Skip to main content

Neuroengineering Neuromathematics Notation: The Novel Trioinformatics System that Defines, Explains, and Expresses the Research Application of the Law of Trichotomy for Digital Instrumentation and Circuit Design


Volume 3 Issue 3 June - August 2015
Research Paper
Neuroengineering Neuromathematics Notation: The Novel Trioinformatics System that Defines, Explains, and Expresses the Research Application of the Law of Trichotomy for Digital Instrumentation and Circuit Design
James Edward Osler II*
Faculty member, Department of Curriculum and Instruction, North Carolina Central University (NCCU) School of Education, USA.
Osler II , J. E. (2015). Neuroengineering Neuromathematics Notation: The Novel Trioinformatics System that Defines, Explains, and Expresses the Research Application of the Law of Trichotomy for Digital Instrumentation and Circuit Design. i-manager’s Journal on Circuits and Systems, 3(3), 1-16. https://doi.org/10.26634/jcir.3.3.4779
Abstract
This paper provides the second part of an epistemological rational for the novel discipline of “Trioinformatics”. This novel extension of notation in mathematical form is the continuation of the Trioinformatics article that appeared in the imanager Journal on Circuits and Systems.“Neuroengineering Neuromathematics Notation” is the collaborative and comprehensive expression of Trioinformatics as a sequential sequence of inquiry into a precise research analysis methodology. Neuroengineering is an innovative way of explaining the transition from trichotomous logic (Osler, 2015) into trichotomous Triple–I (Osler, 2013d) research questions and associated instrumentation [first introduced in the imanager Journal on Mathematics as a part of the Tri–Squared Test (Osler, 2012a)]. Trioinformatics is an in–depth way of symbolically illustrating the law of trichotomy and a mathematically–grounded rational technique for explaining the ternary nature of electronic circuitry (Osler, 2015). The use of the Trioinformatics also adds value to investigative inquiry through the efficacy of digital instruments and tools via eduscientifically–engineered (Osler, 2013) research designs (Osler, 2015). Additional research into trioinformatics via the use of neuroengineered neuromathematical notation will further advance in–depth investigations into the tripartite aspects of nature and natural phenomena.

Comments

Post a Comment

Popular posts from this blog

Continuous Overvoltage Characteristics of Surge Protected Power Strips

Volume 5 Issue 4 September - November 2017 Research Paper Continuous Overvoltage Characteristics of Surge Protected Power Strips Cengiz Polat* Assistant Professor, Department of Electrical and Electronics Engineering, Istanbul University, Istanbul, Turkey. Uzunoglu, C. P. (2017). Continuous Over Voltage Characteristics of Surge Protected Power Strips.  i-manager’s Journal on Circuits and Systems,  5(4), 1-7.  https://doi.org/10.26634/jcir.5.4.13938 Abstract Increasing applications of constantly developing electronic devices require delicate voltage and current protection. Although the electrical network is monitored continuously, undesired over currents and over voltages may occur on the distribution system due to failures. Most of the electronic switch gear is connected via surge protected power strips in indoor applications, where current protection is vital. Surge protected power strips are usually manufactured based on Metal Oxide Varistors (MOVs) ...
Post a Comment
Read more

Reduced Wirelength-Based Low Power Performance of Multibit Flip-Flop

Volume 1 Issue 4 September - November 2013 Research Paper Reduced Wirelength-Based Low Power Performance of Multibit Flip-Flop M.Karthick*, S. Vijayakumar** *PG Scholar, Department of Electronics and Communication Engineering, Paavai Engineering College, Namakkal, India. **Associate Professor, Department of Electronics and Communication Engineering, Paavai Engineering College, Namakkal, India. Karthick, M. and Vijayakumar, S. (2013). Reduced Wire length-Based Low Power Performance Of Multibit Flip-Flop.  i-manager’s Journal on Circuits and Systems , 1(4), 22-26.  https://doi.org/10.26634/jcir.1.4.2593 Abstract Power reduction is a main parameter to design VLSI circuits. In this paper, to design a number of D-flip flop performing at the same time, the given clock signal is reduced using multi bit flip-flop. The multi bit flip flop is mainly used to improve the clock power for the given common clock signal and to reduce the switching power. This method is p...
Post a Comment
Read more

A Review on Control strategies for LFC in Deregulated Scenario

Volume 1 Issue 1 December - February 2013 Review Paper A Review on Control strategies for LFC in Deregulated Scenario T. Anilkumar*, N. Venkata ramana** * Associate Professor, EEE Department, ACE Engineering College, Ghatkesar, Hyderabad, AP, India. ** Professor and Head of Deportment, EEE Department, JNTU Mantini, AP, India. Kumar, T. A., and Ramana, N., (2013). A Review On Control Strategies For LFC In Deregulated Scenario.  i-manager’s Journal on Circuits and Systems , 1(1), 27-36.  https://doi.org/10.26634/jcir.1.1.2197 Abstract In power system studies, Load frequency control is an important issue to supply sufficient and reliable electric power with good quality. The main objective of LFC is to maintain load frequency and tie-line power flow within permissible limits by adjusting megawatt output of LFC generators, so as to accommodate fluctuating load demands. This paper presents a brief review of different control techniques to researchers on design...
Post a Comment
Read more