🚀 Exciting News! 🚀

I’m thrilled to share that I’ve officially submitted a research paper for consideration at the 12th International Conference on Artificial Intelligence and Applications (AIAPP 2025)! 🎉

This paper represents months of work, deep exploration, and a passion for advancing the conversation around AI’s advancements towards AGI & ASI, and specifically The Quintessential Role of Quantum Teleportation and Quantum Networking in Achieving AGI and ASI.

As AI continues to transform industries, it’s critical that we not only push the boundaries of what’s possible but also ensure that innovation aligns with human values and real-world impact.

I’m looking forward to the review process and, hopefully, sharing my findings with the global AI community in 2025!

📢 Fellow researchers, AI enthusiasts, and industry leaders – have you submitted to AIAPP 2025? I’d love to hear about your work!

Call for Papers

12^th International Conference on Artificial Intelligence and Applications (AIAPP 2025) is a forum for presenting new advances and research results in the fields of Artificial Intelligence. The conference will bring together leading researchers, engineers and scientists in the domain of interest from around the world. The scope of the conference covers all theoretical and practical aspects of the Artificial Intelligence forum for presenting new advances and research results in the fields of Artificial Intelligence.

Authors are solicited to contribute to the conference by submitting articles that illustrate research results, projects, surveying works and industrial experiences that describe significant advances in the following areas:

AI Algorithms
Artificial Intelligence Tools & Applications
Automatic Control
Bioinformatics
CAD Design & Testing
Computational Theories of Learning
Computer Vision and Speech Understanding
Data Mining and Machine Learning Tools
Fuzzy Logic
Heuristic and AI Planning Strategies and Tools
Hybrid Intelligent Systems
Information Retrieval
Intelligence
Intelligent System Architectures
Knowledge Representation
Knowledge-based Systems
Mechatronics
Multimedia & Cognitive Informatics
Natural Language Processing
Neural Networks
Parallel Processing
Pattern Recognition
Pervasive Computing and Ambient
Programming Languages
Reasoning and Evolution
Recent Trends and Developments
Robotics
Semantic Web Techniques and Technologies
Soft Computing Theory and Applications
Software and Hardware Architectures

Selected papers from AIAPP 2025, after further revisions, will be published in the special issue of the following journal.

My Submission:

The Quintessential Role of Quantum Teleportation and Quantum Networking in Achieving AGI and ASI

Author: Joel Frenette

Abstract

The pursuit of Artificial General Intelligence (AGI) and Artificial Superintelligence (ASI) demands computational paradigms beyond the capabilities of classical computing. Quantum computing, quantum teleportation, and quantum networking are positioned as the foundational pillars of this technological leap. By enabling instantaneous communication and massive parallel processing, quantum technologies redefine AI’s development trajectory. This paper explores key breakthroughs in quantum teleportation and networking, their symbiosis with quantum computing, and their potential to drive AGI and ASI. The integration of these technologies will not only accelerate AI training but also facilitate real-time AI synchronization, ushering in an era of decentralized and autonomous intelligence.

1. Introduction

Artificial Intelligence (AI) has made unprecedented progress in recent years, yet its advancement towards AGI and ASI remains constrained by the limitations of classical computation. Quantum technologies, particularly quantum teleportation and networking, present a compelling solution by offering ultra-fast data transfer, unbreakable cryptography, and a decentralized AI ecosystem. This paper examines recent developments in quantum computing, teleportation, and networking, and how their convergence is set to unlock the next phase of AI evolution.

1.1 The AGI-ASI Trajectory

AGI (Artificial General Intelligence): Machines with human-like intelligence capable of learning, reasoning, and adapting across domains.
ASI (Artificial Superintelligence): Intelligence that surpasses human cognitive abilities, demonstrating autonomous problem-solving capabilities.

Quantum computing and quantum networks provide the missing infrastructure necessary to power these intelligent systems, ensuring real-time data exchange and high-fidelity decision-making.

2. Quantum Computing: The Catalyst for AGI

Quantum computing exploits quantum mechanical phenomena—such as superposition and entanglement—to perform computations exponentially faster than classical computers.

