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Academic literature on the topic 'Aeroponik'

Author: Grafiati

Published: 4 June 2021

Last updated: 12 February 2022

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Journal articles on the topic "Aeroponik"

Prawoto, Benny Rahardian, and Juang Gema Kartika. "Pengelolaan Aspek Produksi dan Pasca Panen Sayuran Daun Secara Aeroponik dan Hidroponik : Studi Kasus Lembang, Bandung." Buletin Agrohorti 4, no. 1 (January 25, 2016): 9. http://dx.doi.org/10.29244/agrob.4.1.9-19.

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Sayuran dikonsumsi oleh manusia untuk memenuhi sebagian asupan nutrisi sehari-hari, oleh sebab itu masih terbuka peluang dalam mengembangkan produksi sayuran skala luas. Kesempatan ini mendorong orang untuk menggunakan teknik budi daya yang mampu menghasilkan produk yang berkualitas, kuantitas, dan kontinuitas secara optimal salah satunya dengan menggunakan sistem aeroponik dan hidroponik Penelitian ini dilaksanakan di Kebun Cikahuripan 1, Lembang, Bandung. Tujuan penelitian ini untuk mempelajari produksi sayuran (Selada keriting, Lollorossa dan Romaine) secara aeroponik dan hidroponik. Sistem aeroponik menghasilkan selada yang lebih baik dibandingkan menggunakan sistem hidroponik. Pengamatan pasca panen tidak berbeda nyata pada selada aeroponik dan hidroponik. Analisis keuntungan produksi menunjukkan selada hasil sistem aeroponik lebih menguntungkan dibandingkan selada pada sistem hidroponik walaupun membutuhkan modal awal yang lebih besar.

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Sianipar, Saut Marodjahan, Erwin Pane, and Maimunah Maimunah. "Pengaruh Pemberian Pupuk Organik Cair Terhadap Pertumbuhan Dan Produksi Tiga Jenis Tanaman Sayuran Dengan Sistem Aeroponik." Agrotekma: Jurnal Agroteknologi dan Ilmu Pertanian 2, no. 1 (December 8, 2017): 46. http://dx.doi.org/10.31289/agr.v2i1.1107.

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Peluang kebutuhan akan sayuran berkualitaas sangat terbuka dengan makin banyaknya masyarakat yang berbelanja ke pasar swalayan. Diversifikasi jenis sayuran perlu dilaksanakan untuk memenuhi berbagai permintaan pasar. Hingga saat ini jenis sayuran yang banyak dibudidayakan secara aeroponik antara lain berbagai kultivar selada (lettuce keriting hijau, cos/romaine, butterhead, batavia, lollo rossa, iceberg, head lettuce), pakchoy hijau dan putih, caysim, dan kailan serta horenzo yang baru mulai dikembangan. Kangkung dan bayam juga dapat diusahakan secara aeroponik. Tujuan dari penelitian ini untuk melihat bagaimana pengaruh pemberian pupuk organik cair terhadap pertumbuhan dan produksi tanaman sayur-sayuran dengan sistem aeroponik. Metode penelitian yang digunakan adalah Rancangan Acak Lengkap (RAL) Faktorial, yaitu: 3 x 4 dengan 3 kali ulangan dan setiap ulangan terdiri dari 3 konsentrasi. Berdasarkan penelitian yang telah dilakukan dapat di simpulkan bahwa pemberian pupuk cair Herbafarm tidak memberikan pengaruh yang nyata untuk semua jenis tanaman yang ditanam (sawi, kangkung, bayam).

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Wulandari and Neng Wina Sumiar. "Pengembangan Sistem Pengaturan Larutan Nutrisi Otomatis Pada Budidaya Kentang Aeroponik." Jurnal Ilmu Komputer dan Agri-Informatika 8, no. 1 (May 31, 2021): 57–68. http://dx.doi.org/10.29244/jika.8.1.57-68.

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Penerapan teknik aeroponik pada budidaya kentang dapat menjadi salah satu metode alternatif yang dapat digunakan untuk mengatasi keterbatasan lahan. Selain itu, teknik ini juga dapat digunakan untuk meningkatkan produktivitas tanaman tersebut. Akan tetapi, pemberian nutrisi dan proses penyiraman pada teknik ini masih dilakukan secara manual. Teknik yang digunakan saat ini yaitu pengontrolan nutrisi menggunakan alat ukur yang memerlukan sumber daya manusia. Salah satu tantangan dalam budidaya ini yaitu perlunya pemantauan dan pengaturan nutrisi yang optimal. Wadah aeroponik perlu dipantau secara berkala dan berkelanjutan. Oleh karena itu, dikembangkan sistem otomatisasi pengaturan larutan nutrisi pada budidaya kentang secara aeroponik. Sistem otomatisasi ini diharapkan dapat menciptakan kondisi ideal bagi tanaman, karena alat tersebut mampu mengatur kadar larutan nutrisi yang optimal. Berdasarkan hasil pengujian, sensor Total Dissolved Solids (TDS) mampu mengukur kadar larutan nutrisi campuran dengan akurasi 98.28%. Selain itu, sensor ultrasonik mampu membaca ketinggian air sesuai dengan jarak yang sesungguhnya pada semua pengujian yang dilakukan. Aktuator pergerakan sensor TDS bekerja sesuai dengan skenario yang dikembangkan. Pergerakan tersebut ditujukan untuk memperpanjang usia guna dari sensor yang digunakan. Aktuator bergerak turun ke arah larutan nutrisi ketika jam sistem benilai genap dan bergerak ke atas ketika jam sistem bernilai ganjil. Secara keseluruhan, sistem dapat bekerja dengan baik sesuai dengan rancangan yang dibuat. Kata Kunci: aeroponik, kentang, sistem otomatis, sensor, TDS, ultrasonik

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Priherdityo, Endro, Slamet Susanto, and Yudi Chadirin. "Pengaturan Intensitas Larutan Hara terhadap Pertumbuhan Tanaman Akar Wangi (Vetiveria zizanioides L.) yang Dibudidayakan Secara Aeroponik." Buletin Agrohorti 4, no. 1 (January 25, 2016): 104. http://dx.doi.org/10.29244/agrob.4.1.104-112.

