Prof.Dr Hamed Daei Kasmaei
HAMED ELECTRONIC JAHAN CO. IS IN THE VENDOR LIST OF NATIONAL IRANIAN OIL AND GAS COMPANIES IN IRAN.WE CAN PRODUCE NEW INNOVATIVE IDEAS FOR PRODUCING MANY ELECTRICAL , ELECTRONIC AND POWER SYSTEMS ALL OVER THE WORLD.ALSO WE WELCOME TO ALL INVESTORS THROUGHOUT THE WORLD IN ORDER TO COLLABORATE WITH US AND SPECIALLY ABOUT HIGH-TECH SYSTEMS.WE CAN BUILD NEW THINGS FOR YOU BY MUTUAL BENEFIT AND COOPERATION. With best regardsDr Hamed Daei KasmaeiPhD in Applied mathematics-Numerical analysis and computationalmathematics field -IAUCTB Lecturer at Faculty of Science andEngineering at IAUCTB and active researcher in theoretical and mathematical physics.https://www.researchgate.net/profile/Hamed_Daei_Kasmaeihttps://www.linkedin.com/in/hamed-daei-kasmaei-9663ba38/Google Scholar: https://scholar.google.com/citations?user=BUIPjNkAAAAJ
Phone: +989123937613
Address: Independent Researcher and Member of Bijective Physics Institute, Idrija, Slovenia
https://www.growkudos.com/profile/dr_hamed__daei_kasmaei
Phone: +989123937613
Address: Independent Researcher and Member of Bijective Physics Institute, Idrija, Slovenia
https://www.growkudos.com/profile/dr_hamed__daei_kasmaei
less
InterestsView All (113)
Uploads
underlines the importance of having reliable methods to solve them. In this work, we present a
comparison of homotopy perturbation method (HPM), nonlinearities distribution homotopy perturbation
method (NDHPM), Picard, and Picard–Pade´ methods to solve Michaelis–Menten equation.
The results show that NDHPM possesses the smallest average absolute relative error 1.51(-2)
of all tested methods, in the range of r \in [0,5]. Also, we introduce the combination of Picard’s iterative
method and Pade´ approximants as an alternative to reduce complexity of Picard’s solutions
and increase accuracy.
of its improvement has been rising very extensively. The neutron and positron were discovered in
1932 which before that only electron, proton and photon were known. Today, the Standard Model
of elementary particles is the leading dominant theory. The fundamental particle is a particle whose
substructure is still unknown, thus it is unknown whether it is composed of the other particles1 or
not. Although the Standard Model describes the phenomena within its domain accurately, it is still
incomplete. Perhaps it is only a part of a bigger picture of the modern physics which includes the
deeper and hidden layer of subatomic world that has been dipped into the darkness of the universe2.
The question is, where is the hidden part of modern physics? Hidden part of modern physics
lies beyond the uncertainty principle. Included in the sub quantum scale, where quantum
interactions between photons and gravitons done. Hidden and dark side of modern physics is also
a place where charged particles absorb and emit energy quanta, without any description of the
mechanism of absorption and emission by charged particles. In modern physics, a charged particle
creates an electric field itself, but the mechanism of this process is ambiguous and does not explain
how a charged particle creates an electric field?
And above all, what is the scientific and precise definition of a fundamental particle? If we want
to reach the different results, we need to change our thoughts and scientific beliefs. In this paper,
by a new viewpoint to the basic laws of physics, three fundamental questions in physics has been
discussed and analyzed in hidden parts of the standard model and physical theories.
https://www.vlist.ir/en/search/view/companyId:506
B.Sc. degree from Islamic Azad University,
Central Tehran branch, Tehran-Iran in the year
2004 and followed by his M.Sc. and Ph.D.
degrees from Islamic Azad University, Central
Tehran branch, Tehran-Iran in the years of 2008
and 2015, respectively. He then taught for 6 years
at Islamic Azad University, Central Tehran
branch, Tehran-Iran, Department of Mathematics
and computer Science, Faculty of Science and
Engineering. In 2016. He was promoted best reviewer of year by getting
been reviewer of Elsevier, Springer and Oxford journals during these years.He is known as an active researcher in the fields of Applied mathematics,mathematical and particle physics, electronics and power, computer science,cryptography, data science and some other related engineering fields such as bio math engineering, Nanotechnology and Fluid Mechanics. During years 2014 to 2017, he has been as scientific committee and board member of many conferences in mentioned fields. He has published over than 16 papers in high-impact ISI-Thomoson Reuters indexed and scientific research Journals, and has also been as a top technology analyst for many authenticate scientific magazines throughout the world. He is Editor of American Scientist research journal in San Francisco and set of IJRST journals and their new established journals. He currently has active research projects with other academics in Iran, Turkey, Malaysia, Mexico, USA and so on. He is constantly looking for collaboration opportunities with foreign professors and students. In addition, he has been HR Executive Manager,
Commercial negotiator and leader of Technical and research team at
HAMED ELECTRONIC JAHAN CO. as a private held company from
1999.Also, his main goals for the future is extending new technologies by novel and innovative ideas that makes a sense of originality and popularity to the world. Moreover, he is interested and developer of HI-TECH issues and discusses with prodigies of flag holders of technology that are nominated and outstanding in different issues.
