Concept Note on AI Education Program

Concept Note on AI Education Program

CONCEPT NOTE: AI Education Program

Background

This Concept Note on our AI Education Program provides details on the Why,What,How of rolling our the right education program to train your teachers and students.

65% of Students in School will enter into jobs that don’t exist today. 42% of Core Skills in all jobs will be replaced by AI. There is also the longstanding concern about the low rate of female participation in science, technology, engineering, and mathematics (STEM) studies and consequently STEM careers.

AI Skilling will be a key enabler for the attainment of the 2030 Agenda for Sustainable Development. AI is impacting all aspects of society, from how we learn to how we drive to healthcare innovations. AI will enable applications and processes to get smarter thus increasing the benefit to society. According to an Accenture analysis, “AI has the potential to add US$957 billion, or 15 percent of current gross value added, to India’s economy in 2035. To avoid missing out on this opportunity, policymakers and business leaders must prepare for, and work toward, the AI revolution. While AI Technologies are Transforming Societies worldwide, the Lack of AI Skills is the number one challenge this Transformation faces. A Digital Divide is fast developing between the Haves and the Have-nots, which needs to be urgently bridged. To achieve AI’s potential, both boys and girls, men and women need equal access to AI education and careers.

WiselyWise understands that the clear solution for bridging this gap can be found in our schools and colleges as well as corporations through Skilling programs. This Concept Note on AI Education Program underscores the fact that the need of the hour is to educate students at an early age about how to be creators of AI, not just consumers of AI. Our Research has shown that the existing STEM programs that focus on coding and robotics fall quite short in the AI Education Space. We have been actively creating AI Courses embracing tools and curricula that teach the full complement of AI concepts to truly prepare students for AI career success, such as visual recognition, landmark-based navigation, object manipulation, facial recognition and expressions, speech generation, and speech recognition. WiselyWise is also actively investing and creating Teacher-focused solutions that remove barriers of time, cost, and adoption friction, which often stand in the way of embracing AI.

Purpose of the AI Education Program

The overall purpose of the AI Education Program is to make the case for strengthening students’ education in AI subjects via age-appropriate Courses, and ultimately bring equality of access to quality education and careers. The program will help educational institutions move quickly towards developing multiple generations of AI Students, empowering them for Success in AI-run global economies.

Concept Note AI Education Program:Expected outcomes

  • Students will gain requisite knowledge & and skills for the AI Future
  • Students will become proactive in using AI for Societal benefit
  • Students will be able to design, develop, and demonstrate their AI Projects
  • Schools become self-sustaining in delivering AI Education for generations of learners
  • Increases the ROI for Corporate Sponsors

Concept Note AI Education Program: Duration and Format

The AI Education Program will be conducted for one year with an option to extend for 2 more years. It will cover all students from Grade 3 to Grade 12 (Grade 3 to High School) and will be delivered in a Phygital/hybrid mode. WiseCentral Platform & and age-appropriate courses will be used for self-study by the students and the teachers will conduct classes in school. The Teachers will be trained by WiselyWise through a two-day workshop and given access to a How to Teach AI online course which consists of Lesson Plans, Rubrics, and Assessments.

  • Online learning where students will access the courses on WiseCentral and study in multi-media formats in an engaging mode comprising of MCQs, Quizzes, and Assignments.
  • Hands-on learning where students access Maya to learn applications of AI in daily life, complete a Digital Portfolio deck, and do Coding.
  • Community-based learning provides the opportunity for students to complete joint projects, participate in discussions, conduct experiments along with family and friends, present their projects
AI Learning Pathways from Classes 3 to 12

Target Area and Beneficiaries

WiselyWise can conduct programs consisting of a minimum of 1 School and above, with a minimum of 15 students in each batch.

For Governments, Corporate Sponsors, School Districts, and School Chains, WiselyWise has the expertise to implement this AI Education Program up to 200 Schools and up to 20,000 students across multiple geographical areas in the same timezone across the Academic Year.

Between 150-250 teachers can be trained with backgrounds ideally in Computer Science, Maths, and Sciences and this can also include Volunteers from the Sponsor organization.

Participation will be by invitation only. Nomination can be done by the Sponsor and will be based on: participant profile, gender, and geographical representation, to ensure a balanced audience.

Concept Note AI Education Program Approach

WiselyWise will provide a Comprehensive AI Education Program covering the objectives of the Sponsors and outcomes desired for the Students and comprises the Modular Components below.