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Percobaan ini dilaksanakan guna mempelajari respon pertumbuhan tanaman akar wangi atau vetiver (Vetiveria zizanioides L.) secara aeroponik. Aplikasi aeroponik dilaksanakan di greenhouse University Farm Cikabayan Kampus IPB Dramaga pada bulan Februari–Mei 2013. Percobaan menggunakan Rancangan Kelompok Lengkap Teracak, 4 perlakuan 3 ulangan. Perlakuan yang dilakukan adalah 1 menit pemberian durasi (On) 4 menit jeda (Off) 1 bibit per lubang, 1 menit On 4 menit Off 2 bibit per lubang, 2 menit On 8 menit Off 1 bibit per lubang, dan 2 menit On 8 menit Off 2 bibit per lubang. Hasil menunjukkan bahwa perlakuan 2 menit On 8 menit Off 1 bibit per lubang dan perlakuan 2 menit On 8 menit Off 2 bibit per lubang berpengaruh pada panjang akar tanaman vetiver. Perlakuan 1 menit On 4 menit Off 2 bibit per lubang memiki jumlah akar terbanyak. Seluruh perlakuan tidak berpengaruh terhadap tinggi tanaman vetiver, kandungan klorofil, dan kehijauan daun vetiver. Secara keseluruhan, sistem aeroponik menghasilkan pertumbuhan akar vetiver lebih baik dibandingkan budi daya di lahan.

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Dianawati, Meksy, Satrias Ilyas, G. A. Wattimena, and A. D. Susila. "Produksi Umbi Mini Kentang Secara Aeroponik Melalui Penentuan Dosis Optimum Pupuk Daun Nitrogen." Jurnal Hortikultura 23, no. 1 (March 30, 2013): 47. http://dx.doi.org/10.21082/jhort.v23n1.2013.p47-55.

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Persentase stolon menjadi umbi pada produksi umbi mini kentang secara aeroponik diperkirakan hanya 5–10%, sehingga masih terdapat peluang untuk meningkatkan produksi umbi mini dengan melakukan induksi pengumbian. Penelitian bertujuan untuk meningkatkan produksi umbi mini kentang melalui peningkatan induksi pengumbian dengan berbagai dosis pupuk daun nitrogen. Percobaan dilaksanakan di Rumah Plastik di Lembang, Bandung Barat, Jawa Barat mulai Bulan Desember 2010 sampai dengan Juli 2011. Percobaan menggunakan rancangan acak kelompok dengan satu faktor dosis pupuk daun nitrogen yaitu 0, 500, 1000, 2000, dan 4000 ppm N dengan enam ulangan. Pupuk nitrogen yang digunakan ialah Ca(NO3)2 yang diaplikasikan 1, 2, 3, dan 4 minggu setelah tanam. Hasil penelitian menunjukkan bahwa pupuk daun nitrogen Ca(NO3)2 dapat meningkatkan produksi umbi mini kentang melalui peningkatan bobot umbi per tanaman sebesar 17%, tetapi belum dapat meningkatkan induksi pengumbian tanaman kentang pada sistem aeroponik. Dosis optimum pupuk daun nitrogen Ca(NO3)2 untuk bobot umbi per tanaman maksimum ialah 2173 ppm. Peningkatan bobot umbi mini per tanaman pada sistem aeroponik dapat memberikan manfaat sebagai sumber benih.

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Fiqhi, Fiqhi, Yani Prabowo, and Grace Gata. "Perancangan Sistem Aeroponik Berbasis Arduino Uno dan Komunikasi GSM Untuk Pemberian Larutan Nutrisi Untuk Budidaya Sayuran." Jurnal RESTI (Rekayasa Sistem dan Teknologi Informasi) 1, no. 2 (November 2, 2017): 153–59. http://dx.doi.org/10.29207/resti.v1i2.40.

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Teknologi komputasi dan komunikasi saat ini bisa diaplikasikan di bidang pertanian. Dengan teknologi mikrokontroler pemberian larutan dapat dilakukan secara otomatis atau manual dengan mengirimkan pesan singkat melalui telepon selular. Tujuan dari penelitian ini adalah perancangan sistem pemberian larutan nutrisi untuk tanaman secara aeroponik dengan pengendalian pompa air melalui pesan singkat komunikasi GSM. Sistem aeroponik dipilih dalam penelitian ini karena mudah dalam pengendalian air untuk larutan nutrisi. Hasil yang diperoleh dari penelitian ini untuk memberikan larutan nutrisi cukup mengendalikan satu buah mesin pompa air yang diaktifkan melalui perintah SMS. Dengan memberikan perintah melalui SMS kepada Arduino maka pompa air akan aktif menyiram sebanyak 120 kali dalam 1 jam. Pemberian nutrisi sebanyak 2 kali dalam satu hari, sehingga dalam satu siklus masa tanam selama 21 hari akan aktif sebanyak 5040 kali. RTC dimanfaatkan secara otomatis untuk mengaktifkan kendali on-off dalam waktu 15 detik dalam 1 jam untuk setiap pengiriman pesan.

