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ResearchMaster of Science in Agricultural Innovation
Master of Science in Agreecultural Innovation
Dr Satishbabu for your efforts. You’re really great. You arranged for Awards 
for SC/STs of Vemana University. Now some write up
on favourite 
topics 1. Agriculture Science Research 
and on 19. Linguistics Research. There are more than 9000 languages in general and 142 classical languages of the world 
.accept new ideas. Usually there are only a few people in this
class in a farming community.
Master of Science in Agricultural Innovation
Degree overview
Globally
agriculture will need to feed over nine billion people by 2050. With a
changing climate and increasing competition for land, water and energy
resources, the agricultural sector will need to find innovative ways to
do more with less.
To achieve this, an interdisciplinary approach to problem solving
will be required. This is the only degree of its kind in Australia,
and brings together students with pre existing undergraduate knowledge -
environmental, business, computer science, biology, engineering or
systems modelling to collectively work together on real world
agricultural challenges. By integrating and adapting knowledge from
different disciplines, novel solutions to complex problems can be
achieved.
What you’ll learn
Master of Science in Agricultural Innovation
You will learn from world-leading experts from across ANU, industry
and research partners. The hands on learning will include research and
technology that cuts across traditional discipline boundaries to address
industry challenges. Your cognate discipline is welcomed to the
program, for its through this knowledge that you will learn to apply
your existing knowledge to the agricultural sector.
Working in multidisciplinary teams on industry projects, graduates
will translate research and theory into real-world outcomes, gaining
industry relevant skills and a deep understanding of the challenges
faced by industry.
https://programsandcourses.anu.edu.au/2021/program/NSCAI
Master of Science in Agricultural Innovation
A single two year graduate degree offered by the ANU College of Science
Academic Year
2021
With a Master of
Science in Agricultural Innovation you will have the skills required to
solve the complex challenges facing the world.
Globally
agriculture will need to feed over nine billion people by 2050. With a
changing climate and increasing competition for land, water and energy
resources, the agricultural sector will need to find innovative ways to
do more with less. To achieve this, an interdisciplinary approach to
problem solving will be required. By completing courses in environmental
management, business, computer science, biology, engineering or systems
modelling, you will have the skills to integrate and adapt knowledge
from different disciplines to design novel solutions to complex
problems.
You will learn from world-leading experts from
across ANU, and its industry partners, through initiatives including the
Centre for Entrepreneurial Agri-Technology (CEAT), a joint ANU-CSIRO
initiative. In partnership with government and industry, CEAT brings
together research and technology to address industry challenges, cutting
across traditional discipline boundaries.
Working in
multidisciplinary teams on industry projects, graduates will translate
research and theory into real-world outcomes, gaining industry relevant
skills and a deep understanding of the challenges faced by industry.
Career Options
ANU ranks
among the world’s very finest universities. Our nearly 100,000 alumni
include political, business, government, and academic leaders around the
world.
We have graduated remarkable people from every part of our continent, our region and all walks of life.
This program is available for applications to commence from First Semester, 2021
Employment Opportunities
Stakeholder
engagement with research and industry during the program development
phase continually identified the skill shortage of system thinking, team
ready and broad knowledge graduates. An aging community within the
agricultural research and industries is considered a limitation to
advancing the agri system. Graduates would be expected to build careers
in state and federal government, as researchers in industry bodies,
corporations and research institutions, as innovation technologist
across the agricultural sector and in supporting non government
organisations globally. Graduates would have the capacity to enter at
managerial and strategic thinking level positions and also educate the
next generation of leaders in agricultural fields.
Learning Outcomes
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Demonstrate an understanding of the complexity of agricultural systems and value chains.
-
Interpret,
synthesize and critically analyse published literature of relevance to
agricultural systems in the context of innovation, productivity and
resilience to climatic environmental, economic and social drivers of
change. -
Apply knowledge of innovation systems in identifying emerging opportunities and solving challenges in the agricultural sector.