  • Access to Maya, your Personalized Generative AI Tutor for Teachers and students
  • Access to WiseCentral AI Learning Platform
  • Curriculum aligned to International Standards and meeting Local requirements
  • Age-appropriate Courses
  • Professional Development for Teachers
  • Hybrid Training Option – Physical & Online
  • Assignments, MCQs
  • Capstone Project
  • Assessment
  • Digital Certificate
  • Impact Assessment (with Partner)
  • FREE Content Updates

Budget

The budget will be dependent on the total nominated schools, students, teachers, volunteers, and years of implementation.

Monitoring

The program will be monitored by the WiselyWise team using the WiseCentral platform tracking engagement, completion, and certificate. The Reports are submitted to the Sponsor and other Stakeholders on a Monthly basis for Interventions as required. WiselyWise will provide the necessary Templates for sharing with Parents and Schools per Program definition.

Satisfied Customer Statistics:

Corporates: 20+

Government: 5+

Universities/Colleges: 100+

CSR/Foundations: 10+

Schools: 200+

AI Education Program Deck

WiselyWise has impacted 500+ Schools and Colleges, 250+ Teachers, and more than 50,000+ Students globally via its’ Education Programs. We have invested in Courses across 5 Regional Languages, signed MoUs with Global AI Leaders and Research organizations, and rolled out Technology Platforms in a vendor-neutral approach.

Please contact us for the Comprehensive AI Education Program Deck and Successful Case Studies.

Contact information:

Chandra Kumar

Founder & CEO

WiselyWise Singapore

Email: cxo@wiselywise.com

WhatsApp/Mobile: +65-8268 4140

#Maya #Education #EdTech #Teachers #Educators  #LearningRevolution #ai #artificialintelligence #students #learning #classroom

AI in the Classroom: Revolutionizing Education

AI in the Classroom: Revolutionizing Education

AI in the Classroom: Revolutionizing Education

Introduction: AI in the Classroom

On the 22nd of October, 2023, education enthusiasts, students, teachers, and professionals from across the globe gathered virtually for a transformative webinar, hosted by Jagran Josh Media. The event featured an inspiring and insightful presentation by Chandra Kumar, the Founder & CEO of WiselyWise and Chief Architect of Maya, the Personalized AI Tutor. With over 250 enthusiastic attendees, the webinar explored the dynamic world of AI in education, providing a glimpse of the exciting possibilities that AI brings to the classroom.

Webinar Highlights: AI in the Classroom – Revolutionizing Education

Uncover the Magic of AI: Understand what AI in the Classroom is and why it’s so exciting!

Chandra Kumar kicked off the session by demystifying AI and its profound impact on education. He elucidated the fascinating realm of Artificial Intelligence, unraveling its incredible potential for transforming traditional teaching methods and the learning experience. The audience gained valuable insights into why AI is not just exciting but also indispensable in modern education.

Real-World Examples of AI in the Classroom

The webinar delved into real-world applications of AI in education, showcasing case studies and success stories. Attendees were presented with concrete examples of how AI is already revolutionizing classrooms worldwide. From personalized learning paths to intelligent tutoring systems, Chandra Kumar painted a vivid picture of AI’s influence on education.

AI in Your Learning: Learn how AI in the Classroom can help you become a better student.

For students eager to enhance their learning journeys, Chandra Kumar shared practical strategies for harnessing AI’s potential. Attendees discovered how AI can personalize learning, providing tailored support and resources to help every student excel. The audience left with actionable tips on integrating AI into their daily study routines.

Addressing Concerns and Ethical Considerations

AI in education raises questions about privacy, data security, and ethical considerations. Chandra Kumar thoughtfully addressed these concerns, discussing the importance of responsible AI implementation in the educational sphere. Participants gained a comprehensive understanding of how to navigate the ethical dimensions of AI adoption.

Preparing for the Future with AI

As the webinar concluded, Chandra Kumar emphasized the significance of preparing for a future that integrates AI into education. He underscored the need for both students and educators to embrace AI as a powerful ally in the learning process. Attendees departed with a profound sense of optimism and readiness to engage with the evolving educational landscape.

Conclusion: AI in the Classroom

The “AI in the Classroom: Revolutionizing Education” webinar offered a remarkable exploration of AI’s transformative potential in the education domain. Chandra Kumar‘s expertise and engaging presentation captivated the audience, leaving them inspired and equipped with the knowledge needed to embrace AI’s magic in the classroom. As the world of education continues to evolve, this event served as a guiding light, illuminating the path toward a brighter, AI-enhanced future in learning.

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#Maya #Education #EdTech #Teachers #Educators #BetaTesting #LearningRevolution #ai #artificialintelligence #students #learning #classroom

🚀 Shaping the Future of Education: Be a Part of the Maya Revolution!