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Broćić, Zoran, Mirko Milinković, Ivana Momčilović, Dobrivoj Poštić, Jasmina Oljača, Biljana Veljković, and Drago Milošević. "Production of potato mini-tubers in the aeroponic growing system." Journal on Processing and Energy in Agriculture 22, no. 2 (2018): 49–52. http://dx.doi.org/10.5937/jpea1801049b.

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Safrimawan, Arif. "Sistem Kontrol Pemberian Nutrisi pada Budi Daya Tanaman Aeroponik Berbasis Fuzzy Logic." Journal of Applied Electrical Engineering 3, no. 1 (June 30, 2019): 19–23. http://dx.doi.org/10.30871/jaee.v3i1.1397.

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Metode aeroponik merupakan salah satu cara budi daya tanaman tanpa menggunakan tanah. Aeroponik umumnya digunakan untuk budi daya tanaman jenis sayuran seperti kangkung. Pada metode ini, akar tanaman ditempatkan dalam posisi menggantung. Nutrisi diberikan dalam bentuk ke bagian akar tanaman dengan teknik pengkabutan dengan menggunakan sprayer yang terhubung dengan pompa. Biasanya, pemberian nutrisi diberikan dalam rentang waktu tertentu (timer). Namun dalam sistem ini pemberian nutrisi tidak terlalu efektif. Oleh karena itu, dibuat sistem yang dapat mengontrol pemberian nutrisi sesuai kebutuhan tanaman. Pada sistem ini, yang menjadi parameter yaitu kelembapan dan suhu. Nilai kelembapan dan suhu dari sensor DHT22 akan menjadi input untuk Fuzzy logic, kemudian akan diproses oleh mikrokontroler untuk menghasilkan keluaran sesuai dengan input yang diterima. Nilai output dari mikrokontroler berupa waktu penyalaan akan mengaktifkan pompa yang akan menyuplai larutan nutrisi ke bagian akar. Sistem ini juga dilengkapi dengan data logger, sehingga data dari mikrokontroler dapat disimpan. Alat mampu bekerja menyuplai larutan nutrisi untuk tanaman kangkung dengan set point suhu 33°C sedangkan error suhu yaitu 3,32%-5,28%.

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Dissertations / Theses on the topic "Aeroponik"

Håkansson, David, and Anna Lund. "Hydroponic Greenhouse: Autonomous identification of a plant s growth cycle." Thesis, KTH, Skolan för industriell teknik och management (ITM), 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-264458.

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In a world with an ever growing population, the ability to grow food eciently is essential. One way to improve the eciency is by automation. The purpose of this project is therefore to investigate how the identification of a plant’s stage in its growth cycle that can be made autonomous. This was done with the method of measuring the amount of green pixels in an image of the plant. To be able to answer our research questions a demonstrator was built. The demonstrator is a greenhouse with a non regulated aeroponic system, a regulation system for humidity and an identification system for determining the plant growth stage. The plant chosen to test the identification system was basil. The identification system successfully identified the stage of plants well into the adult stage, in the seed stage and in the middle of the sprout stage. It was however not always successful in the identification of plants transitioning from the sprout stage into the adult stage.
I en värld med en ständigt växande befolkning är förmågan att odla mat effektivt nödvändig. En metod för att öka denna effektivitet är genom automatisering. Syftet för detta projekt är därför att undersöka hur identifieringen av en plantans stadie i dess växtcykel kan automatiseras. Detta gjordes genom att mäta antalet gröna pixlar i en bild av plantan. För att kunna svara våra forskningsfrågor byggdes en testmiljö. Testmiljön bestod av ett växthus med ett oreglerat aeroponiskt system, ett regulationssystem för luftfuktighet och ett identifikationsssystem för att avgöra en plantas stadie i dess växtcykel. Plantan som valdes för att testa identifikationssystemet var basilika. Identifikationssystemet som togs fram kunde med framgång identifiera stadiet av en planta som är långt in i dess vuxna stadie, i förstadiet eller i mitten av dess groddstadie. Plantor som precis övergått från grodd till vuxet stadie blev däremot inte alltid identifierade korrekt.

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Karlsson, Erik. "Automatisk aeroponisk odling." Thesis, Högskolan i Halmstad, Akademin för informationsteknologi, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-37468.

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Today in farming of vegetables large amounts of water and pesticide are used, the farming is also weather and climate dependent and in Sweden the farming season is short. So, there is a need to make farming more efficient and determine how to make farming more stable and independent from unpredictable events. The goal of this project is to develop a prototype which make it possible to improve the resource usage and at the same time automate the process to increase the predictability. This project is going to use aeroponics which is way of growing in the air without soil and a single board computer is going to be used.

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Vrabec, Miroslav. "Řídící jednotka pro aeroponický pěstební systém." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2013. http://www.nusl.cz/ntk/nusl-219914.

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This thesis deals with the history of a method of plants cultivation without original substrate. The method is hydroponics and its subsequent development is called aeroponics. This work outlines the design of the whole aeroponic system including a control unit. The control unit has been designed to control the injection of nutrient solution, which is essential to the life of plants.Further, the control unit performs the control of lighting period, temperature, air flow and also regulation of nutrient solution pH. The control unit also keeps records of all data necessary for the monitoring process and for the evaluation of time differencies in the system.

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McGinley, Susan. "Aeroponic Herbs: A Cultivation System For Clean, Consistent Root Crops." College of Agriculture and Life Sciences, University of Arizona (Tucson, AZ), 2001. http://hdl.handle.net/10150/622256.