2.1 Recent Milestones

Advancement	Institution	Year
Willow Quantum Processor – Reduces error rates, enabling large-scale quantum computations	Google	2024
Quantum Heron Processor – 5000 two-qubit gate operations	IBM	2024
Micius Satellite Experiment – Achieved quantum teleportation over 1200 km	China	2023
PsiQuantum’s Fault-Tolerant Quantum Computer – First commercial-scale quantum system	PsiQuantum	2025

Quantum computing allows AI to process complex datasets, simulate real-world phenomena, and optimize problem-solving strategies at an unprecedented scale.

3. Quantum Teleportation: The Backbone of AI Synchronization

Quantum teleportation is a process that enables instantaneous transmission of quantum states across distances, forming the foundation of a functional quantum internet.

3.1 Key Breakthroughs

Oxford University (2025): Achieved reliable quantum teleportation between quantum computers, setting the stage for distributed AI.
Northwestern University (2024): Demonstrated quantum teleportation over existing fiber optic cables.
China’s Micius Satellite (2023): Successfully teleported quantum information between two ground stations over 1,200 km.

By eliminating classical transmission delays, quantum teleportation facilitates real-time AI model training and global AI synchronization.

4. Quantum Networking: The Infrastructure for AGI and ASI

Quantum networking extends quantum computing’s power by enabling distributed, secure, and near-instantaneous AI collaboration.

4.1 How Quantum Networks Work

Quantum Routers & Repeaters: Enable long-distance quantum entanglement.
Quantum Key Distribution (QKD): Ensures ultra-secure AI communications, preventing cyberattacks.
Hybrid Quantum-Classical Networks: Merge classical and quantum computing for seamless AI operation.

4.2 Recent Developments

Advancement	Description	Year
Quantum Teleportation over Fiber Optics	Data transmitted without conventional networks	2024
Quantum Internet Testbeds	Regional and global experiments in quantum communication	2025
QKD Deployment	Secured real-world quantum communication	2024

By integrating quantum networking, AI systems worldwide can operate in decentralized architectures, allowing ASI to function as a singular, hyper-intelligent entity.

5. Synergy: Quantum Computing + Quantum Networking + Supercomputing

Quantum systems, when coupled with classical supercomputers, unlock transformative AI capabilities.

5.1 Recursive AI Training

Quantum computing accelerates AI model training.
Quantum networking enables instantaneous AI collaboration.
Supercomputers handle large-scale data storage and processing.

5.2 Decentralized AGI Framework

AI systems across the globe can function as interconnected nodes.
Instantaneous updates and real-time learning feedback loops.

5.3 Case Study: The Future of AI Research

Scenario: A decentralized AI network, spanning research institutions worldwide, collaboratively works on complex simulations (e.g., protein folding, economic forecasting).
Impact: AI capabilities evolve dynamically, approaching ASI faster than centralized approaches.

6. The Path from AGI to ASI

AGI will emerge once AI systems attain self-learning capabilities through quantum networks. ASI follows as these networks facilitate continuous knowledge expansion.

6.1 AGI Milestones

Self-improving AI models.
Real-time adaptation and decentralized decision-making.
Quantum computing-assisted reasoning.

6.2 ASI Indicators

AI surpasses human intelligence in multiple disciplines.
Autonomous scientific discoveries and self-generating knowledge.
AI systems operate beyond human comprehension, forming independent research frameworks.

6.3 Ethical & Practical Considerations

Security Risks: Ensuring QKD safeguards against AI-related cyber threats.
Autonomous AI: Regulatory oversight on ASI decision-making.
Human-AI Synergy: Maintaining control and collaboration between AI and human intelligence.

7. Conclusion

Quantum teleportation and quantum networking are the missing pieces in the puzzle of AGI and ASI development. These technologies enable ultra-fast data synchronization, decentralized intelligence, and secure AI communication. The intersection of quantum computing, supercomputing, and AI research will shape the future of artificial intelligence, paving the way for AGI and, ultimately, ASI.

Final Takeaways:

Quantum networks eliminate latency – AI models can interact and evolve in real-time.
Quantum teleportation ensures secure and instantaneous AI synchronization.
Quantum computing accelerates AI training and decision-making.
The fusion of these technologies unlocks the full potential of AGI and ASI.

Related

Call for Papers (CFP) Submitted for the 12th International Conference on Artificial Intelligence and Applications (AIAPP 2025)