Jorge Mayhuasca and Santos Sotelo Federico Villareal National University, Lima, Peru
Over time, technology has approached us in our
increasingly present environment, currently depending to carry out
activities
with the support of technology and without it it is not possible,
everything is really systematized. The digital transformation
has completely restructured social mutations, such as interactive
coexistence in our social environment, we communicate
virtual through social networks in real time. The present investigation
is oriented to computation and quantum information.At
the beginning of the last century, Quantum Computing had research by
scientists such as [1,2], their thinking focused on
elucidating the proposed dilemma of black body radioactivity. In the
last century, [1] ingested all radiant energy, with the
purpose of determining the spectral domain of a radiation, through a
quantized or discrete path processing. The explorations
led [1,2] to inspire the research study of energy, atoms, particles and
identifying themselves as precursors of quantum physics
and technology, a path that they extended [3,4,5,6,7,8,9].Within quantum
technology, information is the quantum equivalent,
in the area of traditional information that experiences how to measure,
accumulate and transport information. Through the
internet system, telephone calls are made, as well as payments through a
card, creating and forming data that travels at high
speeds in the world close to light.
Keywords: quantum, computation; information; security;
intercalation; Qubits; overlap
Ravindra Shinde and S.S. Ohol College of Engineering Pune, India
The article’s primary purpose is to present a new robot calibration
system proposed to improve the positional accuracy and
repeatability of the ABB IRB 1520ID industrial robot having six degrees
of freedom. Various calibration methods of
articulated industrial robots are discussed. A new calibration technique
is proposed, using a five Linear Variable differential
Transformer (LVDT) probe and a master tool designed for varying payload
capacity during experimentation. Analysis of
different robot parameters and internal or external factors affecting
the performance ofthe robot was done. The planning,
execution, and experimentation set up all the stages are mentioned in
detail. Finally, after the experimental setup, statistical
tools and formulae to evaluate the positional accuracy and repeatability
are also described in detail.
Keywords: Robot Calibration, Robot’s Accuracy, Robot’s
Repeatability, Parameter Identification, Statistical Analysis.
Priyanka Kashikar Dept. of Physics, Shri G S Institute of Technology and Science, Indore
Optical Tweezers are the widely accepted and applied tools in many fields of sciences, working on the concept of radiation
pressure. Many types of optical tweezer system have been introduced till date and is still in process of development. Due to
the ability to trap and manipulate the particles as well as living cells and organisms of sizes ranging from few microns to few
nanometers without any structural damage to it leads to a wide range of applications of OTs. In this paper we will be
discussing different methods/systems of optical tweezers developed for different applications over the years. This will give us
the insight of working process and manipulations technique of conventional optical tweezer (COT) as well as recent
developments of it
Keywords: Optical tweezer, radiation pressure, nanoparticle manipulation, conventional optical tweezer
Karin Rojas , Rogelio Cohello, Jorge Mayhuasca, José Coveñas, Miguel Salcedo Universidad Nacional Federico Villareal, Lima, Perú
Currently we can visualize the constant use of technologies to streamline processes and physical interactions, therefore, we
make use of the 360º modeling that is close to people through virtual environments that allow changing the perspective of the
property leasing process since instead of The interested party and the landlord spend time on meeting and meeting activities,
it is only enough to use a system that allows interaction between the digital environment and the people who interact with
respect to a property lease. Based on this, Virtual Room was created, it is a work team that develops a web page that works in
a 360 ° environment for the immersive tour of the properties offered by the landlord, this may publish ads referring to the
properties available in order to offer them to people who want to take the desired property according to their needs. The
purpose is to reduce the time of the landlord and tenant with the virtual tour, making it a safe and simple process for the
exchange of information.
Keywords: Virtual Environment, 360 modelings, virtual tour, leasing,Virtual Room.
Abhishek A. Sase , Yogesh K. Bhateshvar , Kamal C. Vora College of Engineering Pune
The Controller Area Network (CAN) communication protocol is designed by Bosch in the 1980s as a doubled wired,
differential voltage-based serial communication system for control systems. Electric vehicles, like Gasoline vehicles, require
controllers to regulate load operation, where conventional point-to-point communication system gets outcome of huge
number of cables in the harness. CAN is used to minimize the amount of cables and enable various controllers to transfer data
and accomplish complicated jobs simultaneously. This paper presents the design of a CAN-based control system to be used
as a replacement for the existing system and shows the development of four modules as well as a proposed implementation
for the complete system. Individual modules will be developed initially and later interfaced to the CAN network with CAN
controller modules. All modules are connected with a twisted pair of cables for data transmission with CAN.
Keywords: Controller Area Network, Auxiliary load, Motor driver, Battery monitoring system
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