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Factor, Thiago Leandro [UNESP]. "Produção de minitubérculos de batata-semente em sistemas hidropônicos NFT, DFT e Aeroponia." Universidade Estadual Paulista (UNESP), 2007. http://hdl.handle.net/11449/105193.

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Made available in DSpace on 2014-06-11T19:33:38Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-02-16Bitstream added on 2014-06-13T18:45:39Z : No. of bitstreams: 1 factor_tl_dr_jabo.pdf: 1184559 bytes, checksum: 1d1f31e77720e9609bfe091b4de87222 (MD5)
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
Este trabalho teve por objetivo descrever sistemas hidropônicos de cultivo que utilizam as técnicas DFT Deep Flow Technique e aeroponia, bem como avaliar o comportamento produtivo e a viabilidade econômica da produção de minitubérculos de batatasemente, cultivares Agata e Monalisa, em comparação ao sistema de Calha Articulada (NFT). O experimento foi realizado em ambiente protegido, no período de maio a setembro de 2005, na Universidade Estadual Paulista (UNESP) FCAV, Jaboticabal, SP, no Setor de Plasticultura, com latitude de 21º15 15, longitude de 48º18 09 e altitude média de 595 m. Adotouse o delineamento experimental de blocos casualizados com parcelas subdivididas, sendo os três sistemas hidropônicos de cultivo os tratamentos principais e as duas cultivares de batata os tratamentos secundários. Os sistemas hidropônicos descritos na presente pesquisa são tecnicamente viáveis, haja vista que as produtividades nos sistemas DFT e Aeroponia foram, respectivamente, semelhante e superior as obtidas no sistema NFT (calha articulada), tradicionalmente utilizado no Brasil. Dentre os sistemas, o aeropônico apresentou maior taxa de multiplicação de minitubérculos e melhor retorno financeiro do investimento. Com a cultivar Monalisa obtevese maior taxa de multiplicação de minitubérculos quando comparado a Agata. O sistema NFT é considerado mais viável a partir de R$ 0,40 o minitubérculo para um ciclo de produção ano 1 ou R$ 0,30 cultivandose por dois ciclos de produção ano 1 . Os sistemas DFT e aeropônico são viáveis economicamente em todas as condições analisadas, inclusive na menos favorável, R$ 0,20 o minitubérculo e um ciclo de produção ano 1.
The objective of this work was to the describe hydroponics systems that use DFT Deep Flow Technique and aeroponic technique, as well to evaluate the productive behavior and the economic viability of the basic seed potato minitubers in these systems, compared to the articulated PVC Gutter (NFT) system, using the Agata and Monalisa cultivars. The experiment was realized in a protected ambient from May to September of 2005, at Universidade Estadual Paulista (UNESP) FCAV, in Jaboticabal, SP, in the Plasticulture Sector (latitude 21 º15 15, longitude 48 º18 09 and mean altitude 595 m), following the experimental design randomized blocks in a split plot scheme. The DFT and aeroponic systems, described in this research, are technically feasible and both have shown that the productivity in these systems was similar and superior to the ones reached in the NFT system (articulated gutter), traditionally used in Brazil. Among the systems, the aeroponic presented greater rate of tubers multiplication and better financial return of the investment. It was obtained a bigger multiplication rate of minitubers with Monalisa cultivar when compared with the Agata. The NFT system is considered more feasible from R$ 0,40 the minituber for one production cycle per year or R$ 0,30 cultivating for two production cycles per year. The DFT and aeroponic systems are economically feasible in all analyzed conditions, even in the less favorable one, R$ 0,20 the minituber and one production cycle per year.

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Factor, Thiago Leandro. "Produção de minitubérculos de batata-semente em sistemas hidropônicos NFT, DFT e Aeroponia /." Jaboticabal : [s.n.], 2007. http://hdl.handle.net/11449/105193.

