Computational Approach for Human Bioenergy Field Imaging and Analysis for Human Wellness

GUNJAN CHHABRA; AJAY PRASAD; VENKATADRI MARRIBOYINA

doi:10.61841/e3dka672

Authors

GUNJAN CHHABRA School of Computer Science, University of Petroleum and Energy Studies, Dehradun, Uttrakhand, India Author
AJAY PRASAD School of Computer Science, University of Petroleum and Energy Studies, Dehradun, Uttrakhand, India Author
VENKATADRI MARRIBOYINA Department of CSE, Amity University Madhya Pradesh, Gwalior Author

DOI:

https://doi.org/10.61841/e3dka672

Keywords:

Complementary and Alternative Medicine (CAM, Human Biofield, Bioenergy, Electromagnetic field, Image processing.

Abstract

Complementary and Alternative Medicine (CAM) researchers' committee stated a term called Biofield in 1994. The previous study shows the substantial evidence of its existence and its impact on the health and thought process of an individual. Due to the lack of its scientific documentation and examination, usage and belief of biofield in various domains are not very popular. The biofield is an extremely weak electromagnetic bio-information field, which is very hard to measure and visualize. It is a field of energy around every seen and unseen, living and non-living, holds a higher order of dynamic information within itself. CAM practitioners challenge that this bioenergy has mind-like properties reflecting ones' physiological thought process, inner qualities, wellness, organ coordination, and others. Due to its invisibility (through naked eyes) and weak strength, scientific measurements, analysis and belief of its existence is questionable. This research article highlights a method for the visualization, analysis, and medical benefits of biofield measurement. Current research also highlights the applications of biofield study in the future, i.e., and its further study will open up new gateways for investigation and bring remarkable changes in society.

Downloads

Download data is not yet available.

References

[1] Fornaciari, C. J., & Lund Dean, K. (2001). Making the quantum leap: Lessons from physics on studying spirituality and religion in organizations. Journal of Organizational Change Management, 14(4), 335-351.

[2] Power, E. A. (1965). Introductory quantum electrodynamics. American Elsevier Publishing Company.

[3] Bhat,S. V. (2002) “Faraday: Father of electromagnetism”, March 2002, Resonance 7(3)

[4] Heisenberg, W., & Bond, B. (1959). Physics and philosophy: the revolution in modern science. St. Leonards, Australia: Allen & Unwin.

[5] Rubik, B. (2009). Measurement of the human biofield and other energetic instruments. Mosby’s complementary & alternative medicine: A research-based approach, 61-87.

[6] Chhabra, G.; Narayanan, A.; and Samantha, S. (2013). Human Aura: A New Vedic Approach in IT. International conference on Mechanical and Industrial Engineering.

[7] Hans-peter, D., Albert, P. F., & Wolfram, S. (Eds.). (2002). What Is Life? Scientific Approaches And Philosophical Positions (Vol. 4). World Scientific.

[8] Korotkov, K. (2011). Energy fields electrophotonic analysis in humans and nature. eBookIt. com.

[9] Korotkov, K. G., Matravers, P., Orlov, D. V., & Williams, B. O. (2010). Application of electro photon capture (EPC) analysis based on gas discharge visualization (GDV) technique in medicine: a systematic review. The Journal of Alternative and Complementary Medicine, 16(1), 13-25.

[10] KirlianResearch.com. (1999). Diagnostic potential of GDV technique. Retrieved March 5, 2108, from http://kirlianresearch.com/kirlian_diagnostic.html.

[11] Oldfield Systems. (2008). Polycontrast interference photography (PIP), Retrieved March 10, 2018, from http://www.electrocrystal.com/pip.html.

[12] Color Psychology. (2017). Human aura colors and meanings. Retrieved April 5, 2018, from https://www.colorpsychology.org/aura-colors/.

[13] Korotkov, K. (2013). Measuring human energy field revolutionary instrument to reveal energy fields of human and nature. National University of Informational Technologies, Mechanics and Optics, St. Petersburg, Rusia, 15 pages.

[14] Redikalli Aura Reader. (2011). Become an aura and chakra consultant. Retrieved February 25, 2108, from http://www.aura-reader.com/.

[15] Labuschagne, D.B. (2013). Biofields: Their detection, measurement and behaviour. Victoria University, Melbourne, Australia, 16 pages.

[16] Vijaykumar, V.R.; Vanathi, P.T.; and Kanagasabapathy, P. (2010). Fast and efficient algorithm to remove Gaussian noise in digital images. IAENG International Journal of Computer Science, 37(1), 7 pages.

[17] Gonzalez, R.C.; and Woods, R.E. (2004). Digital image processing (2nd ed.). Upper Saddle River, New Jersey: Prentice-Hall.

[18] Chhabra, G., Prasad, A., & Marriboyina, V. (2019). Comparison and performance evaluation of human bio-field visualization algorithm. Archives of physiology and biochemistry, 1-12.

[19] Chhabra, G., Prasad, A., & Marriboyina, V. (2019). IMPLEMENTATION OF AURA COLOURSPACE VISUALIZER TO DETECT HUMAN BIOFIELD USING IMAGE PROCESSING TECHNIQUE. Journal of

Engineering Science and Technology, 14(2), 892-908.

