Leaf - a significant part of the plant, produces food
using the process called photosynthesis. Leaf disease can cause
damage to the entire plant and eventually lowers crop production.
Machine learning algorithm for classifying five types of diseases,
such as Alternaria leaf diseases, Bacterial Blight, Gray Mildew,
Leaf Curl and Myrothecium leaf diseases, is proposed in the
proposed study. The classification of diseases needs front face
of leafs. This paper proposes an automated image acquisition
process using a USB camera interfaced with Raspberry PI SoC.
The image is transmitted to host PC for classification of diseases
using online web server. Pre-processing of the acquired image by
host PC to obtain full leaf, and later classification model based
on SVM is used to detect type diseases. Results were checked
with a 97% accuracy for the collection of acquired images.

A. Akhtar, A. Khanum, S. A. Khan, and A. Shaukat, “Automated plant

disease analysis (apda): performance comparison of machine learning

techniques,” in 2013 11th International Conference on Frontiers of

Information Technology. IEEE, 2013, pp. 60–65.

M. H. Saleem, J. Potgieter, and K. M. Arif, “Plant disease detection and

classification by deep learning,” Plants, vol. 8, no. 11, p. 468, 2019.

R. M. Haralick, K. Shanmugam, and I. H. Dinstein, “Textural features

for image classification,” IEEE Transactions on systems, man, and

cybernetics, no. 6, pp. 610–621, 1973.

J. Isleib, Signs and symptoms of plant disease, 2019 (accessed February

, 2019). [Online]. Available: https://www.canr.msu.edu/news/signs

and symptoms of plant disease is it fungal viral or bacterial

R. Borges, M. Rossato, M. Santos, M. Ferreira, M. Fonseca, A. Reis,

and L. Boiteux, “First report of a leaf spot caused by paramyrothecium

roridum on tectona grandis in brazil,” Plant Disease, vol. 102, no. 8,

pp. 1661–1661, 2018.

H. K. Mewada, A. V. Patel, and K. K. Mahant, “Concurrent design of

active contour for image segmentation using zynq zc702,” Computers

& Electrical Engineering, vol. 72, pp. 631–643, 2018.

M. Rzanny, M. Seeland, J. W¨aldchen, and P. M¨ader, “Acquiring and preprocessing

leaf images for automated plant identification: understanding

the tradeoff between effort and information gain,” Plant methods, vol. 13,

no. 1, pp. 1–11, 2017.

D. Vukadinovic and G. Polder, “Watershed and supervised classification

based fully automated method for separate leaf segmentation,” in The

Netherland Congress on Computer Vision, 2015, pp. 1–2.

C. Niu, H. Li, Y. Niu, Z. Zhou, Y. Bu, and W. Zheng, “Segmentation of

cotton leaves based on improved watershed algorithm,” in International

Conference on Computer and Computing Technologies in Agriculture.

Springer, 2015, pp. 425–436.

L. S. Pinto, A. Ray, M. U. Reddy, P. Perumal, and P. Aishwarya,

“Crop disease classification using texture analysis,” in 2016 IEEE

International Conference on Recent Trends in Electronics, Information

& Communication Technology (RTEICT). IEEE, 2016, pp. 825–828.

A. Abraham, R. Falcon, and M. Koeppen, Computational Intelligence

in Wireless Sensor Networks: Recent Advances and Future Challenges.

Springer, 2017, vol. 676.

S. Hu, H. Wang, C. She, and J. Wang, “Agont: ontology for agriculture

internet of things,” in International Conference on Computer and

Computing Technologies in Agriculture. Springer, 2010, pp. 131–137.

Y. Shi, Z. Wang, X. Wang, and S. Zhang, “Internet of things application

to monitoring plant disease and insect pests,” in 2015 International

conference on Applied Science and Engineering Innovation. Atlantis

Press, 2015.

A. Kapoor, S. I. Bhat, S. Shidnal, and A. Mehra, “Implementation of

iot (internet of things) and image processing in smart agriculture,” in

International Conference on Computation System and Information

Technology for Sustainable Solutions (CSITSS). IEEE, 2016, pp. 21–26.

N. Anantrasirichai, S. Hannuna, and N. Canagarajah, “Automatic leaf

extraction from outdoor images,” arXiv preprint arXiv:1709.06437,

V. Singh and A. K. Misra, “Detection of plant leaf diseases using image

segmentation and soft computing techniques,” Information processing in

Agriculture, vol. 4, no. 1, pp. 41–49, 2017.

N. P. Singh, R. Kumar, and R. Srivastava, “Local entropy thresholding

based fast retinal vessels segmentation by modifying matched filter,” in

International Conference on Computing, Communication & Automation.

IEEE, 2015, pp. 1166–1170.

E. Hamuda, M. Glavin, and E. Jones, “A survey of image processing

techniques for plant extraction and segmentation in the field,” Computers

and Electronics in Agriculture, vol. 125, pp. 184–199, 2016.

B.-y. Sun and M.-c. Lee, “Support vector machine for multiple feature

classifcation,” in 2006 IEEE International Conference on Multimedia

and Expo. IEEE, 2006, pp. 501–504.

S. Arivazhagan, R. N. Shebiah, S. Ananthi, and S. V. Varthini, “Detection

of unhealthy region of plant leaves and classification of plant leaf

diseases using texture features,” Agricultural Engineering International:

CIGR Journal, vol. 15, no. 1, pp. 211–217, 2013.

S. Arivazhagan, R. Shebiah, S. Ananthi, and S. Varthini, “Detection of

unhealthy region of plant leaves and classification of plant leaf diseases

using texture features,” Agricultural Engineering International: CIGR

Journal, vol. 15, no. 1, pp. 211–217, 2013.