Journal of
Systemics, Cybernetics and Informatics
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ISSN: 1690-4524 (Online)

Peer Reviewed Journal via three different mandatory reviewing processes, since 2006, and, from September 2020, a fourth mandatory peer-editing has been added.

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Published by
The International Institute of Informatics and Cybernetics

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(A Community of about 40.000.000 Academics)

Honorary Editorial Advisory Board's Chair
William Lesso (1931-2015)

Editor-in-Chief
Nagib C. Callaos

Sponsored by
The International Institute of
Informatics and Systemics
www.iiis.org
 

Editorial Advisory Board

Quality Assurance

Editors
Journal's Reviewers
Call for Special Articles
 

Description and Aims

Submission of Articles
Areas and Subareas

Information to Contributors

Editorial Peer Review Methodology

Integrating Reviewing Processes


Current Issue:
(Volume 23 - Number 7 - Year 2025)


Analogical and Logical Thinking – In the Context of Inter- or Trans-Disciplinary Communication and Real-Life Problems
Nagib Callaos, Jeremy Horne
(pages: 1-17)

Artificial Intelligence for Drone Swarms
Mohammad Ilyas
(pages: 18-22)

Brains, Minds, and Science: Digging Deeper
Maurício Vieira Kritz
(pages: 23-28)

Can AI Truly Understand Us? (The Challenge of Imitating Human Identity)
Jeremy Horne
(pages: 29-38)

Comparison of Three Methods to Generate Synthetic Datasets for Social Science
Li-jing Arthur Chang
(pages: 39-44)

Digital and Transformational Maturity: Key Factors for Effective Leadership in the Industry 4.0 Era
Pawel Poszytek
(pages: 45-48)

Does AI Represent Authentic Intelligence, or an Artificial Identity?
Jeremy Horne
(pages: 49-68)

Embracing Transdisciplinary Communication: Redefining Digital Education Through Multimodality, Postdigital Humanism and Generative AI
Rusudan Makhachashvili, Ivan Semenist
(pages: 69-76)

Engaged Immersive Learning: An Environment-Driven Framework for Higher Education Integrating Multi-Stakeholder Collaboration, Generative AI, and Practice-Based Assessment
Atsushi Yoshikawa
(pages: 77-94)

Focus On STEM at the Expense of Humanities: A Wrong Turn in Educational Systems
Kleanthis Kyriakidis
(pages: 95-101)

From Disciplinary Silos to Cyber-Transdisciplinary Networks: A Plural Epistemic Model for AGI-Era Knowledge Production
Cristo Leon, James Lipuma
(pages: 102-115)

Generative AI (Artificial Intelligence): What Is It? & What Are Its Inter- And Transdisciplinary Applications?
Richard S. Segall
(pages: 116-125)

How Does the CREL Framework Facilitate Effective Interdisciplinary Collaboration and Experiential Learning Through Role-Playing?
James Lipuma, Cristo Leon
(pages: 126-145)

Narwhals, Unicorns, and Big Tech's Messiah Complex: A Transdisciplinary Allegory for the Age of AI
Jasmin Cowin
(pages: 146-151)

Playing by Feel: Gender, Emotion, and Social Norms in Overwatch Role Choice
Cristo Leon, Angela Arroyo, James Lipuma
(pages: 152-163)

Responsible Integration of AI in Public Legal Education: Regulatory Challenges and Opportunities in Albania
Adrian Leka, Brunilda Haxhiu
(pages: 164-170)

The Civic Mission of Universities: Transdisciplinary Communication in Practice
Genejane Adarlo
(pages: 171-175)

The Promise and Peril of Artificial Intelligence in Higher Education
James Lipuma, Cristo Leon
(pages: 176-182)

They Learned the Course! Why Then Do They Come to Tutorials?
Russell Jay Hendel
(pages: 183-187)

To Use or Not to Use Artificial Intelligence (AI) to Solve Terminology Issues?
Ekaterini Nikolarea
(pages: 188-195)

Transdisciplinary Supersymmetry: Generative AI in the Vector Space of Postdigital Humanism
Rusudan Makhachashvili, Ivan Semenist
(pages: 196-204)

Why Is Trans-Disciplinarity So Difficult?
Ekaterini Nikolarea
(pages: 205-207)
 

Abstracts
 


ABSTRACT


Benefits of Computer Assistive Software and Minimum Requirements

Russell Jay Hendel


Use of computer assisted software (CAS), typically combined with a problem-solving pedagogy, is common in 1) mathematics, 2) STEM, 3) writing, 4) certification exam preparation, and 5) business training. Since there are many competing CAS products, a user must know I) what benefits to expect from good CAS, and II) what the minimum requirements are. I) The benefits of good CAS are I-A) increased student mastery due to increased practice leading to self-efficacy, I-B) heightened awareness of objectivity, encouraging a perception that achievement is based on effort and work, thus increasing inclusion and diversity, and I-C) increased outreach to weaker students who benefit from graduated levels of problem difficulty afforded by the CAS . II) The requirements for a good CAS are II-A) a large database of problems, II-B) a classification of problems using the two-four dozen topics corresponding to the daily topics in a 15-week course syllabus, taught two to three days a week, and II-C) at least 3 levels of graduated difficulty (easy, moderate, advanced) of practice problems for each topic. Note especially that minimally the software is exclusively used for storage implying that these ideas can be implemented manually without using any computer. Simple implementation methods for creating such software are presented for both mathematics and writing courses (both education and business oriented). The assurance that the minimum requirements enumerated lead to the benefits listed is provided by the four educational pillars of Hendel.

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