AI

Children are the future of humanity, yet in war-torn regions, their lives and prospects are at constant risk. This is why our project's next phase is so crucial. We plan to develop our own AI technology, based on GPT-4o, to create dedicated AI educational software. This software will bring quality educational resources to conflict zones, giving these children a chance at a hopeful future.

We will develop AI educational software based on GPT-4o, capable of personalized learning. It will provide customized teaching content based on each child's learning progress and abilities. By intelligently analyzing students' learning behaviors and outcomes, the AI teacher can adjust teaching methods and difficulty levels in real-time, ensuring that each child learns at their own pace. Additionally, our AI software will include rich interactive elements and gamified learning mechanisms to stimulate children's interest in learning and foster their growth in an enjoyable way.

GPT-4o relies on the core structure of the Transformer, using an encoder-decoder architecture. For instance, in machine translation tasks, the encoder takes a sentence in one language as input, and the decoder translates it into a sentence in another language. Each encoder consists of two sub-layers: a self-attention layer and a feed-forward network layer (FFN). The input to the encoder first flows into the self-attention layer, which uses information from other words in the input sentence to encode specific words. The decoder adds an encoder-decoder attention layer to help it focus on relevant parts of the input sentence.

The multi-headed attention mechanism enhances the capability of self-attention by allowing it to focus on multiple positions simultaneously. Each input word vector is projected into multiple representation subspaces for computation, resulting in a matrix containing information from all attention heads, which is then fed into the FFN layer.

Finally, we will collaborate with local educational institutions and volunteers to ensure that the AI educational software is adapted to the local culture and language environment, truly integrating into the children's lives. Through this approach, we aim to build a bridge to knowledge, growth, and the future for children in conflict zones, allowing them to pursue their dreams despite the challenging circumstances. This is the mission of our project's next phase and our commitment to the children.

GAGA COIN in AI

▪ Smart Governance and Democratic Decision-Making: AI technology will enable smart contracts and automated decision-making, allowing GAGA token holders to participate in the decision-making process of decentralized autonomous organizations (DAOs). AI can help analyze and integrate a large number of opinions and data, providing more just and efficient governance solutions.

▪ Community Management and Fair Distribution: AI can be used to analyze and optimize the participation methods and reward mechanisms of community members, ensuring fair distribution of resources and rights among them. This promotes harmonious development and long-term stability within the community.

▪ AI and Sustainable Development: By integrating AI technology, GAGA COIN can support and promote sustainable development projects and initiatives, such as smart city construction, environmental monitoring, and resource management, leading to more sustainable social and economic development.

▪ AI-Driven Social Impact and Education: AI tech can enhance the social impact of the GAGA COIN project. For instance, it can use smart contracts and blockchain technology to ensure transparency and traceability of charitable donations and support the dissemination and sustainable development of education and skill training projects.

▪ Predicting and Solving Global Challenges: AI can help the GAGA COIN project team predict and solve global challenges such as crisis management, public health, and social inequality issues, thereby promoting global social stability and progress.