Название | Machine Learning Paradigm for Internet of Things Applications |
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Автор произведения | Группа авторов |
Жанр | Программы |
Серия | |
Издательство | Программы |
Год выпуска | 0 |
isbn | 9781119763475 |
While the number of industrial facilities projected to rise by over 2× between 0.32 and 0.68 billion in 2014, 37× will increase from 0.02 billion in 2014 to 0.74 trillion in 2020 for the automobile market.
The car industry is expected to see the highest level of revenue growth up to 303 billion dollars by 2020. Transportation and logistics, on the other hand, are expected to increase IoT revenue for the industry.
The Indian IoT ecosystem has a selection of around 120 participants, including hardware vendors, device vendors, network operators, and device integrators.
IoT provides players with prospects across the supply chain with application vendors aiming to capture 50% of the IoT market in India.
Technology providers concentrate on both vertical and horizontal applications, including commercial and industrial IoT solutions. In addition to appealing to a broad portion of customers, they seek to deliver tailored solutions to the niche consumer community.
1.10 Finding Balanced City Development
The first step is to identify and deploy a secure networking system that, in most situations, is enabled by wireless networks. Networks as they allow knowledge sharing with a more scalable and low-cost implementation than wired networks. However, owing to the complexities of sustainable smart city environments, in most situations, heterogeneous connectivity systems and diverse network architectures can be introduced, based on the requirements of particular networks that need to be incorporated [27] (e.g., the appropriate low or high data bit rate) or technical limitations (e.g., the availability of a power source), the area to be covered.
A town that wants to be an educated and prosperous town must generally become more desirable, resilient, egalitarian, and equilibrate with its inhabitants, work, and tourists.
Exchange expertise, knowledge, and programmers, as well as responsibility for decisions affecting people’s lives in coming years between residents, stakeholders, and other institutions.
Improve the city’s identity as capital town for popular features (e.g., healthy food, culture, and music) and enhance the city’s appeal for city residents, businesses, and tourists.
Focus on the legal, social, and services values of both workers and businesses.
1.11 E-Industry With Enhanced Resources
They noted that IoT has actually been applied to support the technologies and people in relatively few implementations. IoT’s spectrum is very broad and almost all application areas will be captured by IoT in the near future. They found out that energy efficiency is one of the main facets of society, and IoT will help create a smart energy management system that saves energy and money [28]. In terms of the smart city definition, you mentioned an IoT architecture. The writers have addressed the immaturity of IoT hardware and software as one of the difficulties in doing this. They proposed addressing these problems to ensure a secure, effective, and user-friendly IoT device.
The transition from rural to urban environment leads to a growing urban population. Intelligent mobility, electricity, healthcare, and infrastructure solutions are also required. Smart city is one of the big IoT developer apps. It discusses several topics, including traffic control, air pollution management, public security solutions, intelligent parking, intelligent lightning, and intelligent waste disposal. You said IoT works tirelessly to solve these tough problems. In the domain of Smart Cities Technology pioneers is able to access the need for better intelligent urban infrastructure with accelerated urbanization. The authors have concluded that technology allowed by IoT is very relevant for sustainable growth in smart cities.
A weekly visit is often needed to gather information from the sensors mounted at the site under investigation. Often, some details remained lacking, which may not contribute to a very reliable review. The IoT-based system is thus able to address this issue and can provide high precision in analysis and forecasting. Later, concern is expressed for the handling of domestic wastewater. They addressed many shortcomings in the waste-water treatment process and complex control method and recommended effective alternatives based on IoT [29, 30]. They claimed that IoT can be very efficient in the treatment and control of wastewater.
The main design challenges for a successful IoT architecture in a heterogeneous setting are scalability, modularity, interoperability, and transparency. The IoT architecture must be configured to satisfy the criteria of cross-domain communications, convergence of various structures with the ability for easy and flexible control functions, analytics and storage of big data, and user-friendly applications. The design should also be able to scale up the functionality of the IoT devices in the system and incorporate some intelligence and automation.
1.12 Strategy for Development of Smart Cities
1.12.1 Stakeholder Benefits
A policy with consistent advantages assigned to particular stakeholders is a success indicator that can be visible in the ongoing input obtained from stakeholders, showing the smart city components’ level of fulfilment or dissatisfaction. For strategies which are formed on the basis of specific needs, a observable effect is more probable. For ordinary people and for senior leadership who need to be on board with the strategy, particular plans can be very complicated. It is necessary to spend the extra time putting in the strategies that both political officials and people can clearly grasp in detail.
1.12.2 Urban Integration
In most cities worldwide, the incorporation of technology within the public sphere is an evolving theme. It is important to enhance the quality of life for residents to have an urban planning aspect within the Smart City Strategy.
We have also seen examples of the accelerated introduction of technologies in our cities and no concern about the effect on customer care or the experience of people [30]. There are also innovations which have not been prepared for or have not been integrated with other agencies. This may look “cool” for some of the more technically focused persons; it will reflect and depict for others.
The community’s picture of chaos: As part of policy growth, attention should be given to implementation guidance. The implementation of the Smart City Strategy as an organized initiative within the urban master plan phase is one solution. This strategy means that, at the highest level, the discussion about technology and the built environment takes place. Strategies seek to describe a wide range of programmers and projects with longer horizons in time for distribution. Some are more fundamental; others are beyond some. With the pace of technological transition, by the time they are finished, even short-term programmers that fund efforts will look different. Spending too much time on the strategy’s technological specifics can just make it seem obsolete in a limited timeframe [30]. The strongest implementations of technologies are those that offer societal advantages, are not physically distracting in the public domain, and are applied with a long-term view.
1.12.3 Future Scope of City Innovations
In our modern world, many cities are facing big obstacles, such as a rising population, a shortage of physical and social resources, environmental, and regulatory standards, diminishing tax bases and budgets, and higher prices. They need to learn how to recognize innovative and intelligent ways of handling urban life’s complexities and challenges ranging from congestion, overcrowding, and urban sprawl to insufficient infrastructure, high unemployment, resource utilization, conservation of the environment, and increasing crime rates.
Cost efficiencies, resilient networks, and an increased local environment result from the use