 2018) E3S Web Conf., Vol. 73, pp. 1-5 Susilo Y S Pranjoto H dan Gunadhi A, (2014), Sistem Pelacakan Dan Pengamanan Kendaraan Berbasis GPS Menggunakan Komunikasi GPRS, Jurnal Ilmiah Widya Teknik, Vol. 13, No. 1 Van Dingenen R Dentener F J Raes F Krol M C Emberson L and Cofala J, (2009), The global impact of ozone on agricultural crop yields under current and future air quality legislation, Atmos Environ, Vol. 43, pp. 604–618 White R M Paprotny I Doering F Cascio W E Solomon P A and Gundel L A, (2012), Sensors and 'apps' for communitybased atmospheric monitoring, EM: Air and Waste Management Association's Magazine for Environmental Managers, Vol. 5, pp. 36–40 World Health Organization (WHO), 2016, Ambient Air Pollution: A Global Assessment of Exposure and Burden of Disease. http://apps.who.int/iris/bitstream/10665/250141/1/ 9789241511353-eng.pdf (accessed 31 October 2018) World Health Organization (WHO), 2014, Burden of Disease From Ambient Air Pollution for 2012 http://www.who.int/phe/health_topics/outdoorair/databases/ AAP_BoD_results_ March2014.pdf (accessed 31 October 2018) Xu P Chen Y and Ye X, (2013), Haze, air pollution, and health in China, Lancet, Vol. 382, No. 2067 Zhang H, (2012), A self-adaptive greenhouse CO2 concentration monitoring system based on ZigBee, Cloud Computing and Intelligent Systems (CCIS), IEEE 2nd International Conference, pp. 1137-1140id_ID
dc.identifier.issn2686-4274
dc.identifier.urihttp://hdl.handle.net/11617/11727
dc.description.abstractEmisi gas karbon dioksida (CO2) berpengaruh besar pada kualitas udara dengan kontribusi terhadap pemanasan global sekitar 50%. Gas tersebut menyerap dan memantulkan radiasi gelombang yang dipancarkan bumi, sehingga panas akan disimpan di permukaan bumi. Penyerapan gas CO2 oleh tanaman bakau berperan untuk mengurangi emisi CO2. Dalam penelitian ini, dikembangkan sistem pemantauan gas pencemar udara menggunakan Arduino GSM Shield yang dilengkapi dengan sensor CO2, O2, suhu dan kelembaban. Berdasarkan hasil percobaan, sistem ini dapat memantau penyerapan emisi CO2 dan pembentukan gas O2 pada tanaman bakau secara realtime. Informasi tersebut ditransmisikan menggunakan layanan SMS pada jaringan GSM serta dapat diakses melalui aplikasi berbasis web. Sebagai kesimpulan, penggunaan teknologi pemantauan polusi udara penginderaan gas yang kecil, portabel dan mobile dapat memperoleh data polusi udara yang lebih representatif secara spasial dan temporal.id_ID
dc.language.isootherid_ID
dc.publisherProsiding Simposium Nasional Rekayasa Aplikasi Perancangan dan Industri XVIII 2019id_ID
dc.titlePengembangan Sistem Pemantau Pencemaran Udara secara Realtime berbasis Arduino GSM Shieldid_ID
dc.typeArticleid_ID


Files in this item

Thumbnail

This item appears in the following Collection(s)

Show simple item record