Abstract
The three important for every one of us is food, cloth and house. We give the first priority to food. At the same in this fast generation making a food by spending so many hours in the kitchen is a tough task. People are using various food delivery apps like Zomoto, Swiggy, Uber eats and many to get their food. Many restaurants have started takeaways courts to parcel the food items. Behind of every meal there is a procedure involved in making of it. How to the know the process behind of it. The basic of aim of this paper is to provide a solution to the query. We are introducing an inverse cooking system named it as “Swasth”. This system recreates cooking recipes for the given food image. This system provides the ingredients used and then also gives the cooking instructions. Our system uses a unique architecture to forecast ingredients as sets, modelling their relationships without enforcing any order, and then creates cooking directions while concurrently paying attention to the image and its predicted components. We thoroughly test the system on the massive Recipe 1 million dataset and demonstrate that we are able to obtain high quality recipes by utilising both image and ingredients. We also demonstrate that the system is able to produce more compelling recipes than retrieval-based approaches in terms of human judgement.
Swasth is a Hindi language word means tasty.
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References
Bossard, L., Guillaumin, M., Van Gool, L.: Food-101 – mining discriminative components with random forests. In: Fleet, D., Pajdla, T., Schiele, B., Tuytelaars, T. (eds.) ECCV 2014. LNCS, vol. 8694, pp. 446–461. Springer, Cham (2014). https://doi.org/10.1007/978-3-319-10599-4_29
Carvalho, M., Cad`ene, R., Picard, D., Soulier, L., Thome, L., Cord, M.: Cross-modal retrieval in the cooking context: learning semantic text-image embeddings. In: SIGIR (2018)
Chen, J.-J., Ngo, C.-W.: Deep-based ingredient recognition for cooking recipe retrieval. In: ACM Multimedia. ACM (2016)
Chen, J.-J., Ngo, C.-W., Chua, T.-S.: Cross-modal recipe retrieval with rich food attributes. In: ACM Multimedia. ACM (2017)
Chen, M.-Y., et al.: Automatic chinese food identification and quantity estimation. In: SIGGRAPH Asia 2012 Technical Briefs (2012)
Chen, X., Zhou, H., Diao, L.: Chinesefoodnet: A large-scale image dataset for chinese food recognition. CoRR, abs/1705.02743 (2017)
Dai, B., Lin, D., Urtasun, R., Fidler, S.: Towards diverse and natural image descriptions via a conditional gan. ICCV (2017)
Dembczy´nski, K., Cheng, W., H¨ullermeier, E.: Bayes optimal multilabel classification via probabilistic classifier chains. In: ICML (2010)
Fan, A., Lewis, M., Dauphin, Y.: Hierarchical neural story generation. In: ACL (2018)
Fischler, C.: Food, self and identity. Information (International Social Science Council) (1988)
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Prasad, G.N.R., Sri Lalitha, Y., Gayatri, Y., Indira, B. (2023). Swasth: An Inverse Cooking Recipe Generation from Food Images. In: Abraham, A., Hanne, T., Gandhi, N., Manghirmalani Mishra, P., Bajaj, A., Siarry, P. (eds) Proceedings of the 14th International Conference on Soft Computing and Pattern Recognition (SoCPaR 2022). SoCPaR 2022. Lecture Notes in Networks and Systems, vol 648. Springer, Cham. https://doi.org/10.1007/978-3-031-27524-1_85
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DOI: https://doi.org/10.1007/978-3-031-27524-1_85
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