1,147 research outputs found
The Boy Who Grew a New Brain: Understanding this Miracle from a Neuro-Quantum Perspective
In this paper, we present a case of a boy – Noah Wall, who till today surprises the world of neuroscience with his
will to grow his brain and survive. The case presented in this study sets a stepping stone in understanding the
advent of the will to make a choice, from a neuro-quantum mechanics interpretation. We propose that besides our
internal states of choices (neurogenesis, neuroplasticity, cell differentiation, etc.) we also relate with external states
of choices (love, compassion, empathy, emotions, etc.) that contributes to its emergence. Quantum uncertainty
seems to support the existence of a fundamental property based on which the universe functions; which means that
even the nothing of free space has a small chance of containing something. Outcomes are not determined by prior
or random events but by consciousness that gives rise to these outcomes. This provides us a lead into
understanding the existence of the will and the origin of choice when we look deeper into the realms of the
implausible interpretations of quantum mechanics. Free will is the ability for the mind to choose between possible
outcomes. Willful power is therefore not only a psychological intervention but also a biological and quantum
intervention, where we have the capacity to make choices about what direction we will take, making a change to
the systematic functioning of our body
Near-Death, End-of-Life Experiences and Quantum Physics
This book is a compilation of the work published by the present authors in various scientific journals mainly focused on understanding how quantum physics could decipher the experiences observed and reported during near-death and end-of-life situations. The authors claim that various theories and models proposed herein (though not propounding to be a complete one) are just an attempt to understand few aspects associated with such experiences connected to the phenomenon of death. They investigate the possible role of the quantum phenomenon in the occurrence of these events and call for a detailed scientific investigation to validate any hypotheses made
A Novel Beamformed Control Channel Design for LTE with Full Dimension-MIMO
The Full Dimension-MIMO (FD-MIMO) technology is capable of achieving huge
improvements in network throughput with simultaneous connectivity of a large
number of mobile wireless devices, unmanned aerial vehicles, and the Internet
of Things (IoT). In FD-MIMO, with a large number of antennae at the base
station and the ability to perform beamforming, the capacity of the physical
downlink shared channel (PDSCH) has increased a lot. However, the current
specifications of the 3rd Generation Partnership Project (3GPP) does not allow
the base station to perform beamforming techniques for the physical downlink
control channel (PDCCH), and hence, PDCCH has neither the capacity nor the
coverage of PDSCH. Therefore, PDCCH capacity will still limit the performance
of a network as it dictates the number of users that can be scheduled at a
given time instant. In Release 11, 3GPP introduced enhanced PDCCH (EPDCCH) to
increase the PDCCH capacity at the cost of sacrificing the PDSCH resources. The
problem of enhancing the PDCCH capacity within the available control channel
resources has not been addressed yet in the literature. Hence, in this paper,
we propose a novel beamformed PDCCH (BF-PDCCH) design which is aligned to the
3GPP specifications and requires simple software changes at the base station.
We rely on the sounding reference signals transmitted in the uplink to decide
the best beam for a user and ingeniously schedule the users in PDCCH. We
perform system level simulations to evaluate the performance of the proposed
design and show that the proposed BF-PDCCH achieves larger network throughput
when compared with the current state of art algorithms, PDCCH and EPDCCH
schemes
Handwritten character recognition using a gradient based feature extraction
Handwriting Recognition is the task of transforming a language that is represented in its spatial form of graphical marks into its symbolic representation. In Offline Handwriting Recognition, there are three steps: preprocessing of the image, segmentation of words into characters and recognition of the characters. In this thesis I implemented two methods for character recognition, which is the most important step in Offline Handwriting Recognition. The heart of character recognition is the features that are extracted from the character image. The accuracy of the classification of the character image depends on the quality of the features extracted from the image. The two methods presented in this thesis use two different types of features. One uses the connectivity features among various segments in a character image, and the other method uses the gradient feature at each pixel to construct the feature vectors. Both these methods are discussed in detail in the following chapters
The Development and Role of Peripheral Auditory Structures in \u3ci\u3eOtocinclus affinis\u3c/i\u3e
Loricariidae is a very diverse family of catfishes found primarily in the Amazon River basin. These catfishes have a unique characteristic feature of having fenestrae (holes) in the skull region (compound pterotic bone) adjacent to their bi-lobed swim bladder. Since the swim bladders and the compound pterotic may act as an external ear for hearing in this taxon, I hypothesized that these swim bladders structures have an acoustical functional in the loricariid Otocinclus affinis. In order to understand the development of these structures in O. affinis, I first monitored the ontogeny of the compound pterotic bone by clearing and staining of fish ranging total length from 0.75 to 3.5 cm. the swim bladders and fenestrated compound pterotic bone were developed at early larval stages (by 5.25 mm TL). Second I examined the role of swim bladders in hearing in adult O. affinis, by testing the hearing sensitivity before and after swim bladder deflation. Hearing thresholds were determined electrophysiologically by recording auditory evoked potentials (AEP). Swim bladder deflation increased hearing thresholds by 19 – 23 decibels (dB). I then tested the role of the compound pterotic bone fenestrae in hearing by covering them with a tissue adhesive (n-butyl cyanoacrylate) and recording the hearing thresholds. Covering fenestrae increased hearing thresholds by 4 – 11 dB. Future experiments are required to more precisely determine the acoustical role of these peripheral auditory structures in O. affinis
On Science & the Perception of Reality
The present mainstream science tackles the problem of Consciousness by embracing the objective or third person perspective; hence, it fails in understanding many fundamental aspects of life. Further, knowledge gained from science is not absolute in the sense that it is based on a human-centric view. This brings us to the question of how to access absolute reality? In this article, we consider the subjective aspect associated with the objective phenomena and explore a possible new science of subjective experience
Understanding Embodiment: Advancing towards a lesser Body and more Soul
The nature of the soul is attribute-less and boundless. To experience its true potential, the dimensionless soul manifests itself in the physical dimension as a body. Materialism originates with the creation of the body as it grows around the soul and in the process of forming, enchants the soul with its materialistic conducts. The soul has the ability to materialize and dematerialize into bodily
forms as per will, but such an entropic amendment may change the true essence of bodily life. The avarice for materialistic needs mutilates the body physically and mentally, and unshackles the soul; for as we grow in our materialistic conducts, the body and its senses endure this burden, gradually progressing towards a lesser body and more soul
MCSA based mechanical fault analysis of three phase squirrel cage induction motor
This paper deals with mechanical fault analysis of
three phase induction motor using Motor Current Signature
Analysis. This is a reliable technique that can be used to monitor
the health of three phase induction motor. Three phase induction
motor is used to find the Current Signature before and after the
fault occurs. The FFT of Current signal is analyzed using
Advanced Signal processor to find harmonics present before and
after the fault occur. This data is used to detect the mechanical
faults way before they cause harm to the motor and power
system. Ball bearing fault is created practically to find the
harmonics components in the current drawn. Most of the
practical results match with the theoretical values obtained from
the literature
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