-
Integrate
and adapt appropriate knowledge and problem-solving methods from
different disciplines and industries, to co-design novel solutions with
stakeholders and clients effectively in multi-disciplinary teams. -
Demonstrate a critical understanding of science in society
-
Clearly communicate theory and results in both written and oral formats
a Master of Science (Advanced) in Agricultural Innovation you will have
the skills required to solve the complex challenges facing the world.
agriculture will need to feed over nine billion people by 2050. With a
changing climate and increasing competition for land, water and energy
resources, the agricultural sector will need to find innovative ways to
do more with less. To achieve this, an interdisciplinary approach to
problem solving will be required. By completing courses in environmental
management, business, computer science, biology, engineering or systems
modelling, you will have the skills to integrate and adapt knowledge
from different disciplines to design novel solutions to complex
problems.
Master of Science (Advanced) in Agricultural Innovation program
provides you with the opportunity to extend your practical and
coursework experience with the development and implementation of a
research project supervised by an academic. This is particularly
relevant to those who wish to benefit from the research strengths of ANU
and pursue a career in research.
will learn from world-leading experts from across ANU, and its industry
partners, through initiatives including the Centre for Entrepreneurial
Agri-Technology (CEAT), a joint ANU-CSIRO initiative. In partnership
with government and industry, CEAT brings together research and
technology to address industry challenges, cutting across traditional
discipline boundaries.
in multidisciplinary teams on industry projects, graduates will
translate research and theory into real-world outcomes, gaining industry
relevant skills and a deep understanding of the challenges faced by
industry.
ranks among the world’s very finest universities. Our nearly 100,000
alumni include political, business, government, and academic leaders
around the world.
engagement with research and industry during the program development
phase continually identified the skill shortage of system thinking, team
ready and broad knowledge graduates. An aging community within the
agricultural research and industries is considered a limitation to
advancing the agri system. Graduates would be expected to build careers
in state and federal government, as researchers in industry bodies,
corporations and research institutions, as innovation technologist
across the agricultural sector and in supporting non government
organisations globally. Graduates would have the capacity to enter at
managerial and strategic thinking level positions and also educate the
next generation of leaders in agricultural fields.
opportunities and solving challenges in the agricultural sector.
methods from different disciplines and industries, to co-design novel
solutions with stakeholders and clients effectively in
multi-disciplinary teams.
program requires 48 units of research project, carried out on an
individual basis with an academic supervisor at the ANU and assessed
through a written thesis and a final oral presentation.
Student experience
Top-down view of small plants being time-lapse imaged in a SpectralPhenoClimatron chamber
Australian Plant Phenomics Facility
Use
state-of-the-art phenotyping tools at the only place in the world
providing high-calibre public sector access to infrastructure and
expertise on crop performance.
Check out the facility
Australian Plant Phenomics Facility
The
Australian Plant Phenomics Facility, jointly housed at ANU, provides
state-of-the-art phenotyping tools and expertise to help academic and
commercial plant scientists improve crop performance and agricultural
practices in the face of climate change and food insecurity.
It offers public sector access to infrastructure that is not
available at this scale or breadth anywhere else in the world,
including:
- A modern greenhouse facility which includes
precision environmental control and top down RGB real time imaging of
plant growth to analyse genetic variation in water use efficiency in
plant growth, as well as a glasshouse Balance Array (real time pot
weighing system); - Conviron plant growth cabinets enabling research projects that require accurate climate controlled environments. Including the Spectral Pheno Climatron
(SPC) chambers equipped with 7 HEliospectra LEDs and 10 bands LED
lights, top down nIR, DSLR RGB and time lapse imaging and simulated
climate control. - PSI TrayScan a high throughput plant analysis
system incorporating, thermal, RGB and fluorescence imaging capable of
processing 15 trays per hour.
For more information visit the The Australian Plant Phenomics Facility page on the Research School of Biology website.
Study areas
Location
was established in July 2018 as a joint initiative between the ANU and
CSIRO, with support and funding from the ACT Government.
Australian National University (ANU), in collaboration with CSIRO, has
launched a new lab that will help solve some of Australia and the
world’s biggest agriculture challenges.
in the Centre for Entrepreneurial Agri-Technology (CEAT), the new
innovation hub comes with $1.3 million in ACT Government funding over
three years.
hub was officially opened by ACT Chief Minister Andrew Barr, ANU
Vice-Chancellor Brian Schmidt and Dr Michiel Van Lookeren Campagne —
CSIRO Director, Agriculture and Food.
