Name
Kravtsov Alexey Alexandrovich
Scholastic degree
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Academic rank
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Honorary rank
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Organization, job position
Kuban State Agrarian University
Web site url
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Articles count: 5
The author performed a research with the purpose of
improving visualization of three-dimensional objects by
means of augmented reality technology with the use of
massively available mobile devices as a platform. This
article summarizes the main results and provides
suggestions for future research. Since graphical user
interfaces made it to the consumer market about 30 years
ago, interaction with the computer has not changed
significantly. The focus of current user interface
techniques is only on human-computer interactions, not
on human-real world interactions. With that in mind, the
concept of augmented reality appears very promising.
Besides other improvements, it provides a better user
interface for visualization of virtual objects in real
environments. Modern smartphones and tablet
computers, as well as improved software tools have
provided the prerequisites for mass usage of handheld
augmented reality. The following issues were raised by
research: realistic object rendering, the ability to change
object parameters in real time, storing of objects,
manipulation of objects in space, issues of augmented
reality graphical user interface design
Augmented reality offers unique ways to display visual
information, in particular the visualization of threedimensional
objects. With AR object can be visualized
directly in the context of its operation. As an example
can be a piece of furniture rendered in the interior, plants
in the garden, the architectural object in the landscape.
Modern consumer devices such as smartphones and
tablet computers, as well as the algorithmic base lead to
the possibility of augmented reality mass usage. The
concept of augmented reality offers a better user
interface for visualization through a combination of
methods of controls and visualization. The camera angle
can be controlled by user’s head or device movements,
which is intuitive and efficient. Method of visualization
of three-dimensional object by combining its image with
the surrounding environment allows better perceiving
the object, its dimensions, and material properties. In
contrast to the traditional visualization approaches, AR
does not require modeling of the environment. Objects
visualization by means of AR can be applied to customer
decision support while buying products. The user is
provided with the ability to visualize an object in interior
or outdoors, where he plans to place it, and interactively
examine the object from any angle. This article attempts
to systemize possible options for interaction with
potential buyers through applications with augmented
reality technology
Tracking is a vast field of research associated with
navigation, robotics, and virtual environments (virtual
reality). Tracking for augmented reality requires higher
level of precision, increased range of action, as well as
work with a wider variety of input data. It is important
that augmented reality technology requires tracking in
real time, which also complicates the task. Correct
visualization of objects in three-dimensional space
requires six degrees of freedom tracking: three position
values (x, y, z) and three angles (rotation around the
respective axes) to determine the orientation. To solve
this problem, different approaches and sensor types are
being used. In this article, we present a brief history of
the development of tracking technology and analyze the
current approaches to implement the process of tracking
on mass mobile devices such as smartphones and tablet
computers. We also describe some issues in
implementing optical marker based tracking for
visualization of large scale models
The article defines modern trends in user interface design creation, tells about use of augmented reality technology and presents an application for visualization of a virtual object in a real environment using augmented reality technology
The article gives an overview of the study results in the terms of Anapo-Taman zone of the Krasnodar region. It shows treatment effects of the growth stimulants of Avibif and Biodux on Saperavi vine and its productivity and quality