STUDY FREE

Please scroll down to access the Audiobook courses for this Diploma Program. You can listen to them freely via YouTube.

To obtain our Diploma qualification, your must score at least 50% pass mark in our "Thesis-based" examination. To book your exam slot, please scroll to the bottom of the page. Also, you'd be able to download your FREE eBook copies of all assigned courses after booking for your exam.

ELIGIBILITY & DURATION

This program is 100% online and on-demand.

Anyone, irrespective of their qualifications and educational backgrounds (high school leavers, first degree, postgraduate etc) can apply. We welcome all learners to this vocational diploma program.

It is self-paced. You can start and conclude at anytime. If you however wish to apply for our Diploma certification, you must then book for our examinations.

Our exams are written, thesis-based project assignments. You will be given a real-life case scenario, and then asked to produce a document that proffers a solution to the problem. During the entire duration of your thesis project, you'd be assigned an academic supervisor who will provide guidance and finally grade your project delivery.

We expect that all our students should submit their thesis-based project assignments within 90 days from the date they book their exams.

Energy for Smart Cities

A smart city is an urban area that uses digital technologies and data-driven solutions to enhance the quality of life for its residents, improve operational efficiency, and promote sustainable development. At its core, a smart city integrates information and communication technologies (ICT) across multiple sectors to optimize services, foster innovation, and enable better governance. Smart cities leverage a variety of interconnected technologies—such as sensors, big data analytics, artificial intelligence, and the Internet of Things (IoT)—to gather real-time information about urban operations. These insights are then used to make informed decisions and automate processes, leading to improved infrastructure, efficient use of resources, and enhanced citizen services.

AI for Renewable Energy

The 21st century faces a defining challenge: transitioning from a fossil-fueled world to a sustainable one. At the heart of this transformation is renewable energy—a set of technologies designed to harness naturally replenished sources like the sun, wind, and water. Unlike coal, oil, and gas, these sources are not only cleaner, but also virtually inexhaustible. As climate change accelerates and energy demands surge, renewable energy is not just an option—it is a necessity. But while the promise is real, so are the challenges. Renewable energy sources can be intermittent, dependent on natural cycles, and difficult to store. Moreover, integrating these sources into aging power grids and scaling them to meet global needs requires innovation, planning, and a touch of brilliance. That’s where Artificial Intelligence (AI) comes in—a transformative tool poised to unlock the true potential of renewable energy.

Smart Hybrid Energy Networks

In an era defined by technological innovation and climate consciousness, energy systems are undergoing a transformative shift. Gone are the days when centralized power plants supplied electricity to passive consumers over vast grids. Today, energy is becoming smarter, cleaner, and more dynamic. At the heart of this transformation lies the concept of Smart Hybrid Energy Networks (SHEN). Smart Hybrid Energy Networks represent the convergence of various energy sources—renewable and conventional—into a unified, intelligent, and adaptable system. They combine the strengths of diverse energy types, such as solar, wind, hydro, biomass, and even traditional fossil fuels, managed through smart technologies and driven by data. But what makes SHEN so revolutionary? At their core, these networks are smart—they use real-time data and intelligent algorithms to optimize energy flow, demand, and storage. They are hybrid—combining multiple energy sources and storage systems to improve resilience and reduce dependence on any single source. And they are networks—interconnected systems that promote decentralization, collaboration, and bi-directional energy flow. This course serves as your guide to understanding the rise of SHEN, their technical underpinnings, practical applications, and role in building a sustainable energy future.

Blockchain's role in Green Supplychains

Every product we touch — the food on our table, the phone in our pocket, the clothes we wear — has a story. That story begins in a farm, a factory, or a mine, and winds its way through ships, trucks, warehouses, and retailers before reaching us. Hidden in that journey are some of the most pressing challenges of our time: carbon emissions, resource depletion, labor exploitation, and waste. Global supply chains are the lifeblood of modern economies, but they are also among the largest contributors to climate change and environmental degradation. They account for more than 80% of global trade and nearly two-thirds of greenhouse gas emissions in many industries. As the world pushes toward sustainability, supply chains sit at the crossroads of opportunity and responsibility. At the same time, trust in sustainability claims is eroding. Consumers are asking tough questions: Was this cotton shirt really grown sustainably? Was this cobalt for my smartphone mined ethically? Is this “carbon-neutral” product truly offsetting emissions, or is it just clever marketing? The rise of greenwashing — unverified or misleading environmental claims — has made transparency more important than ever. This is where blockchain enters the conversation. Known widely as the backbone of cryptocurrencies, blockchain is in fact much more: a decentralized, tamper-resistant system of recordkeeping that can track and verify information across complex networks. In the context of green supply chains, blockchain offers something revolutionary — the ability to make sustainability claims transparent, traceable, and trustworthy.

AI for Climate Modelling & Prediction

This course, AI for Climate Modelling and Prediction, aims to provide a comprehensive, structured guide to the field — accessible to researchers, policymakers, students, and practitioners.

AI for Human Resources Professionals

The role of Human Resources has never been more complex—or more critical—than it is today. Organizations are under pressure to attract, retain, and engage top talent in an environment where employee expectations are changing faster than ever. Remote work, hybrid models, shifting demographics, and a highly competitive labor market have forced HR professionals to rethink nearly every process, from recruitment to retirement. Artificial Intelligence (AI) has emerged as one of the most powerful tools available to HR professionals. No longer confined to tech companies or research labs, AI is now embedded in many of the platforms HR teams already use—applicant tracking systems, payroll tools, learning management platforms, and engagement surveys. Far from being a futuristic concept, AI is quietly reshaping the daily reality of HR work right now. This book was written to help HR professionals not just keep up with these changes, but lead them. It is designed to give you the knowledge, context, and practical tools to use AI confidently and responsibly in your organization.

Blockchain & Cryptocurrencies

We stand at the early stages of what may become one of the defining technological shifts of our century. Just as the internet transformed how we communicate and access information, blockchain may transform how we exchange value, coordinate action, and govern society. This is more than a story about technology — it is a story about power, trust, freedom, and the future of human coordination. And it is a story that is still being written. Welcome to the world of blockchain and cryptocurrencies. Let’s explore it together.