Industry 4.0 and Renewable Energy
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Kaplan University *
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LS 311-01
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Information Systems
Date
Nov 24, 2024
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docx
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4
Uploaded by AdmiralQuailMaster1067
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Smart Buildings
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Smart Buildings
This assignment will discuss how Industry 4.0 technologies can be utilized to speed up
the deployment of renewable energies using smart buildings. The theory of smart buildings has
existed for many years, but it is not yet widespread (Wright, 2019). Industry 4.0 is establishing
connections between building structures and their frameworks, equipment, systems, and even
other buildings via the Internet of Things (IoT). Within the next decade, this will have changed
substantially due to the development of Industry 4.0. The invention of smart buildings will have
become cost - effective, simpler, and more readily available to all as a result of technological
advancements.
Smart buildings are intricate networks of interconnected parts and pieces. Smart Smart
building owners can pick their own lighting, security, HVAC, and climate control technologies as
if they were installing a home theater system because each aspect has been upgraded and built up
over time (
Buckman et al., 2014). However, modern property owners are starting to think beyond
their building's walls to assess how it affects the power grid, the strategic planning process, and
the world at large.
To accomplish these goals, it is not adequate for a building only to comprise the
frameworks that would provide comfort, light and security (
King, & Perry, 2017). Connecting
the assorted parts of a building in a manner that is merged, interactive, and usable is a must for
the buildings of the future. Imagine a structure that accomplishes its goals with minimal
environmental impact, while also reducing energy prices and helping to maintain a reliable
electrical grid. Smart buildings, at their core, provide inhabitants with the solutions they need to
be efficient throughout the building's lifespan (such as lighting, heating and cooling, quality of
air, security systems, and waste management) at the least possible cost and climatic influence. To
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realize this goal, intellectual ability must be integrated into the building at every stage, from
planning to demolition (
Buckman et al., 2014). Throughout execution, technological
advancement in smart buildings links normally autonomous sub - systems so that they can
exchange data and improve the building's overall performance. Smart buildings look far beyond
building equipment within their outer walls. They communicate with the smart power grid,
respond to the needs of building managers, and provide inhabitants with enhanced transparency
and control.
The protection, convenience, and efficiency of building inhabitants have been greatly
enhanced with the advent of advanced mechanical equipment, control systems, and amenities.
While a number of these structures rely on machine-to-machine correspondence, information is
transmitted only in one direction due to the generality of the data and the exclusivity of the
communication systems used thus far (
King, & Perry, 2017). When no one is in a building,
energy costs can be cut by using information from the surveillance system to disable lights and
adjust the temperature.
Moving toward integrated, open standard systems and devices inside a building involves
collaboration among several factions, some of whom have historically been business
competitors. Building technicians will have access to the information and tools they need to
optimize the building's energy productivity and the convenience of its inhabitants, two factors
that are vital to any organization. By using AI analysis tools to improve processes, eliminate
waste, and reduce prices across building systems in many sectors. Nhede (2020) argues that AI
has the potential to do more than just modernize buildings; it has the potential to make them fully
suitable, smart, and adaptable.
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References
Buckman, A. H., Mayfield, M., & Beck, S. B. (2014). What is a smart building?.
Smart and
Sustainable Built Environment
.
King, J., & Perry, C. (2017).
Smart buildings: Using smart technology to save energy in existing
buildings
. Washington, DC, USA: Amercian Council for an Energy-Efficient Economy.
Nhede, N. (2020, May 11).
AI analytics in building management system will help make buildings
smart and responsive
. Smart Energy International. Retrieved December 6, 2022, from
https://www.smart-energy.com/industry-sectors/data_analytics/ai-analytics-in-building-
management-systems-will-help-make-buildings-smart-and-responsive/
Wright, K. (2019, July 16).
Industry 4.0: building the future with the fourth industrial revolution
.
OfficeSpace Software.
https://www.officespacesoftware.com/blog/industry-4-0-building-
the-future-with-the-fourth-industrial-revolution/