PRE2023 3 Group6: Difference between revisions

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=== Problem Statement ===
=== Problem Statement ===
37% percent of food is wasted in households in the US<ref>https://ballardbrief.byu.edu/issue-briefs/food-waste-in-the-united-states</ref>. The cause of food waste can be appointed to food expiration, but it could also be due to shopping items that one does not know recipes for.  
<s>37% percent of food is wasted in households in the US</s><ref>https://ballardbrief.byu.edu/issue-briefs/food-waste-in-the-united-states</ref>. In the EU, households generate more than half of the total food waste (54%)<ref>https://food.ec.europa.eu/safety/food-waste_en</ref>. The causes of food waste could be food expiration, overshopping, and it could also be poor meal planning and insufficient food management skills.


=== Objectives ===
=== Objectives ===

Revision as of 10:51, 17 February 2024

Virtual Fridge

Group members

Name Student number Study E-mail
Sem van Birgelen 1813862 Industrial Design s.v.birgelen@student.tue.nl
Manka Huszár 1581368 Computer Science and Engineering m.huszar@student.tue.nl
Aydan Bakhshi 1671189 Applied Physics a.bakhshi@student.tue.nl
Yi Hang Cheung 1014298 Computer Science and Engineering y.h.cheung@student.tue.nl
Bohao Ye 1809903 Computer Science and Engineering b.ye1@student.tue.nl
Vlad Chibulcutean 1780980 Computer Science and Engineering v.chibulcutean@student.tue.nl

Introduction

Problem Statement

37% percent of food is wasted in households in the US[1]. In the EU, households generate more than half of the total food waste (54%)[2]. The causes of food waste could be food expiration, overshopping, and it could also be poor meal planning and insufficient food management skills.

Objectives

  • Create an app that suggests recipes based on the contents of the user's fridge;
  • Investigate how technology can be used to combat food waste. More specifically:
    • How much food is wasted in households;
    • What are the main reasons for food waste;
    • How to prevent food waste;
    • What would be a convenient way for users to keep oversight of fridge contents;
    • What incentives could be used to motivate consumers to prevent food waste
    • How AI can assist in preventing food waste
    • Check other recipe suggesting apps / websites, what features would be useful to add / what's missing.

Users & Requirements

Users

Regular people in households, possibly restaurants and grocery stores.

App requirements

Basic features:

  • Firebase account login
  • Inventory:
    • Shopping list
    • Edit list
    • Expiry date (barcode)
  • Recipe suggestions based on:
    • Inventory
    • Expiry dates
    • [Optional] Cuisine (Italian, Asian, Mexican, etc.)
    • [Optional] Preparation time

Extra features:

  • Look at local supermarkets for ingredients about to expire and, if possible, include them in recipes against discounted price (Analogous to "To Good To Go");
  • Scan the barcode of the product to add it to the list automatically.

Literature study

Schanes, K., Dobernig, K., & Gözet, B. (2018). Food waste matters - A systematic review of household food waste practices and their policy implications. Journal Of Cleaner Production, 182, 978–991. https://doi.org/10.1016/j.jclepro.2018.02.030


Ishangulyyev, R., Kim, S., & Lee, S. H. (2019). Understanding Food Loss and Waste—Why are we losing and wasting food? Foods, 8(8), 297. https://doi.org/10.3390/foods8080297

  • Definitions of food loss and food waste, quantification, causes of food loss and waste at different stages of the food supply chain.


Moraes, N. V., Lermen, F. H., & Echeveste, M. E. S. (2021). A systematic literature review on food waste/loss prevention and minimization methods. Journal of Environmental Management, 286, 112268. https://doi.org/10.1016/j.jenvman.2021.112268


Muth, M. K., Birney, C., Cuéllar, A., Finn, S. M., Freeman, M., Galloway, J. N., Gee, I. M., Gephart, J. A., Jones, K., Low, L., Meyer, E., Read, Q. D., Smith, T. A., Weitz, K., & Zoubek, S. (2019). A systems approach to assessing environmental and economic effects of food loss and waste interventions in the United States. Science of the Total Environment, 685, 1240–1254. https://doi.org/10.1016/j.scitotenv.2019.06.230


Cane, M., & Parra, C. (2020). Digital platforms: mapping the territory of new technologies to fight food waste. British Food Journal, 122(5), 1647–1669. https://doi.org/10.1108/bfj-06-2019-0391


Onyeaka, H., Tamasiga, P., Nwauzoma, U. M., Miri, T., Juliet, U. C., Nwaiwu, O., & Akinsemolu, A. A. (2023). Using artificial intelligence to tackle food waste and enhance the circular economy: Maximising resource Efficiency and Minimising Environmental Impact: A review. Sustainability, 15(13), 10482. https://doi.org/10.3390/su151310482

  • The role of AI in preventing food waste, more specifically in smart monitoring, predictive analytics, smart inventory management, consumer awareness and education, donation and redistribution.


https://www.analyticsvidhya.com/blog/2023/01/food-waste-management-ai-driven-food-waste-technologies/


Cappelletti, F., Papetti, A., Rossi, M., & Germani, M. (2022). Smart strategies for household food waste management. Procedia Computer Science, 200, 887–895. https://doi.org/10.1016/j.procs.2022.01.286