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)

Click on INTERNSHIPS for more info.

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 

Click on CoE for more info.

MIT SQUARE ABROAD OPPORTUNITIES

• Abroad Studies

• Abroad Traineeships

• Abroad Internships

• Abroad Placementships

• Abroad Mentorships

• Abroad Fellowships

• Abroad Inventorships

• Startup Founderships

Click on Green Education for more info.

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