Smart Farming

February 5, 2021

Technion researchers develop an automated method for the prediction of crop stress

Technion – Israel Institute of Technology researchers have developed an innovative technology for automated monitoring of stress in agricultural crops. Early detection of water and heat stress is crucial for agricultural growers, since reduction in moisture is reflected in limited stomatal conductance, resulting in dwindled growth and eventually to the plant’s premature death. The development was led by the people of GIP, the Geometric Image Processing Laboratory, in the Henry and Marilyn Taub Faculty of Computer Science.

Israel, which was renowned in the first decades of its existence as a modern agricultural power, transitioned over the years into the Startup Nation. In recent years, it turns out that the connection between the two – hi-tech and agriculture, agritech, for short – is likely to give the food world a significant boost. This is the backdrop for the establishment of the Phenomics Consortium, sponsored by the Israel Innovation Authority, in the framework of which the present research was conducted. The Consortium was created with the goal of furthering scientific and technological innovation through collaboration between academic research institutes and industrial companies.

The Technion researchers – research assistant Alon Zvirin, head of the GIP lab Professor Ron Kimmel,  and chief engineer Yaron Honen – have developed smart technology for the monitoring and prediction of crop stress and leaf segmentation. In the context of the former, Zvirin explains: “The detection of drought stress enables the plant to be saved, allows for the identification of diseases and the prediction of crop yield quantities, all of which are crucial information for the grower.” Through the use of color photographs, thermal imaging and deep learning, the researchers were able to predict stress and new leaf development with great success; in a test of the technology on banana seedlings, an impressive prediction level of over 90% accuracy was achieved. In the context of the latter – leaf segmentation – the researchers achieved unprecedented results in the identification of Arabidopsis and tobacco leaves by applying deep learning. To train the system on a large quantity of samples, the research team developed a vast database containing artificial leaf images, and then also tested the technology on other crops – avocado, bananas, cucumbers and maize.

According to Zvirin, “We included young researchers who were just starting out in the technology development process. They brought excellent ideas and did a great job. Two of them are also listed as lead authors of the articles: Dmitri Kuznichov, who will shortly be completing his master’s degree under the supervision of Prof. Irad Yavneh and Prof. Ron Kimmel, and Sagi Levanon – a graduate of the Psagot Excellence Program, who has started studying for his second degree in the Faculty.” The article on stress detection was published at the European Conference on Computer Vision, ECCV, and the paper on segmentation was published at the Conference on Computer Vision and Pattern Recognition, CVPR.

The Phenomics Consortium

The name “Phenomics” is derived from the word “phenotype”, i.e. the observable physical properties of an organism, which possess agricultural, agronomic or biological significance. In our case, this refers to the diagnosis of the plant’s condition on the basis of its observable characteristics – color, shape and size. High throughput automated phenotyping today accounts for the bottleneck in the improvement of agricultural crops, and hence the importance of the present achievement. The Technion’s partners in the Consortium are agro-tech and biotech companies Rahan Meristem, Hazera Seeds and Evogene; tech companies Elbit Systems, Opgal Optronics Industries and Sensilize; and the following academic and research institutes: Ben-Gurion University, Tel Aviv

For more than a century, the Technion – Israel Institute of Technology has pioneered in science and technology education and delivered world-changing impact. Proudly a global university, the Technion has long leveraged boundary-crossing collaborations to advance breakthrough research and technologies. Now with a presence in three countries, the Technion will prepare the next generation of global innovators. Technion people, ideas and inventions make immeasurable contributions to the world, innovating in fields from cancer research and sustainable energy to quantum computing and computer science to do good around the world.

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