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Orientador: Jairo Augusto Campos de Araújo
Banca: Joaquim Gonçalves de Pádua
Banca: Simone da Costa Mello.
Banca: Glauco Eduardo Pereira Cortez
Banca: Maria Inez Espagnoli Geraldo Martins
Resumo: Este trabalho teve por objetivo descrever sistemas hidropônicos de cultivo que utilizam as técnicas DFT Deep Flow Technique e aeroponia, bem como avaliar o comportamento produtivo e a viabilidade econômica da produção de minitubérculos de batatasemente, cultivares Agata e Monalisa, em comparação ao sistema de Calha Articulada (NFT). O experimento foi realizado em ambiente protegido, no período de maio a setembro de 2005, na Universidade Estadual Paulista (UNESP) FCAV, Jaboticabal, SP, no Setor de Plasticultura, com latitude de 21º1515, longitude de 48º1809 e altitude média de 595 m. Adotouse o delineamento experimental de blocos casualizados com parcelas subdivididas, sendo os três sistemas hidropônicos de cultivo os tratamentos principais e as duas cultivares de batata os tratamentos secundários. Os sistemas hidropônicos descritos na presente pesquisa são tecnicamente viáveis, haja vista que as produtividades nos sistemas DFT e Aeroponia foram, respectivamente, semelhante e superior as obtidas no sistema NFT (calha articulada), tradicionalmente utilizado no Brasil. Dentre os sistemas, o aeropônico apresentou maior taxa de multiplicação de minitubérculos e melhor retorno financeiro do investimento. Com a cultivar Monalisa obtevese maior taxa de multiplicação de minitubérculos quando comparado a Agata. O sistema NFT é considerado mais viável a partir de R$ 0,40 o minitubérculo para um ciclo de produção ano 1 ou R$ 0,30 cultivandose por dois ciclos de produção ano 1 . Os sistemas DFT e aeropônico são viáveis economicamente em todas as condições analisadas, inclusive na menos favorável, R$ 0,20 o minitubérculo e um ciclo de produção ano 1.
Abstract: The objective of this work was to the describe hydroponics systems that use DFT "Deep Flow Technique" and aeroponic technique, as well to evaluate the productive behavior and the economic viability of the basic seed potato minitubers in these systems, compared to the articulated PVC Gutter (NFT) system, using the Agata and Monalisa cultivars. The experiment was realized in a protected ambient from May to September of 2005, at Universidade Estadual Paulista (UNESP) FCAV, in Jaboticabal, SP, in the Plasticulture Sector (latitude 21 º1515, longitude 48 º1809 and mean altitude 595 m), following the experimental design randomized blocks in a split plot scheme. The DFT and aeroponic systems, described in this research, are technically feasible and both have shown that the productivity in these systems was similar and superior to the ones reached in the NFT system (articulated gutter), traditionally used in Brazil. Among the systems, the aeroponic presented greater rate of tubers multiplication and better financial return of the investment. It was obtained a bigger multiplication rate of minitubers with Monalisa cultivar when compared with the Agata. The NFT system is considered more feasible from R$ 0,40 the minituber for one production cycle per year or R$ 0,30 cultivating for two production cycles per year. The DFT and aeroponic systems are economically feasible in all analyzed conditions, even in the less favorable one, R$ 0,20 the minituber and one production cycle per year.
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Tshisola, Steve Ndondji. "Improved potato (Solanum tuberosum) seed production through aeroponics system." Thesis, Stellenbosch : Stellenbosch University, 2014. http://hdl.handle.net/10019.1/86240.

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Thesis (MScAgric)--Stellenbosch University, 2014.
ENGLISH ABSTRACT: The potato can be considered as one of the most important food crops in many African countries. The potential of this crop is reflected in the large increase in area of production where Africa showed the highest rate of growth within the developing world over the past twenty years. The multiplication rate of potatoes is very low compared to other crops. Therefore it is essential to investigate methods of increasing the number of minitubers produced from disease free in-vitro plantlets. There is a number of potato propagation procedures that are currently being used worldwide to multiply seed potatoes. As aeroponics is still a relatively new technique that has not been researched extensively for the production of minitubers, a study relating to the production practises including the nutritional requirements of potato minitubers produced in a aeroponic system were undertaken. Potato plantlets, cv BP1, were grown aeroponically at two different densities (20 and 30 plants/m2) and four harvest intervals (7, 10, 14 and 18 days). The interaction between harvesting intervals and plant densities did not influence plant growth, minituber quality or yield. Best results were realised when harvesting every 7 days with a higher total tuber number over the growing period. Harvest interval also influenced the phosphorus and copper concentration in minitubers. To study the effect of Calcium (Ca) application rate, potato plantlets of cultivars Up-to-date, Mnandi, Buffelspoort and BP1 were grown at four different Ca levels (8.40, 6.75, 5.10 and 3.45 meq/L). The interaction between Ca application levels and cultivars significantly influenced the percentage stolon branching. BP1 had more stolons at the lowest Ca application level and Buffelspoort had more stolons at the full Ca application levels. However, low Ca treatments produced the highest yield. The minituber number and weight harvested were three times more for Mnandi. An aeroponic study on the irrigation frequency (20, 30, 40 and 50 minutes interval) was conducted on four potato cultivars (Up-to-date, Mnandi, Buffelsoort and BP1). Significant differences were noted in the interaction between irrigation frequencies and cultivars for the percentage tuberised plants and stolon and tuber dry mass. When irrigated every 40 minutes, 48% of the Buffelspoort plants produced tubers. Plant height was also significantly affected by the interaction between irrigation frequencies and potato cultivars, with Mnandi producing taller plants when irrigated every 30 minutes. Total tuber number and tuber fresh and dry weight was higher at the irrigation frequency of 20 minutes. The interaction between irrigation frequencies and cultivars on the response to macro and trace elements was not significant for sodium and iron but was for phosphorus, potassium, calcium, zinc and aluminium. A field study was conducted in a greenhouse where potato seed of BP1 obtained from the first trial were graded into different sizes (Small: >20, medium: 20–40 and large: > 40 mm of diameter) and stored at 3 different temperatures (3, 16 and 25oC) for 2 supplementary months before being planted. Sprouting capacity was mostly influenced by temperature regardless of other factors applied to potato seed minitubers such as harvest intervals and sizes. The higher storage temperature of 25oC resulted in tubers with a higher number of sprouts, longer sprouts and with a higher sprouting capacity.
AFRIKAANSE OPSOMMING: Aartappels is een van die belangrikste voedselgewasse in baie lande in Afrika. Die potensiaal van die gewas word gereflekteer in die groot toename in produksie areas, met Afrika wat die vinnigste van al die ontwikkelende lande gegroei het die laaste 20. In vergelyking met ander gewasse is die tempo van planvermeerdering by aartappels baie stadig. Dit is dus essensieel om metodes te ondersoek wat sal help om die aantal miniknolle wat per in vitro plantjie verkry kan word te verhoog. Daar is heelparty plant vermeerderings prosedures wat tans wêreldwyd gebruik word om saad aartappels te vermeerder. Aangesien aeroponika nog steeds ŉ relatiewe nuwe tegniek is wat nog nie ekstensief ondersoek is vir die verbouing van miniknolle nie, is ‘n studie geloods om te kyk na die produksie praktyke, wat insluit die voedingsbehoeftes van aartappel miniknolle in ŉ aeroponika sisteem. Aartappel plantjies, kultivar, BP1, is aeroponies verbou by twee plant digthede (20 en 30 plante/m2) en vier oesintervalle (7, 10, 14 en 18 dae). Die interaksie tussen oesintervalle en plantdigtheid het geen effek gehad op plant groei, miniknol kwaliteit of opbrengs nie. Die beste resultate is verkry waar die knolle elke 7 dae geoes is met ‘n hoër totale aantal knolle oor die groeiseisoen. Die oesinterval het ook ‘n effek gehad op die fosfaat en koper konsentrasie van die miniknolle. Om die effek van die Kalsium (Ca) toedieningspeil te ondersoek is aartappel plantjies; kultivars Up-to-date, Mnandi, Buffelspoort en BP1 gekweek by vier verskillende Ca peile (8.40, 6.75, 5.10 en 3.45 meq/L). Die interaksie tussen Ca toedienings peile en kultivars het ‘n beduidende effek gehad op die persentasie stolon vertakking. BP1 het meer stolons gehad by die laagste Ca toedieningspeil en Buffelspoort het meer stolons gehad by die volle Ca toedieningspeil. Die hoogste opbrengste is egter waargeneem by die laagste Ca toedieningspeil. Die aantal miniknolle en oes massa was drie keer meer vir Mnandi. ‘n Aeroponiese studie op die besproeiingsfrekwensie (20, 30, 40 en 50 minuut intervalle) is gedoen met vier aartappel kultivars (Up-to-date, Mnandi, Buffelsoort en BP1). Beduidende verskille is opgemerk in die interaksie tussen besproeiings frekwensie en kultivars vir die persentasie plante met knolle en stolon en knol droë massa. Met besproeiings elke 40 minute het 48% van die Buffelspoort plante knolle produseer. Plant hoogte is ook beduidend beïnvloed deur die interaksie tussen besproeiingsfrekwensie en aartappel kultivar met Mnandi plante wat hoër was wanneer dit elke 30 minute besproei is. Die totale aantal knolle en knol vars- en droë massa was hoër wanneer daar elke 20 minute besproei is. Die interaksie tussen besproeiings frekwensie en kultivars op die makro- en mikro element inhoud van die knolle was nie beduidend vir natrium en yster nie, maar wel vir fosfaat, kalium, kalsium, sink en aluminium. ‘n Potproef is gedoen in ‘n kweekhuis waar aartappel saad van BP1 verkry vanaf die eerste proef nadat knolle verdeel is in verskillende grootte klasse (klein: < 20mm, medium: 20-40mm en groot: >40mm) en gestoor is by drie verskillende temperature (3, 16 en 25oC) vir 2 addisionele maande voor plant. Spruit ontwikkelings kapasiteit was meestal beïnvloed deur temperatuur ten spyte van ander behandelings soos oes intervalle en knol grootte. Die hoër bergings temperatuur 25oC het aanleiding gegee tot knolle met ‘n hoër aantal spruite, langer spruite en ‘n hoër spruit ontwikkelings kapasiteit.