🚀 Shaping the Future of Education: Be a Part of the Maya Revolution!

Shape the Future of Education: Be a Part of the Maya Revolution!

Dear Educators and Teachers,

I trust this post finds you well and still passionate about the amazing journey of nurturing young minds. 📚 We have come a long way in providing Quality AI Education for Teachers & Students globally.

Today, I want to introduce you to something truly exciting – Maya. 🌟

Maya is more than just a tool; it’s an educational revolution.

 As an educator, you know the challenges that students and teachers face in today’s ever-changing world. Sometimes, complex subjects can be difficult to explain, and crafting engaging study material, lesson plans, and assessments can be time-consuming. That’s where Maya steps in.

Awesome features to shape the future of education:

🧠 Simplify Learning: Maya can explain complex topics in simple, understandable language. It brings learning within reach for students, making knowledge accessible to all.

👩🏫 Teaching Assistant: Maya isn’t just a platform; it’s your personal teaching assistant. It helps you create assessments, study plans, lesson plans, and even generates questions, saving you valuable time.

📚 Unlimited Resources: Imagine accessing a wealth of study material, lesson plans, and learning tools instantly. With Maya, the resources are endless.

🔒 Privacy Matters: We understand that privacy is paramount. Rest assured, your data is private, and you won’t find ads, gimmicks, or hidden fees with Maya.

Maya dashboard

But here’s the most exciting part – you have the opportunity to be part of something incredible. We’re on the lookout for educators and teachers who are passionate about education and want to make a real difference.

Beta Test Maya and help shape the future of education

You can be a part of the Maya revolution by becoming a beta tester.

By joining our exclusive beta testing community, you will play a pivotal role in shaping Maya’s future. Your experience as an educator is invaluable, and your insights are precious.

Ready to shape the future of education with us?

🚀 Register for FREE Now! 🚀

Let’s redefine education together. Let’s empower students. Let’s shape the future.

Are you in? If you have any questions or need more information, please don’t hesitate to reach out. We’re here to support you.

Thank you for your dedication to education. 🍎

Best regards,

Chandra Kumar

Founder & CEO

#Maya #Education #EdTech #Teachers #Educators #BetaTesting #LearningRevolution #ai #artificialintelligence #students #learning

AI Insights : Exploring Concepts, Terminology, and Key Players

AI Insights : Exploring Concepts, Terminology, and Key Players

AI Insights – Introduction

Artificial intelligence (AI) has become ubiquitous in various aspects of our modern lives, ranging from music and media to business and productivity, even extending to the realm of dating. As AI continues to advance rapidly, it can be challenging to keep up with the latest developments and terminologies. In this blog post, we will delve into the world of AI, uncovering its fundamental concepts, significant players, and recent developments. By the end, you’ll have a comprehensive understanding of AI’s current landscape and its potential future.

Part 1: AI Insights : Understanding AI 

Artificial intelligence, also known as machine learning, is a software system based on neural networks. Although the concept of AI has roots dating back over 50 years, its recent advancements have been made possible by powerful computing resources. AI has revolutionized voice and image recognition, synthetic imagery, speech generation, and even tasks like web browsing, ticket booking, and recipe tweaking. It is crucial to note that while AI is often referred to as “artificial intelligence,” its capabilities currently are not actual human-like intelligence.

  1. Neural Network: The human brain, consisting of interconnected neurons, serves as the inspiration for neural networks in AI. These networks, composed of dots and lines, represent data and statistical relationships. By quickly processing inputs through the network, neural networks generate outputs. This system is known as a model.
  2. Model: The model refers to the actual code that accepts inputs and produces outputs. AI models come in different sizes, depending on storage space and computational power requirements. The size of a model is determined by its training process.
  3. Training: To create an AI model, neural networks are exposed to a dataset or corpus, allowing them to develop a statistical representation of the data. Training AI models is a computationally intensive process that can take weeks or months on powerful computers. This phase involves analyzing and representing large datasets. Once the model is trained, it becomes less demanding during its usage, known as inference.
  4. Inference: Inference is the process of an AI model performing its designated task. By statistically connecting the dots in the ingested data, the model predicts and generates outputs. Inference is generally less computationally costly than training and can be performed on various devices, from supercomputers to smartphones.

