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HUMN 344: Project Media & Transcript Draft on Screen-less Display

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Added on  2023/04/05

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This document presents a project media and transcript draft focusing on screen-less display technology. It addresses the problems this technology seeks to solve, including applications for the visually impaired and the development of screen-less laptops and televisions. It explores the potential benefits, such as low power requirements, high-resolution images, greater portability, and the ability to present 3D images. The document also touches upon the limitations and the absence of significant harm, while acknowledging the high cost of experimental models. The collective effort involving users, caregivers, and manufacturers is emphasized for further development. This document also covers body-adapted wearable electronics, their use, and the problem of data privacy.
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Course Project, Part 3: Project
Media and Transcript Draft
TOPIC: SCREEN-LESS DISPLAY
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Introduction
Screen-less display is a present evolving technology
It is from the field of computer enhanced technologies
It is an interactive projection technology
It has the main aim of transmitting or displaying the information without
taking any assistance of the screen or projectors
It describe the system for transmitting or displaying all the visual
information and details from video source without using screen.
It has become one of the new rages of development for new GEN-X
(Bathiche et al., 2016).
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Question: What problem does this technology
seek to solve or provide a solution?
As per Agarwal et al. (2015), Screenless display can be used in the
Development of mobile phones used by the blind and the old people.
It was first done on OWASYS 2CC
Can be used in the development of the screen-less laptops. It can be a
portable solution when linked with CRT or fixed to the LCD monitors.
Applicable in the holograms projection.
Can be used in the new screen-less televisions.

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Question: Whose problem is it?
Screen-less display or Virtual Retinal display is not yet present in notable
numbers but it have seen a notable increase in the field of research and
commercialization.
Adapting the Screen-less display devices entail many significant
innovations
It is generally divided into three categories and they are- Visual image
(Hologram), Retinal direct and Synaptic interface.
Improvement in the field of these three categories is mainly dependent
on the capabilities and prices. Notwithstanding this fact, it is also a
collective effort that involve the users and the caregivers as well as the
manufacturers for solving the issue (Lohchab & Sadaf, 2017).
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Question: Which people and what institutions
might be most seriously harmed by a
technological solution?
There is no principle disadvantage or harm of Virtual Retinal Display
(VRD) identified in significant number.
The special experimental models and prototypes are now built but at the
same time, their cost per unit is also very high in number.
The Screen-less display is still under development and progress.
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Question: Which people and what institutions
might be helped by this technological
solution?
Very low power requirements
Very high resolution images
Have greater portability. The combination of the lenses, processing components and diodes in
the retinal projector system would weigh just few ounces.
Have wider angle of vide and have more accurate colour.
Screen-less display also have the potential to present 3D images and far point images.
Involves lower costs (Manekiya & Arulmozhivarman, 2016).

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Works Cited
Agarwal, S., Ghosh, A., Bhattacharyya, S., & Nath, A. (2015). Green Solutions: A
Pilot Study on Green Technology and Green Computing. International Journal of
Advanced Research in Computer Science and Software Engineering.
Bathiche, S., Chan, A.K., Gates, W., Hyde, R.A., Ishikawa, M.Y., Jung, E.K., Kare,
J.T., Lanier, J., Manferdelli, J.L., Tegreene, C.T. & Whitmer, C. (2016). Systems and
methods for differentiating between dominant and weak eyes in 3D display
technology. U.S. Patent 9,319,662.
Lohchab, A. &Sadaf, S. (2017). Screenless display. Global Sci-Tech, 9(3), pp.170-
176.
Manekiya, M.H. & Arulmozhivarman, P. (2016), April. 3D volume reconstruction
using hologram. In 2016 International Conference on Communication and Signal
Processing (ICCSP) (pp. 1570-1574). IEEE.
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