Automation and Robotics Used in Hydroponic System

Computational Vision, a Link Between Psychology and Robotics

Contemporary Psychology ◽

10.1037/024237 ◽

1986 ◽

Vol 31 (11) ◽

pp. 872-874

Author(s):

Bela Julesz

Keyword(s):

Computational Vision ◽

And Robotics

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Effectiveness of Concurrent Performance of Military and Robotics Tasks and Effects of Cueing in a Simulated Multi-Tasking Environment

PsycEXTRA Dataset ◽

10.1037/e578112012-010 ◽

2008 ◽

Author(s):

Jessie Y. C. Chen

Keyword(s):

Concurrent Performance ◽

And Robotics

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Application of SSR Technique for the Identification of Markers Linked to Salinity Tolerance in Rice

Progressive Agriculture ◽

10.3329/pa.v19i2.16929 ◽

2013 ◽

Vol 19 (2) ◽

pp. 57-65

Author(s):

MH Kabir ◽

MM Islam ◽

SN Begum ◽

AC Manidas

Keyword(s):

Salt Tolerance ◽

Ssr Markers ◽

Salinity Tolerance ◽

Seedling Stage ◽

Phenotypic Screening ◽

Salt Tolerant ◽

Marker Assisted Breeding ◽

Hydroponic System ◽

Rice Landrace ◽

Salt Susceptible

A cross was made between high yielding salt susceptible BINA variety (Binadhan-5) with salt tolerant rice landrace (Harkuch) to identify salt tolerant rice lines. Thirty six F3 rice lines of Binadhan-5 x Harkuch were tested for salinity tolerance at the seedling stage in hydroponic system using nutrient solution. In F3 population, six lines were found as salt tolerant and 10 lines were moderately tolerant based on phenotypic screening at the seedling stage. Twelve SSR markers were used for parental survey and among them three polymorphic SSR markers viz., OSR34, RM443 and RM169 were selected to evaluate 26 F3 rice lines for salt tolerance. With respect to marker OSR34, 15 lines were identified as salt tolerant, 9 lines were susceptible and 2 lines were heterozygous. While RM443 identified 3 tolerant, 14 susceptible and 9 heterozygous rice lines. Eight tolerant, 11 susceptible and 7 heterozygous lines were identified with the marker RM169. Thus the tested markers could be efficiently used for tagging salt tolerant genes in marker-assisted breeding programme.DOI: http://dx.doi.org/10.3329/pa.v19i2.16929 Progress. Agric. 19(2): 57 - 65, 2008

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Upcoming Society through Convergence of IT and Robotics

The Journal of the Institute of Electrical Engineers of Japan ◽

10.1541/ieejjournal.137.85 ◽

2017 ◽

Vol 137 (2) ◽

pp. 85-88

Author(s):

Isao SHIMOYAMA

Keyword(s):

And Robotics

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Standard: Standard Vocabulary for Space Automation and Robotics (AIAA S-066-1995)

10.2514/4.474309 ◽

1995 ◽

Keyword(s):

And Robotics

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Development and verification testing of automation and robotics for assembly of space structures

10.2514/6.1993-4076 ◽

1993 ◽

Author(s):

Marvin Rhodes ◽

Ralph Will ◽

Cuong Quach

Keyword(s):

Space Structures ◽

And Robotics

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Effect of particle size of perlite and its mixture with peat moss on essential oil percent and yield of lemon balm (Melissa officinalis) in hydroponic system

Journal of Science and Technology of Greenhouse Culture ◽

10.29252/ejgcst.9.3.39 ◽

2018 ◽

Vol 9 (3) ◽

pp. 39-48

Author(s):

E. Farrokhi ◽

A. Samadi ◽

A. Rahimi ◽

F. Asadzadeh ◽

◽

...

Keyword(s):

Particle Size ◽

Essential Oil ◽

Peat Moss ◽

Melissa Officinalis ◽

Hydroponic System ◽

Lemon Balm ◽

Effect Of Particle Size

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Adopting Off-site Manufacturing, and Automation and Robotics Technologies in Energy-efficient Building

Proceedings of the 37th International Symposium on Automation and Robotics in Construction (ISARC) ◽

10.22260/isarc2020/0215 ◽

2020 ◽

Author(s):

Wen Pan ◽

Kepa Iturralde Lerchundi ◽

Rongbo Hu ◽

Thomas Linner ◽

Thomas Bock

Keyword(s):

Energy Efficient ◽

Energy Efficient Building ◽

And Robotics

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Combining Deep Learning and Robotics for Automated Concrete Delamination Assessment

10.22260/isarc2019/0065 ◽

2019 ◽

Cited By ~ 2

Author(s):

Evan McLaughlin ◽

Nicholas Charron ◽

Sriram Narasimhan

Keyword(s):

Deep Learning ◽

And Robotics

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Analysis of Nostoc muscorum biomass production in a hydroponic system

Orinoquia ◽

10.22579/20112629.599 ◽

2020 ◽

Vol 24 (1) ◽

pp. 23-31

Author(s):

Martha L. Ortiz-Moreno ◽

Laura V. Solarte-Murillo ◽

Karen X. Sandoval-Parra

Keyword(s):

Biomass Production ◽

Nostoc Muscorum ◽

Hydroponic System ◽

El Sistema

Nostoc es un género de cianobacterias filamentosas con aplicaciones biotecnológicas en nutrición humana, biomedicina, biofertilización y producción comercial de biocombustibles. Sin embargo, su baja tasa de crecimiento en medio líquido por su naturaleza perifítica y su tendencia a formar biofilms, limita su producción a gran escala. Por lo tanto, el objetivo de este estudio fue analizar la producción de biomasa de Nostoc muscorum en un sistema hidropónico modificado. Para ello, se realizaron cultivos de N. muscorum por triplicado, en un sistema hidropónico bajo condiciones semicontroladas de temperatura (29 ± 13°C), intensidad lumínica (32 ± 54 μmol/m2/s) y fotoperiodo (12 horas), durante 23 días en un invernadero. La temperatura, el pH, la conductividad eléctrica y la producción de biomasa seca, fueron monitoreados en días alternados. Los resultados arrojaron que la producción máxima de biomasa seca fue de 0.2276 ± 0.0114 g/m2/día, y la productividad promedio fue de 0.4149 ± 0.0207 g/m2/día. A su vez, la producción máxima de biomasa de N. muscorum se obtuvo el día trece con 0.3185 ± 0.0159 g/m2/día. El análisis estadístico de correlación de variables ambientales no arrojó diferencias significativas, por lo que la temperatura, el pH y la conductividad eléctrica no afectaron la producción de biomasa de N. muscorum. Consecuentemente, el crecimiento algal fue influenciado por la fisiología de la especie. El soporte empleado en el sistema hidropónico permitió la adherencia y el desarrollo de la capa mucilaginosa de la cianobacteria sin requerir períodos de desecación como en los cultivos convencionales. El sistema hidropónico proporcionó un flujo continuo de nutrientes que podría prevenir el ataque de bacterias y hongos oportunistas, generando una alta tasa de crecimiento. De este modo, este sistema hidropónico representa una alternativa viable para la producción de biomasa de N. muscorum en condiciones de invernadero a gran escala.

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