- E-Waste Manage Assist/ Waste Warriors
INSTRUCTIONS: Complete all required deliverable sections below.
Within Recycler environments, eliminating the need for human intervention and reducing the risk of hazardous exposure. Our solution harnesses Generative AI to automate the process, enabling robots to accurately classify and segregate e-waste. Simultaneously gathering data to predict and manage future e-waste generation, thereby promoting workplace safety and environmental sustainability.
- Public Awareness about Health Hazards of E-waste.
- Reduce risk of human exposure to e-waste by automating e-waste material segregation.
- Predict Future E-waste Generation.
The global issue of electronic waste, or e-waste, poses significant environmental and health risks. As the proliferation of electronic devices continues, responsible e-waste management is of paramount importance. In response to this challenge, we have developed a groundbreaking solution that combines the power of Generative AI to serve three critical purposes:
1. Generating Awareness through AI-Generated Advertisements: The first facet of our solution focuses on generating awareness about e-waste management among the general public. Electronic waste contains hazardous materials that, when improperly disposed of, can harm the environment and human health. Our AI-driven system creates tailored and impactful advertisements to educate the public on the importance of recycling and responsible e-waste disposal. By harnessing Generative AI, these advertisements can be customized to target specific audiences, making the message more relatable and engaging.
2. Factory E-Waste Segregation : The second aspect of our solution is the application of Generative AI in recycler environments to automate the segregation of e-waste, eliminating the need for human intervention. Once sorted, the e-waste is placed in specific racks for further processing or recycling. This automated system enhances workplace safety by reducing human exposure to hazardous materials, while also increasing operational efficiency in managing e-waste within the recycler environment. E-waste segregation data will be used further in Predictive Insights and Analysis based on certain assumptions.
3. Data Collection and Validation for Predictive Insights: The third and most innovative component of our solution involves capturing data from various public sources online and validating this data to gain insights into future e-waste generation trends. Accurate data is crucial for developing sustainable waste management strategies. Our system aggregates data from sources such as government reports, industry publications, and public databases. It then employs advanced data validation techniques to ensure the information's reliability and accuracy. This validated data is analyzed to predict and understand the future trajectory of e-waste generation, helping organizations and policymakers make informed decisions regarding e-waste management and resource allocation.
How the Three Components Work Together: The synergy between these three components is what makes our solution truly remarkable. The awareness generated through AI-driven advertisements not only educates the public but also promotes responsible e-waste disposal practices. Concurrently, the data collected and validated from public sources helps organizations anticipate the scale of e-waste challenges they will face. This predictive insight allows for better planning and resource allocation, ensuring that e-waste is managed efficiently.
In recycler environments, the AI-powered robotic segregation system takes this a step further by automating the sorting process, reducing the risk to human workers and increasing efficiency. The data-driven approach also extends to recycler operations, where the system can track the types and quantities of e-waste processed, helping organizations better manage their e-waste streams and make informed decisions on recycling and disposal methods.
Conclusion: Our triple-purpose solution is a comprehensive and forward-thinking approach to e-waste management. By combining Generative AI to raise awareness, collect and validate data for predictive insights, and automate e-waste segregation in recycler settings, we address the e-waste challenge at various levels. Our goal is to create a more sustainable and responsible approach to electronic waste management that benefits the environment, public health, and the global community as a whole. With this integrated approach, we aim to pave the way for a greener, cleaner, and safer future for all.
IBM Research BAM
We're using following generative AI models from IBM Research BAM laboratory.
- ibm/granite-13b-instruct-v1
- google/flan-t5-xxl
LangChain Below model is used in e-waste analysis module.
- langchain_model
- Python
- Flask
Diagram and step-by-step description of the flow of our solution:
- This implementation is currently driven by API calls through POSTMAN.
- User calls the relevant REST APIs which will call the models.
INSTRUCTIONS: The following deliverables should be officially posted to your My Team > Submissions section of the Call for Code Global Challenge resources site, but you can also include them here for completeness. Replace the examples seen here with your own deliverable links.
The project currently does the following things.
-
E-waste Awareness campaign
Here, we provide a fact sheet about electronic devices and overview about e-waste recycling and usegranite-13b-instruct-v1
model to create advertisement campaign contents initially intended to be displayed at retailers end. Also, we're generating SMS contents fromgoogle/flan-t5-xxl
model -
Segregation of e-waste materials or devices at recycler facility center
Here, to segregate items received at recycler we train the modelibm/granite-13b-instruct-v1
by providing rack identifier examples to store the received item and label it. -
Data Collection and Validation for Predictive Insights
Here, our process will we get the data fromibm/granite-13b-instruct-v1
model and have certain assumptions based on which we will predict the e-waste generation for future perpective.
