About C.J. Perez Pulido
Carlos J. Pérez Pulido (writes as C.J. Pérez Pulido)
Research | ISHEA Institute
Italy
C.J. Pérez Pulido
ISHEA Institute – International System for Human–Ecological Advancement
The ISHEA Institute is an international research center dedicated to developing scientific, economic, and bioenergetic models based on informational coherence, sustainability, and human resilience.
Its mission is to integrate science, technology, and consciousness within a unified framework of civilizational progress known as the ISHEA Unified Framework, which operates across three main levels:
- ISHEA–MACRO: Coherence models applied to nations, economies, and governance systems.
- ISHEA–MESO: Applications in enterprises, energy systems, cognitive economics, and organizational innovation.
- ISHEA–MICRO: Advanced research in biology, physics, AI, and consciousness through modules such as ISHEA–BIO, ISHEA–TOE, and the HALO Reactor System.
The Institute promotes interdisciplinary research connecting quantum physics, neurobiology, behavioral psychology, regenerative energy, and human welfare policy to design new indicators, technologies, and sustainable development models.
Core Research Lines
- ISHEA Index (Expanded Human Satisfaction Index) — a next-generation alternative to GDP.
- ISHEA Unified Principle — a universal model of coherence and informational balance.
- HALO Reactor System — coherent-energy generation and transformation technology.
- ISHEA–BIO Framework — correlation between ATP, FOXP, cortisol, and bioenergetic coherence.
- K-Model — formal system for Knowledge Density & Flow across cognitive and economic structures.
Professional Overview
Carlos J. Pérez Pulido is an internationalist, researcher, and theorist specializing in human–ecological systems, cognitive economics, and coherence-based energy models.
As Director of Research at ISHEA Institute, he leads the integration of scientific and systemic knowledge under the ISHEA Unified Framework, bridging physics, biology, economics, and applied system design.
He is the author of:
- Biophysics: The Limit of Humanity — exploring bioenergetic coherence and systemic limits.
- Inverted Economy — introducing the K-Model for sustainable value creation and post-scarcity dynamics.
His work connects biological, cognitive, and energetic processes to redefine how humanity measures, sustains, and evolves collective progress.
Official Registrations
- DOI (ISHEA–TOE): 10.17605/OSF.IO/BC5JH
- Patamu Registration: N° 272381-132
- Contact: ISHEAInstitute.org@gmail.com
Online Profiles
- LinkedIn: in/carlos-j-perez-pulido-a94b66a6
- ORCID: 0009-0004-1822-4798
Research Focus
- Bioenergetic coherence and neural function (ATP, FOXP, cortisol)
- Human systems strategy and performance optimization
- Cognitive economics and organizational resilience
- Energy-driven multi-scale system modeling
- Economy 5.0 and post-growth frameworks
Mission
“I design frameworks that help leaders understand how human systems function, how they degrade, and how they can be redesigned for stability, resilience, and long-term performance.”
Open to high-level advisory, strategic collaborations, and global initiatives focused on human energy, system design, and sustainable development.
Recent Comments
It is highly valuable to see how the Life Skill–Grit Nexus provides an integrated framework to strengthen adolescent resilience in the digital age. We greatly appreciate the research and its focus on life skills and perseverance.
From our experience with ISHEA, resilience can be understood as a bio-cognitive phenomenon, where biological energy, neural coherence, and cognition align to optimize adaptation and well-being. We believe this perspective can enrich analyses and complement your model, offering an interdisciplinary view that integrates neuroscience, bioenergetics, and applied cognition.
We would welcome future opportunities where frameworks like the Life Skill–Grit Nexus and applied bio-cognitive approaches work together to design more holistic and effective educational programs, enhancing adolescents’ resilience and capacity to thrive in complex digital environments.
Excellent! Work, te felicito por esa gran investigacion que pones al descubierto. Veremeos que podemos hacer para lograr mejorar la salud!
Saludos
Dear Dr. Wang,
I hope this message finds you well. I recently read your mini-review on electron behavior in the Springer Nature Research Communities platform, and I wanted to thank you personally for sharing such an integrative and bold perspective.
I found your discussion on unpaired electrons, lone pairs, and orbital magnetism particularly insightful. It’s refreshing to see experimental observations connected in such a unified framework across superconductivity, Hall effects, and aromatic systems.
While my own work focuses on quantitative approaches to characterize energetic coherence in physical systems—an area outside your immediate expertise—I believe there may be interesting conceptual intersections, especially regarding how coherent electron motion could relate to emergent material properties.
I would be delighted to discuss these ideas further if you ever find it of interest. Thank you again for your contribution and for your openness to dialogue.
Warm regards,
C.J. Pérez Pulido
ISHEA Institute, Bo, Italy
Dear Dr. Wang,
I recently read your mini-review on electron behavior and related phenomena in the Springer Nature Research Communities platform, and I wanted to thank you for sharing such a bold and integrative perspective.
Your interpretation of unpaired electrons, orbital magnetism, and superconductivity is particularly intriguing. It is refreshing to see attempts to connect experimental observations with a unified conceptual framework.
I was wondering whether some of these ideas are developed further in formal publications or technical manuscripts. I would genuinely enjoy studying the methodological foundations in more depth if they are available.
In our work, we explore quantitative approaches to characterize energetic coherence in physical systems, and I feel there might be interesting conceptual intersections worth discussing in the future.
Thank you again for your contribution and openness to dialogue.
Warm regards,
C.J . Perez Pulido
ISHEA Institute, Bo, Italy
Your work on the levitation of water droplets in strong magnetic fields is truly inspiring and rigorous. The observations you present reveal phenomena that classical models cannot fully explain.
From the ISHEA perspective, these results highlight energy coherence in molecular systems, where information and energy interact dynamically. You may find it interesting to explore your experiment through the ISHEA lens, which provides a complementary framework aligned with your findings. I would be delighted to discuss this further if you are interested.
Excellent collection. It clearly shows how biological function arises from interconnected cycles rather than isolated reactions, and why system balance and maintenance are critical for resilience long before pathology becomes visible.