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Oscanoa, Fernández Hector Hugo. "Diseño mecatrónico de un ambiente controlado para el crecimiento de hortalizas empleando aeroponía." Master's thesis, Pontificia Universidad Católica del Perú, 2018. http://tesis.pucp.edu.pe/repositorio/handle/123456789/12025.

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El siguiente trabajo de tesis presenta el diseño de un sistema capaz de controlar los principales parámetros que intervienen en el crecimiento de las hortalizas de hoja comestible empleando técnicas de cultivos aeropónicos. El sistema tiene el objetivo de reducir las pérdidas originadas a causa del transporte de los vegetales del campo a la ciudad. Durante el transporte, parte de la producción se pierde por la descomposición del cultivo; además, las propiedades nutricionales del mismo inician un proceso de degradación desde la cosecha. Por otro lado, a diferencia de los cultivos tradicionales que emplean la tierra como soporte de las plántulas, los sistemas aeropónicos permiten a los vegetales crecer en el aire y el consumo de agua es mucho menor en comparación al sistema tradicional. La implementación de este sistema permitirá la generación de cultivos dentro de localidades incentivando el desarrollo de ciudades sostenibles, mejorando la calidad de vegetales que consume la población, y reduciendo el uso de agua.
Tesis

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Asif, Mohammad, of Western Sydney Macarthur University, and Faculty of Business and Technology. "Comparative study of production, infectivity, and effectiveness of arbuscular mycorrhizal fungi produced by soil-based and soil-less techniques." THESIS_FBT_XXX_Asif_M.xml, 1997. http://handle.uws.edu.au:8081/1959.7/510.

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The present study was firstly aimed at producing the AM fungal inocula by using soil-based and soil-less culture techniques, including the in-vitro axenic technique, and secondly to assess the infectivity and effectiveness of the inocula so produced in glasshouse and field conditions. Indigenous AM fungi from 5 different sites of New South Wales were successfully propagated and multiplied using the pot-culture and atomizing disc aeroponic culture techniques, and their infectivity was measured using the MPN bioassay method. The coarse and fine sand mix was proven to be very effective for the production of AM fungal inocula. The findings indicated that aeroponic culture technique is far superior to that of conventional pot-culture technique, and could possibly substitute the most commonly used pot-culture technique of AM fungal inoculum production. The ultra-sonic nebulizer technology could possibly be an alternative to conventional aeroponic systems for producing AM fungal isolates in commercial quantities. The introduction of the sheared-root inoculum of Glomus intraradices, produced by the ultra-sonic nebulizer technique, into agricultural soils can substantially reduce the intake of P-fertilizers as much as 50% of the recommended level. The study also indicated that soil phosphorus is a critical factor in limiting mycorrhizal colonization, possibly limiting mycorrhizal responses.The research suggests that various commercially produced single or 'cocktail' inocula may work on mycorrhiza dependent plants in soils where the indigenous AM flora is either not abundant and/or efficient. Furthermore, ecophysiology of the same AM species have different effects on plant growth.
Doctor of Philosophy (PhD)

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Kishorekumar, Rahul. "Zero Acreage Farming: Modular aeroponics system to grow globe tomatoes in household rooftops of Stockholm." Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-445447.