Vice-Chancellor Professor Brian Schmidt said the Centre Entrepreneurial
Agri-Technology (CEAT) brings together world-class research and
technology to solve agriculture challenges.
The Australian National University announced the creation of CEAT last
August, it has made remarkable progress and I am delighted to officially
open the Centre’s Innovation Hub,” Professor Schmidt said.
businesses have already set up shop in the Innovation Hub including
Gondwana Genomics - the first company in the world to deploy DNA
screening on a large scale to boost tree production in commercial
forestry.
work at CEAT is helping farmers track remote stock with drones, as well
as cut fertiliser and water waste with AI and satellites.
launching, CEAT has become a focal point for agri-tech in Canberra and
indeed Australia, building networks both locally and globally.
Centre is just one example of the University’s broader commitment to
addressing issues of national importance by fostering collaboration
between industry and academia.
Australian National University (ANU), in collaboration with CSIRO, has
launched a new lab that will help solve some of Australia and the
world’s biggest agriculture challenges. Based in the Centre for
Entrepreneurial Agri-Technology (CEAT), the new innovation hub comes
with $1.3 million in ACT…
Virtual tour
Explore ANU science places, classrooms, laboratories and more through our interactive virtual tour.
Join Jessica, Atul and Lachlan, as they take you on a virtual 360 tour around the College of Science facilities.
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Lab
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56) Classical Kazakh-Классикалық қазақ,57) Classical Khmer- ខ្មែរបុរាណ,58) Classical Kinyarwanda59) Classical Korean-고전 한국어,60) Classical Kurdish (Kurmanji)-Kurdî (Kurmancî),61) Classical Kyrgyz-Классикалык Кыргыз,62) Classical Lao-ຄລາສສິກລາວ,63) Classical Latin-LXII) Classical Latin,64) Classical Latvian-Klasiskā latviešu valoda,65) Classical Lithuanian-Klasikinė lietuvių kalba,66) Classical Luxembourgish-Klassesch Lëtzebuergesch,67) Classical Macedonian-Класичен македонски,68) Classical Malagasy,класичен малгашки,69) Classical Malay-Melayu Klasik,70) Classical Malayalam-ക്ലാസിക്കൽ മലയാളം,71) Classical Maltese-Klassiku Malti,72) Classical Maori-Maori Maori,73) Classical Marathi-क्लासिकल माओरी,74) Classical Mongolian-Сонгодог Монгол,75) Classical Myanmar (Burmese)-Classical မြန်မာ (ဗမာ),76) Classical Nepali-शास्त्रीय म्यांमार (बर्मा),77) Classical Norwegian-Klassisk norsk,
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78) Classical Odia (Oriya)79) Classical Pashto- ټولګی پښتو80) Classical Persian-کلاسیک فارسی81) Classical Polish-Język klasyczny polski,82) Classical Portuguese-Português Clássico,83) Classical Punjabi-ਕਲਾਸੀਕਲ ਪੰਜਾਬੀ,84) Classical Romanian-Clasic românesc,85) Classical Russian-Классический русский,86) Classical Samoan-Samoan Samoa,
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87) Classical Sanskrit छ्लस्सिचल् षन्स्क्रित्88) Classical Scots Gaelic-Gàidhlig Albannach Clasaigeach,
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89) Classical Serbian-Класични српски,90) Classical Sesotho-Seserbia ea boholo-holo,91) Classical Shona-Shona Shona,92) Classical Sindhi,93) Classical Sinhala-සම්භාව්ය සිංහල,94) Classical Slovak-Klasický slovenský,95) Classical Slovenian-Klasična slovenska,96) Classical Somali-Soomaali qowmiyadeed,97) Classical Spanish-Español clásico,98) Classical Sundanese-Sunda Klasik,99) Classical Swahili,Kiswahili cha Classical,100) Classical Swedish-Klassisk svensk,101) Classical Tajik-тоҷикӣ классикӣ,102) Classical Tamil-பாரம்பரிய இசைத்தமிழ் செம்மொழி,
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78) Classical Odia (Oriya)
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87) Classical Sanskrit छ्लस्सिचल् षन्स्क्रित्
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102) Classical Tamil-பாரம்பரிய இசைத்தமிழ் செம்மொழி,