Part 2: AI Insights : Key Terminology in Mid-2023

  1. Large Language Model (LLM): LLMs, considered the most influential and versatile form of AI today, are trained on vast amounts of text from the web and English literature. These models, like ChatGPT, have the ability to engage in natural language conversations and imitate various writing styles. However, it’s essential to note that LLMs are pattern recognition engines and may produce responses that reflect patterns rather than reality.
  2. Foundation Model: Foundation models are large-scale models trained from scratch on extensive datasets. While they require substantial computing power, they can be downsized by reducing the number of parameters. These models serve as the groundwork for specialized AI applications.
  3. Fine Tuning: Fine-tuning involves training a foundation model with a specialized dataset to enhance its performance in specific domains. It enables the model to develop domain-specific expertise without losing its general knowledge.
  4. Diffusion: Diffusion is a technique used for image generation in AI. It involves gradually degrading an image with digital noise and then reconstructing the original image by adding detail to the noise. While other image-generation techniques are emerging, diffusion remains reliable and well-understood.
  5. Hallucination: Hallucination occurs when an AI model produces output based on insufficient or conflicting training data. It can be beneficial for generating original art or creative writing. However, it can pose challenges. While hallucination can be useful for creative purposes, it can also present challenges. AI models that rely on hallucination may generate outputs that are unrealistic or inaccurate. For example, a text generation model might produce coherent sentences that sound plausible but are entirely made up. It is essential to be cautious when relying on AI-generated content and verify information from credible sources.
  6. Reinforcement Learning: Reinforcement learning is a branch of AI that involves training models to make decisions based on trial and error. In this approach, an AI agent interacts with an environment and receives feedback in the form of rewards or penalties. Through iterative exploration and optimization, the model learns to take actions that maximize its cumulative rewards. Reinforcement learning has been successfully applied in various domains, including robotics, gaming, and recommendation systems.
  7. Generative Adversarial Networks (GANs): GANs are a class of AI models that consist of two components: a generator and a discriminator. The generator generates synthetic data, such as images or text, while the discriminator evaluates the authenticity of the generated data. The two components are trained together in a competitive process, with the generator striving to produce data that the discriminator cannot distinguish from real data. GANs have shown remarkable success in generating realistic images, music, and even human-like conversations.
  8. Natural Language Processing (NLP): Natural Language Processing is a subfield of AI that focuses on the interaction between computers and human language. NLP enables computers to understand, interpret, and generate human language in a meaningful way. It involves tasks such as sentiment analysis, language translation, question-answering, and text summarization. NLP has been instrumental in developing AI-powered virtual assistants, language translation services, and chatbots.
  9. Deep Learning: Deep learning is a subset of machine learning that utilizes neural networks with multiple layers to process and extract meaningful patterns from large amounts of data. Deep learning models have achieved remarkable success in various domains, including computer vision, speech recognition, and natural language processing. The depth of the neural networks allows them to learn hierarchical representations, enabling complex and sophisticated learning.
  10. Transfer Learning: Transfer learning is a technique that enables AI models to leverage knowledge learned from one task or domain and apply it to another. Instead of training a model from scratch, transfer learning allows models to start with pre-trained weights and fine-tune them on specific tasks or domains. This approach significantly reduces the training time and resource requirements for developing AI models. Transfer learning has been widely adopted in various applications, including image recognition, language understanding, and sentiment analysis.

    Part 3: Recent Developments in AI

    1. Ethical Considerations: As AI continues to advance, ethical considerations surrounding its development and usage have gained significant attention. Questions regarding data privacy, bias in AI algorithms, and the impact of AI on employment and society have become central in the AI discourse. Efforts are being made to develop frameworks and guidelines for responsible AI development and deployment to ensure fairness, transparency, and accountability.
    2. AI in Healthcare: AI has made significant strides in the field of healthcare, aiding in disease diagnosis, drug discovery, and personalized medicine. AI models have demonstrated impressive accuracy in detecting diseases such as cancer from medical images, enabling early detection and intervention. Additionally, AI-powered chatbots and virtual assistants are being utilized to provide personalized healthcare information and support to patients.
    3. AI and Climate Change: The intersection of AI and climate change has emerged as a promising area of research. AI models are being employed to optimize energy consumption, improve renewable energy systems, and enhance climate modeling. These applications have the potential to contribute to sustainability efforts and mitigate the impact of climate change.
    4. Explainable AI: Explainable AI refers to the development of AI models that can provide transparent and understandable explanations for their decisions and outputs. As AI becomes more pervasive in critical domains such as healthcare and finance, there is a growing need for AI systems to justify their actions. Explainable AI aims to enhance the trust, accountability, and interpretability of AI models, enabling users to understand the underlying reasoning behind AI-generated recommendations or decisions.
    5. AI and Cybersecurity: With the increasing prevalence of cyber threats, AI is playing a vital role in bolstering cybersecurity measures. AI algorithms are employed to detect and mitigate cyberattacks, identify patterns indicative of malicious activities, and protect sensitive data. However, adversaries are also leveraging AI techniques to develop more sophisticated attacks, leading to a continuous cat-and-mouse game between AI-powered defenses and adversarial AI.
    6. AI and Creativity: AI’s impact on creativity is a topic of ongoing debate. While AI models have demonstrated impressive capabilities in generating art, music, and literature, questions about the nature of creativity and the role of human involvement remain. AI can be a valuable tool for augmenting human creativity, providing novel insights, and assisting in the creative process. However, the distinction between human-generated and AI-generated creative works raises questions about originality, authorship, and artistic expression.
    7. AI Governance and Regulation: As AI technologies continue to advance, the need for governance and regulation becomes increasingly important. Governments, organizations, and researchers are actively working to develop policies and frameworks that address the ethical, legal, and societal implications of AI. Balancing innovation and responsible development is a complex challenge, requiring collaboration and dialogue among various stakeholders.