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Climate change and rapid urbanization have caused several vulnerabilities for the global food system, and alternative farming methods are required to solve this ongoing crisis. Zero acreage farming can be a sustainable farming a to geoponics, as it is developing worldwide, and in Stockholm, this provides an opportunity to produce food year-round. In addition to that, it makes the food system more resilient and increases food security. The thesis aimed to explore the possibilities of zero-acreage farming on household rooftops in Stockholm and achieve the demand for tomatoes with an aeroponics growing system. With the help of GIS software, 4269 flat and slant roofs with a total available area of 3815121 m2 are found to implement a greenhouse. The GIS study shows that the south sector had the better potential for more extensive operations considering buildings, more population, and broader roads where transportation will be made more accessible. The central sector had the least potential for zero acreage farming because those regions have heritage values and narrow streets, making the transportation and supply chain difficult. The result of the aeroponics growing system reveals that the Stockholm tomato demand can be achieved in a 12780 m2 area with 95% water saving and 90% less global warming potential (GWP)compared to geoponics or conventional farming. Further on, this thesis suggests aeroponics as a sustainable alternative way of growing crops to minimize the impact on the environment caused by geoponics over the centuries.

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Books on the topic "Aeroponik"

Michaelides-Mateou, Sofia. Aeroporiko dikaio: Praktikē epharmogē. Athēna: Ekdoseis Ant. N. Sakkoula, 2010.

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Kyriakidēs, Kleanthēs. Aeroporikē ischys kai Polemos tou Kolpou. Athēna: Ekdoseis Epikoinōnies, 2003.

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Lainos, Giannēs. Monodromos hoi idiōtikopoiēseis?: Phakelos, Olympiakē Aeroporia AE. [Peiraias]: Ekdoseis Stachy, 1992.

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Kartalamakēs, Ēlias D. Hē aeroporia ston polemo tou ʼ40: 1940-1941. Athēna: Ē.D. Kartalamakē, 1990.

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Liosēs, Sōtērios Anast. Prosēlytismos I.: Pentēkostianoi stēn polemikē aeroporia : theōria, diadikasies, praktikē. Athēna: Ekdoseis Ant. N. Sakkoula, 2008.

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Potamianos, Ch. Vidi: Epiloges. Athēna: [s.n.], 1987.

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Kartalamakēs, Ēlias D. Hē genia tōn Ikarōn: 1931-1940. Athēna: Ē.D. Kartalamakēs, 1987.

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Nikas, Dēmētrēs S. Hē nomikē provlēmatikē tēs prostasias tou perivallontos: Idiaitera tēs prostasias apo ton aeroporiko thoryvo. Athēna: Nomikes Ekdoseis A.N. Sakkoula, 1985.

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Kakolyrēs, Iōannēs D. Lykoi stis phōlies tōn aetōn: "hoi teleutaies hōres tou thronou", 13-12-1967. Athēna: Ekdoseis Lōtos, 1997.

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Chatzēnikolaou-Angelidou, Rania. Aeroporikē metaphora epivatōn: Symphōna me tis diethneis symvaseis, to ethniko kai koinotiko dikaio aeroporikōn metaphorōn. Athēna: Ekdoseis Sakkoula, 2005.

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Book chapters on the topic "Aeroponik"

Eshel, Amram, and Yoav Waisel. "Aeroponics." In Biology of Root Formation and Development, 335–39. Boston, MA: Springer US, 1997. http://dx.doi.org/10.1007/978-1-4615-5403-5_72.

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Jarstfer, A. G., and D. M. Sylvia. "Aeroponic Culture of VAM Fungi." In Mycorrhiza, 427–41. Berlin, Heidelberg: Springer Berlin Heidelberg, 1995. http://dx.doi.org/10.1007/978-3-662-08897-5_19.

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Jarstfer, A. G., and D. M. Sylvia. "Aeroponic Culture of VAM Fungi." In Mycorrhiza, 427–41. Berlin, Heidelberg: Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-662-03779-9_18.

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Francis, Felin, P. L. Vishnu, Manish Jha, and Bharghava Rajaram. "IOT-Based Automated Aeroponics System." In Lecture Notes in Electrical Engineering, 337–45. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-8575-8_32.

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Despommier, Dickson. "Vertical Farming Using Hydroponics and Aeroponics." In Urban Soils, 313–28. Boca Raton : Taylor & Francis, 2017. | Series: Advances in soil science: CRC Press, 2017. http://dx.doi.org/10.1201/9781315154251-15.

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Morgan, Lynette. "Hydroponic System - Solution Culture." In Hydroponics and protected cultivation: a practical guide, 61–76. Wallingford: CABI, 2021. http://dx.doi.org/10.1079/9781789244830.0061.

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Abstract This paper discusses about the solution culture or 'hydroculture' systems, which are methods of crop production which do not employ the use of substrates to contain the root system and hold moisture between irrigations. It includes NFT or the nutrient film technique, deep water culture/deep flow technique - float, raft or pond systems, aeroponics, aquaponics, organic solution culture, hydroponic fodder systems, and automation for solution culture systems.