Machine learning ,fundamentals of quantum computing
and qubits. Also, Artificial intelligence and machine
learning algorithms will be studied in order to clarify how
these mechanisms are connected together.
Machine learning ,fundamentals of quantum computing
and qubits. Also, Artificial intelligence and machine
learning algorithms will be studied in order to clarify how
these mechanism are connected together.
underlines the importance of having reliable methods to solve them. In this work, we present a
comparison of homotopy perturbation method (HPM), nonlinearities distribution homotopy perturbation
method (NDHPM), Picard, and Picard–Pade´ methods to solve Michaelis–Menten equation.
The results show that NDHPM possesses the smallest average absolute relative error 1.51(-2)
of all tested methods, in the range of r \in [0,5]. Also, we introduce the combination of Picard’s iterative
method and Pade´ approximants as an alternative to reduce complexity of Picard’s solutions
and increase accuracy.
of its improvement has been rising very extensively. The neutron and positron were discovered in
1932 which before that only electron, proton and photon were known. Today, the Standard Model
of elementary particles is the leading dominant theory. The fundamental particle is a particle whose
substructure is still unknown, thus it is unknown whether it is composed of the other particles1 or
not. Although the Standard Model describes the phenomena within its domain accurately, it is still
incomplete. Perhaps it is only a part of a bigger picture of the modern physics which includes the
deeper and hidden layer of subatomic world that has been dipped into the darkness of the universe2.
The question is, where is the hidden part of modern physics? Hidden part of modern physics
lies beyond the uncertainty principle. Included in the sub quantum scale, where quantum
interactions between photons and gravitons done. Hidden and dark side of modern physics is also
a place where charged particles absorb and emit energy quanta, without any description of the
mechanism of absorption and emission by charged particles. In modern physics, a charged particle
creates an electric field itself, but the mechanism of this process is ambiguous and does not explain
how a charged particle creates an electric field?
And above all, what is the scientific and precise definition of a fundamental particle? If we want
to reach the different results, we need to change our thoughts and scientific beliefs. In this paper,
by a new viewpoint to the basic laws of physics, three fundamental questions in physics has been
discussed and analyzed in hidden parts of the standard model and physical theories.
https://www.vlist.ir/en/search/view/companyId:506
B.Sc. degree from Islamic Azad University,
Central Tehran branch, Tehran-Iran in the year
2004 and followed by his M.Sc. and Ph.D.
degrees from Islamic Azad University, Central
Tehran branch, Tehran-Iran in the years of 2008
and 2015, respectively. He then taught for 6 years
at Islamic Azad University, Central Tehran
branch, Tehran-Iran, Department of Mathematics
and computer Science, Faculty of Science and
Engineering. In 2016. He was promoted best reviewer of year by getting
been reviewer of Elsevier, Springer and Oxford journals during these years.He is known as an active researcher in the fields of Applied mathematics,mathematical and particle physics, electronics and power, computer science,cryptography, data science and some other related engineering fields such as bio math engineering, Nanotechnology and Fluid Mechanics. During years 2014 to 2017, he has been as scientific committee and board member of many conferences in mentioned fields. He has published over than 16 papers in high-impact ISI-Thomoson Reuters indexed and scientific research Journals, and has also been as a top technology analyst for many authenticate scientific magazines throughout the world. He is Editor of American Scientist research journal in San Francisco and set of IJRST journals and their new established journals. He currently has active research projects with other academics in Iran, Turkey, Malaysia, Mexico, USA and so on. He is constantly looking for collaboration opportunities with foreign professors and students. In addition, he has been HR Executive Manager,
Commercial negotiator and leader of Technical and research team at
HAMED ELECTRONIC JAHAN CO. as a private held company from
1999.Also, his main goals for the future is extending new technologies by novel and innovative ideas that makes a sense of originality and popularity to the world. Moreover, he is interested and developer of HI-TECH issues and discusses with prodigies of flag holders of technology that are nominated and outstanding in different issues.
Machine learning ,fundamentals of quantum computing
and qubits. Also, Artificial intelligence and machine
learning algorithms will be studied in order to clarify how
these mechanisms are connected together.
Machine learning ,fundamentals of quantum computing
and qubits. Also, Artificial intelligence and machine
learning algorithms will be studied in order to clarify how
these mechanism are connected together.