Green Technologies
GREEN TECH HUB - Global
Green technologies refer to innovations and practices that reduce negative environmental impacts by conserving energy, decreasing pollution, promoting sustainability, and using renewable resources.
On-Job Training
MIT SQUARE DIGITAL INNOVATION
DataTech (Big Data / Data Science / AI / BI / Python)
SmartTech (IoT / Embedded Systems / VLSI)
RoboTech (Robotics / Drones / Digital Twin / 3D Printing)
WebTech (Web Development / JavaScript / Java)
MultiXTech (Multiexperience / Web / Android / iOS)
MetaTech (Metaverse / Megaverse / Multiverse / Games / AR / VR / XR)
CyberTech (Cybersecurity / Cryptocurrency / Blockchain / Digital Forensics / Cyber-physical systems)
CloudTech (Cloud Computing / Quantum Computing / Edge Computing)
ComTech (Communication Networks / 5G / 6G)
GreenTech (AgroTech / EVTech / Electric Vehicles)
BizTech (Business Analytics / Business Management / Entrepreneurship / HR / Finance)
MadTech (Digital Marketing / Advertising / Media / Fashion)
EduTech (Education Management / Pedagogies)
HealthTech (Healthcare Management / Psychology / Emotional Intelligence)
CiviTech (Infrastructure / Civil / Architecture/ Interior)
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MIT SQUARE CENTRE OF EXCELLENCE
focuses on Science, Technology, Engineering, Arts & Mathematics (STEAM)
CoE for Research, Applications, Innovation, Science & Technology, and Entrepreneurship (RAISE)
CoE for Internet of Things (IoT)
CoE for Artificial Intelligence (AI)
CoE for Blockchain
CoE for Cybersecurity
CoE for Robotics
CoE for 3D Printing
CoE for Metaverse and Multiverse
CoE for Multiexperience
CoE for Electric Vehicles
CoE for VLSI
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MIT SQUARE ABROAD OPPORTUNITIES
Abroad Studies
Abroad Traineeships
Abroad Internships
Abroad Placementships
Abroad Mentorships
Abroad Fellowships
Abroad Inventorships
Startup Founderships
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Sustainable Products
Green Education
Smart Classroom Technology
Interactive Whiteboards: We replace traditional blackboards and reduce the need for paper-based teaching aids. Many models are energy-efficient and have long lifespans.
Interactive Projectors: Use less energy than traditional projectors and have longer-lasting bulbs.
Digital Learning Tools
E-books and E-readers: Reduce the need for printed textbooks, saving paper and transportation emissions associated with physical books.
Online Learning Platforms: Facilitate remote learning, reducing the need for physical classroom space and associated resource consumption.
Sustainable Building Technologies
Smart Thermostats: Automatically adjust heating and cooling to optimize energy use, reducing the environmental impact of maintaining comfortable indoor environments.
Automated Lighting Systems: Use motion sensors and daylight harvesting to reduce energy consumption in classrooms and other school facilities.
Recycling Programs for Electronic Waste
E-waste Collection Programs: Schools can partner with certified e-waste recyclers to properly dispose of and recycle outdated or broken electronic devices.
Device Trade-in Programs: Encourage the exchange of old devices for new ones, ensuring responsible recycling and reducing electronic waste.
Green Business
Sustainable Electronics & Energy-efficient Hardware
Recycled Materials: Electronics made with components from recycled materials, reducing the demand for new raw materials. Examples include laptops and smartphones with casings made from recycled plastics or metals.
Certified Products: Electronics that meet strict environmental criteria for energy efficiency, materials selection, and recyclability.
Sustainable Software, Applications and Cloud Solutions
Optimized Software Code: Development practices that aim to reduce the computational load, thereby decreasing energy consumption. Techniques include code optimization and the use of efficient algorithms.
Cloud Computing: Utilizing cloud services that employ virtualized resources and data centers optimized for energy efficiency, helping to reduce the overall carbon footprint of IT operations.
Green Coding Practices: Writing software that is optimized for performance and energy efficiency, reducing the computational power needed for various tasks.
Remote Work Solutions: Tools and platforms that facilitate remote work, reducing the need for commuting and decreasing overall carbon emissions.
Sustainable IT Services
Consulting and Auditing Services: Offering expertise in sustainable IT practices, helping organizations implement green IT strategies and achieve sustainability goals.
Sustainable IT Infrastructure: Designing and building IT infrastructures with sustainability in mind, including the use of energy-efficient components and sustainable practices throughout the lifecycle of IT assets.
Green Healthcare
Reusable Gowns and Masks: Made from materials that can be sterilized and reused, such as certain types of fabrics.
Eco-friendly Disposable Gloves: Made from biodegradable materials like plant-based nitrile or latex.
Reusable Devices & Tourniquets: Made from durable materials that can be disinfected and reused, decreasing reliance on disposable versions.
Electronic Health Records (EHRs): Reduce the need for paper, thus saving trees and reducing waste.
Telemedicine: Decreases the need for travel, reducing carbon emissions associated with transportation.
Green Transportation
Electric Vehicles (EVs): Reduce emissions compared to traditional internal combustion engine vehicles.
Bicycles and E-bikes: Promote healthy, zero-emission transportation.
Green Infrastructure
Green Roofs: These are roofs covered with vegetation and soil, which can absorb rainwater, and provide insulation.
Green Walls and Vertical Gardens: These involve growing plants on the vertical surfaces of buildings, which can help reduce the heat island effect, improve air quality, and provide insulation.
Rainwater Harvesting Systems: These systems collect and store rainwater from roofs or other surfaces for later use, reducing the demand on local water supply and mitigating runoff.
Green Waste Management Systems
Solar Powered Systems