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Morgan, Lynette. "Hydroponic System - Solution Culture." In Hydroponics and protected cultivation: a practical guide, 61–76. Wallingford: CABI, 2021. http://dx.doi.org/10.1079/9781789244830.0005.

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Pala, Martin, Ladislav Mizenko, Marian Mach, and Tyler Reed. "Aeroponic Greenhouse as an Autonomous System Using Intelligent Space for Agriculture Robotics." In Robot Intelligence Technology and Applications 2, 83–93. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-05582-4_7.

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Kotzen, Benz, Maurício Gustavo Coelho Emerenciano, Navid Moheimani, and Gavin M. Burnell. "Aquaponics: Alternative Types and Approaches." In Aquaponics Food Production Systems, 301–30. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-15943-6_12.

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AbstractWhilst aquaponics may be considered in the mid-stage of development, there are a number of allied, novel methods of food production that are aligning alongside aquaponics and also which can be merged with aquaponics to deliver food efficiently and productively. These technologies include algaeponics, aeroponics, aeroaquaponics, maraponics, haloponics, biofloc technology and vertical aquaponics. Although some of these systems have undergone many years of trials and research, in most cases, much more scientific research is required to understand intrinsic processes within the systems, efficiency, design aspects, etc., apart from the capacity, capabilities and benefits of conjoining these systems with aquaponics.

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Mytton-Mills, Helen. "Reimagining Resources to Build Smart Futures: An Agritech Case Study of Aeroponics." In Smart Futures, Challenges of Urbanisation, and Social Sustainability, 169–91. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-74549-7_10.

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Conference papers on the topic "Aeroponik"

"Rancang Bangun Sistem Kontrol Otomasi Fertigasi Parameter Suhu Sistem Aeroponik pada Caisim." In Seminar Nasional Instrumentasi, Kontrol dan Otomasi. Pusat Teknologi Instrumentasi dan Otomasi ITB, 2016. http://dx.doi.org/10.5614/sniko.2015.20.

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Guo, Yi, Lanfen Chen, Jin Zong Suo Lang, and Zhen Yang. "Design of Sprout Aeroponics Equipment." In 2016 6th International Conference on Machinery, Materials, Environment, Biotechnology and Computer. Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/mmebc-16.2016.361.

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Guo, Yi, and Jiwu Ma. "Design of a Sprout Ultrasonic Aeroponic Cultivation Device." In 2017 2nd International Conference on Materials Science, Machinery and Energy Engineering (MSMEE 2017). Paris, France: Atlantis Press, 2017. http://dx.doi.org/10.2991/msmee-17.2017.310.

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Fitrianto Rahmad, Iwan, Lili Tanti, Ratih Puspasari, Evri Ekadiansyah, and Vidi Agung Fragastia. "Automatic Monitoring and Control System in Aeroponic Plant Agriculture." In 2020 8th International Conference on Cyber and IT Service Management (CITSM). IEEE, 2020. http://dx.doi.org/10.1109/citsm50537.2020.9268808.

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Pochai, Muay, Pornchanok Sirijaturaporn, Napasorn Jongjittanon, and Ammarin Pimnoo. "An Aeroponic Technology for Microgravity Plant Experiments on Earth." In 2018 15th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON). IEEE, 2018. http://dx.doi.org/10.1109/ecticon.2018.8619918.

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Guo, Yi, Lanfen Chen, and Guiqin Zhang. "Design of a Sprout Layer-rack Aeroponic Cultivation Device." In 2016 7th International Conference on Mechatronics, Control and Materials (ICMCM 2016). Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/icmcm-16.2016.78.

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Idris, Irman, and Muhammad Ikhsan Sani. "Monitoring and control of aeroponic growing system for potato production." In 2012 IEEE Conference on Control, Systems & Industrial Informatics (ICCSII). IEEE, 2012. http://dx.doi.org/10.1109/ccsii.2012.6470485.

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Clawson, J. M., A. Hoehn, L. S. Stodieck, P. Todd, and R. J. Stoner. "Re-examining Aeroponics for Spaceflight Plant Growth." In International Conference On Environmental Systems. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2000. http://dx.doi.org/10.4271/2000-01-2507.

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Jamhari, Charisma Aulia, Wahyu Kunto Wibowo, Aulia Rahma Annisa, and Teuku Muhammad Roffi. "Design and Implementation of IoT System for Aeroponic Chamber Temperature Monitoring." In 2020 Third International Conference on Vocational Education and Electrical Engineering (ICVEE). IEEE, 2020. http://dx.doi.org/10.1109/icvee50212.2020.9243213.

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Rahman, Ferdousi, Israt Jahan Ritun, Md Ryad Ahmed Biplob, Nafisa Farhin, and Jia Uddin. "Automated Aeroponics System for Indoor Farming using Arduino." In 2018 Joint 7th International Conference on Informatics, Electronics & Vision (ICIEV) and 2018 2nd International Conference on Imaging, Vision & Pattern Recognition (icIVPR). IEEE, 2018. http://dx.doi.org/10.1109/iciev.2018.8641026.

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Reports on the topic "Aeroponik"

Manual de produccion de semilla de papa de calidad usando aeroponia. International Potato Center, 2010. http://dx.doi.org/10.4160/9789290603986.

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Manual on quality seed potato production using aeroponics. International Potato Center, 2010. http://dx.doi.org/10.4160/9789290603924.

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Reports on the topic "Aeroponik"