-
Integrate Segregation Model with Robots
The segregation model will be integrated with Robots in Recycler plants to safeguard human exposure to hazardous componets that can cause major health issues. -
Mobile Application for Public Engagement
Create user-friendly mobile application that enables individuals to easily schedule e-waste pickups, receive notificatios about nearby collection points and access educational resources on responsible e-waste disposal. -
Sentiment Analysis for Ad Campaings
Based on the user feedback captured at various retail centers, NLP will be used to analyze the sentiments of user feedback to tailor advertising campaigns effectively. By understanding the public sentiments, organizations can create advertisements that resonate with the audience and drive positive actions. -
Augmented Reality Training
Integrate with AR application that provide step-by-step instructions for safely disasembling electronic devices.
See below for our proposed schedule on next steps after Call for Code 2023 submission.
INSTRUCTIONS: The following deliverables are suggested, but optional. Additional details like this can help the judges better review your solution. Remove any sections you are not using.
- Create env file having credentials to connect to genai api
GENAI_KEY="<your_key_here>"
GENAI_API="https://bam-api.res.ibm.com/v1"
-
Install python dependecies
pip install -r requirements.txt
-
Execute following command to start flask webserver on port 8080
flask --app caller run --debug --port 8080
- ImportError for class "Credentials", "Model" in Lib\site-packages\genai\extensions\langchain\llm.py-
fix: Change the import statement as "from genai.credentials import Credentials" and "from genai.model import Model" - ImportError for "version" in Python file-
fix: Check the error in the respective python file and replace with the name "version".
- Awareness Campaign
a. Generate Advertisement:
API call:/EwasteCampaignAdvertise
Sample API response below:
b. Generate SMS:- E-waste recycling is a process of collecting, transporting, and processing discarded electronic devices. - E-waste recycling facilities are specialized facilities designed to manage and process electronic waste. - E-waste includes discarded electronic devices like smartphones, computers, laptops, TVs, printers, and more. - These facilities play a crucial role in preventing environmental damage caused by improper disposal of electronic waste. - Electronic waste contains hazardous materials like lead, mercury, and cadmium, which can harm the environment if not managed properly. - E-waste recycling centers are equipped with specialized equipment to safely dismantle and process electronic devices. - Valuable components like precious metals (gold, silver, copper) are separated for reuse in new electronics. - E-waste recycling centers often collaborate with certified disposal facilities to manage hazardous waste properly. For more information visit XYZ.com
API call:/EwasteCampaignSms
Sample API response below:
Health Hazards. E-waste is hazardous to human health. E-waste recycling is a process of collecting, transporting, and processing discarded electronic devices. E-waste recycling facilities are specialized facilities designed to manage and process electronic waste. For more information visit XYZ.com
- Analysis
API call:/smartphone_analysis
Sample API response below:
{ "AI Model value for Total EWaste per year in India": "1.6 million tonnes", "AI Model value for Percent Mobile contribution to EWaste": "5%", "Total Mobile EWaste per year": "0.08 Million Tons", "No of States in India": 28, "Avg Mobile EWaste expected from a state per year": "2857.14 Tons", "Say Mobile EWaste collected at seggregation facility for a state": "X Million Tons", "Analysis": "Average Mobile EWaste is expected at state level is 2857.14 Tons, but actual value is X Tons The shortage suggests a better campaiging strategy for mobile EWaste collection at state level" }
- Segregation
API call: /seggregation Provide input JSON format with a list of devices by making POST call to above API.
Sample API response below:
Example inut JSON file as -
Output:{ "devices": ["Calculator","Solar_panel","HDMI_cable","Iphone"] }
{ "Calculator": " Miscellaneous Electronic Devices,May contains battries, Can be reclaimed,Store at Rack-18", "Solar_panel": " Renewable Energy Equipment,may contains photovoltaic substance, Can be reclaimed,Store at Rack-20", "HDMI_cable": " Cables and Wiring, Can be reclaimed,Store at Rack-16", "Iphone": " Phone, Might contains user data, which need to be erased before refurbishing or recycling,Store at Rack-8", }
INSTRUCTIONS: In this section you add the instructions to run your project on your local machine for development and testing purposes. You can also add instructions on how to deploy the project in production.
You can find a running system to test at...
See our description document for log in credentials.
INSTRUCTIONS: You can remove the below section from your specific project README.
Please read CONTRIBUTING.md for details on our code of conduct, and the process for submitting pull requests to us.
We use SemVer for versioning. For the versions available, see the tags on this repository.
This project is licensed under the Apache 2 License - see the LICENSE file for details.
- Based on IBM BAM Res.