Indian engineering students develop mobile app to help precision farming

Indian engineering students develop mobile app to help precision farming

Engineering students of Indian Institute of Technology Roorkee have developed a mobile app that can help farmers practice precision agriculture, particularly in the application of precise amount of fertilizers.


By determining health of the crops using hyperspectral imaging of crop leaves, the app could help in rational use of fertilizers. The development has won IIT Roorkee students the Ericsson Innovation Award 2017. Over 900 teams from 75 countries participated in the global contest for to developing innovative ICT ideas on the theme of 'Future of Food'.


"The app uses mobile phone camera as the imaging device and hence could be profusely used in the field by the farmers," said Prof Ajit Kumar Chaturvedi, Director, IIT Roorkee.


Farmers apply fertilizer based on their experience rather than on any rational input. Therefore, if they chose not to apply, perhaps they may be taking a risk and suffer economic losses. On the other hand, excessive application spoils the soil and damages the environment. "If only the farmers can know the health status of the plant, then they can make a more rational choice. The app developed by our students would be handy to the farmers. They would be able to know if the crops need fertilisers or not in just in a snap," added Prof. Chaturvedi.


Named SNAP, the app uses a precision agriculture technology to determine the optimum fertiliser inputs for the crop and works on the principles of hyperspectral imaging of plant leaves. Spectral lines are like fingerprints that indicate presence or absence of a chemical by studying the light reflected by the leaf. Hyperspectral imaging combines conventional spectroscopy with imaging techniques to acquire both spectral and spatial information simultaneously for detecting physical, chemical, and biological attributes of the samples.


When the sunlight falls on a leaf, the reflected visible light and the near-infrared rays contain specific signals that tell about its chemical constituents. Water content, amount of macronutrients such as nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg), calcium (Ca), as well as micronutrients such as sulfur (S), sodium (Na), iron (Fe), manganese (Mn), boron (B), copper (Cu), and zinc (Zn) and so on can be effectively measured using the hyperspectral imaging technology.


The app uses mobile phone camera as the imaging device and hence could be easily used in the field by the farmers, pointed out Prof Chaturvedi.

After an intense global competition, the team was one of the three finalists to compete at Noble Museum in Stockholm, Sweden. The low-cost handheld imaging device for optimising fertiliser use in agricultural was declared the global winner and the team were awarded 25,000 Euro.


The jury was chaired by Sara Mazur, Head of Ericsson Research, had Caleb Harper, MIT Media Lab, Dr Catherine Mulligan, Imperial College London, Mattias Fyrenius, CEO Nobel Media, and Johan Jörgensen, Founder Stockholm FoodTech as members.


India Institute of Technology Delhi's ICT product 'Enigma' that seeks to reduce infestations in rice crop storage won the second place while students of Aalto University, Finland who developed 'Foodgrid', an attempt at minimizing the distance between farm and table by building a social and commercial platform to connect urban farmers, landowners with green space, and consumers won the third place.


In arrangement with: India Science Wire

Image courtesy: India Science Wire


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