[20] Lee, H. C., Khong, P. W., & Ghista, D. N. (2006, January). Bioenergy based medical diagnostic application based on gas discharge visualization. In 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference (pp. 1533-1536). IEEE.

[21] Philpott, N. (1995). Resonant field imaging aura and brain imaging system. Retrieved March 12, 2018, from http://www.item-bioenergy.com/rfi/.

[22] Polycontrast Interference Photography (PIP) [Online] Available: http://www.electrocrystal.com /pip.html.

[23] Linda Ward, Rudolf Schinnerl, Karin Kraft. Biopulsar® Technology Use in a Chinese Medicine Practice.

Electrobiology Energy Therapy

[24] Chhabra, G.; Prasad, A.; and Marriboyina, V. (2018). Novice methodology for detecting the presence of Bio- Field. International journal of pure and applied mathematics, Vol 118, 149-154.

[25] Alexandrova, R., Fedoseev, G., Korotkov, K. G., Philippova, N., Zayzev, S., Magidov, M., & Petrovsky, I. (2003). Analysis of the bioelectrograms of bronchial asthma patients. In Proceedings of conference “Measuring the human energy field: State of the science”. National Institute of Health. Baltimore, MD (pp. 70-81).

[26] Davydov, V. V., & Ermak, S. V. (2001). A quantum spectrum analyzer based on radiooptical resonance. Instruments and Experimental Techniques, 44(2), 215-218.

[27] Chakras and Glands, Retrieved from: http://www.chakras.info/chakras-glands/

[28] Panchadasi, S. (2005). The Human Aura. Book Tree.

[29] Prescott, G. (2017). Retrieved Feb 26, 2018, from https://in5d.com/how-to-read-auras-what-is-the-meaning-of- each-color/

[30] Rubik, B. (2002). The biofield hypothesis: Its biophysical basis and role in medicine. The Journal of Alternative & Complementary Medicine, 8(6), 703-717.

[31] Prakash, S., Chowdhury, A. R., & Gupta, A. (2015). Monitoring the human health by measuring the biofield" aura": An overview. Int J Appl Eng Res, 10(2765427658).

[32] Rubik, B., & Jabs, H. (2017). Effects of Intention; Energy Healing and Mind-Body States on Biophoton Emission. Cosmos and History: The Journal of Natural and Social Philosophy, 13(2), 227-247.

[33] Chhabra, G., Prasad, A., & Marriboyina, V. (2019). Future Trends of Artificial Intelligence in Human Biofield. International Journal of Innovative Technology and Exploring Engineering, Vol. 8, Issue 10, 3809-3814.

[34] Jerman, I. , Krasovec, R. , Leskovar, R.T. Deep significance of the field concept in contemporary biomedical sciences. Electromagn Biol Med. 2009; 28(1): 61–70.

[35] Prasad, R. S. A Look into the future of Biofield Applications.

[36] Gimbut, V. S., Chernositov, A. V., & Kostrikina, E. V. (2004). GDV parameters of woman in phase dynamics of menstrual cycle. In Proceedings of VIII International Scientific Congress on Bioelectrography. St Petersburg, Russia (pp. 80-82).

[37] Alexandrova, R. A., Trofimov, V. I., Bobrova, E. E., & Parusova, V. K. (2003). Comparison of dermal allergology test results and changes of GDV bioelectrograms in case of contact with phytocosmetic substance in test tube. In Proceedings of VII International Scientific Congress on Bioelectrography. St Petersburg (pp. 1-4).

[38] Gedevanishvili, E. G., Giorgobiani, L. G., & Kapanidze, A. (2004). Estimation of radiotherapy effectiveness with gas discharge visualization (GDV). In Proceedings of VIII International Scientific Congress on Bioelectrography. St Petersburg (pp. 98-99).

[39] Alexandrova, R. A., Nemtsov, V. I., Koshechkin, D. V., & Ermolev, S. U. (2003). Analysis of holeodoron treatment effect on cholestasis syndrome patients. In Proceedings of VII International Scientific Congress on Bioelectrography. St Petersburg (pp. 4-6).

[40] Gagua, P. O., Gedevanishvili, E. G., & Kapanidze, A. (2004). Experimental study of the GDV Technique application in oncology. Measuring Energy Fields: State of the Science. Fair Lawn: Backbone Publishing Co, 43-51.

[41] Krashenuk, A. I., Danilov, A. D., & Korotkov, K. G. (2006). Investigation of system optimization of vegetative nervous system work under hirudotherapy impact as a result of comparative analysis of GDV signal and cardiorythm nonlinear analysis. In Proceedings of X International Scientific Congress on Bioelectrography. St Petersburg (pp. 31- 35).

[42] Gagua, P. O., Gedevanishvili, E. G., & Kapanidze, A. (2004). Experimental study of the GDV Technique application in oncology. Measuring Energy Fields: State of the Science. Fair Lawn: Backbone Publishing Co, 43-51.

Computational Approach for Human Bioenergy Field Imaging and Analysis for Human Wellness

Authors

DOI:

Keywords:

Abstract

Downloads

References

Downloads

Published

Issue

Section

License

You are free to:

Under the following terms:

Notices:

How to Cite

thirdparty

Make a submission

crossreff

crossref

Linkedin