Conclusion: AI Insights


AI has made remarkable progress in recent years, permeating numerous aspects of our lives. From voice assistants to recommendation systems, AI is transforming industries and revolutionizing the way we interact with technology. However, as AI becomes more powerful and pervasive, addressing ethical considerations and ensuring responsible development and deployment becomes paramount. Ongoing research and collaboration are necessary to unlock AI’s full potential while safeguarding against potential risks. By staying informed about the latest advancements and engaging in responsible AI practices, we can shape the future of AI in a manner that benefits society as a whole.

 

 

Exploring the Benefits of Circuits in Zoho CRM for Business Automation

Exploring the Benefits of Circuits in Zoho CRM for Business Automation

Introduction:

Customers often face challenges when extending their CRM functionality. In this blog post, we will explore how Circuits in Zoho CRM offer a solution to streamline business processes and enhance salesforce automation.

Why Circuits in Zoho CRM?

Circuits in Zoho CRM provide a powerful way to extend CRM functionality while maintaining meaningful integration. With an easy-to-use drag-and-drop interface, Circuits allow business users to create step-functions effortlessly. Let’s delve into the benefits of using Circuits for business automation.

  1. Low-code Development: Circuits offer a visual drag-and-drop interface, making it accessible even to users with minimal coding knowledge. Experience the ease of creating circuits without extensive coding requirements.

  2. Developer-friendly: With Circuits, developers can focus on business logic rather than worrying about managing parallel processes, service integrations, failures, or logs. Circuits simplify the development process and allow developers to build powerful workflows quickly.

  3. Orchestrate CRM Functions: Integrate various CRM functions seamlessly within Circuits, enabling you to connect multiple third-party apps with Zoho CRM. By writing functions once and orchestrating them in Circuits, you can address diverse business needs efficiently.

  4. Automate IT and Business Processes within CRM: Create circuits and associate them with workflows, blueprints, or buttons to automate your entire business process. With high availability, scalability, and fault tolerance, Circuits ensure consistent workflow performance.

Sample Business Scenario:

Payment Processes-Let’s explore a sample business scenario to understand how Circuits can be applied effectively. Consider a scenario where, upon winning a deal, you need to send a payment link and generate an invoice upon successful payment or resend the link if the payment fails. Here’s how Circuits can streamline this process:

  1. Parse Deal Details and Send Payment Link: Create a function within the circuit that fetches the deal record details, extracts the email ID, retrieves the appropriate payment URL, and sends it to the deal.

  2. Check Payment Status and Update CRM: Add a function that checks the payment status, updates the relevant CRM fields, and generates an invoice upon successful payment. If the payment fails, the function resends the payment link to the deal.

Why Circuits are Necessary in this Scenario: Circuits offer the ability to orchestrate functions in a specific order, streamlining the flow of logic and ensuring error handling. Additionally, Circuits provide a single editable space, allowing for a comprehensive overview of the circuit configuration, easy issue identification, and modification.

Conclusion:

Circuits in Zoho CRM offer a powerful solution for business automation. Take advantage of low-code development, seamless integration, and the orchestration of CRM functions to streamline your business processes. Explore the possibilities that Circuits offer and unlock the full potential of Zoho CRM.

Other examples of actions that can be performed with Circuits:

  • Generate reports automatically, track inventory, fulfill orders, and generate receipts.
  • Update deal details in a sheet, calculate commissions based on revenue and update the information back in CRM.
  • Manage users, send custom push notifications based on specific conditions, and handle user-generated files in applications automatically.
Once you enable Circuits for your Zoho CRM account, you can access it under: Setup > Developer Space > Circuits
Contact Us for assistance with Circuits