Security Issues and Privacy Concerns in Industry 4.0 Applications. Группа авторов

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СКАЧАТЬ and suppliers. With this new flavor, domination of manufacturers and retailers will be avoided. Customers can make their own decisions on customization of their quality products which maintains the supply and demand cycle. However, a cyber-security threat is a great challenge in establishing Machine-to-Human (M-H) communication. The supply-demand cycle and efficient usage of resources which are considered as main characteristics of Industry 4.0 make the environment (production, cities, factories) become smart [4].

      1.1.3 Smart City

      Stock and Seliger [5] have described Industry 4.0 applications on smart cities, smart factories and smart products. A city which is connected by various factors, namely smart governance, smart people, smart health, smart communication and smart mobility, is defined as a smart city [6]. According to Jokob Julian, who is an architect and urban thinker, smart cities are a gift, a chance to transform old and slow systems and structures into a smart future. “Smart cities are developed in a vision of transforming the lives of digital citizens to meet their requirements,” Julian writes. Every country has started smart city projects with their own framework in order to improve their citizens’ quality of living.

      1.1.4 Smart Water Management

       When the well is dry, we’ll know the worth of water.

       – Benjamin Franklin

Global Risk Perception Survey Reports from the World Economic Forum highlight that there will be a greater societal impact of the water crisis over the next 10 years [4]. It will lead to a higher rate of water stress areas where water available for consumption will be on demand. In recent years, the water level consumed has been twice that of population growth. Therefore, there is a tradeoff between demand and supply of water. As everyone is aware about water scarcity in recent decades, it has its adverse consequences on food production also. Even though the future is uncertain, it is certain to have the hope that the situation can be changed. Water demands are increasing due to a huge increase in water consumption per capita among industrial sectors. Water is the first and foremost necessity of human life. Therefore, water policy has become a priority issue at the international level. If the proper water management is not maintained, a country’s economic development will be at risk. With these facts in consideration, a spotlight on water conservation has spread all over the world.

      With the help of smart water management, one of the five basic elements of nature can be conserved for the future. Further, many IoT-related researches are to be focused on effective monitoring of water quality. While researchers promote the ideas towards water management, there arises a need to maintain the sustainability of water for future usage with the successful deployment of IoT, Cloud Technologies and Big Data.

1.2 Preliminaries

      This section briefly explains the preliminaries related to Industry 4.0, namely IoT and Smart Cities. Out of various appliances involved in SC, Smart Water Management System (SWMS) is highlighted.

      1.2.1 Internet World to Intelligent World

      A tremendous shift of technology from the Internet world to the intelligent world is conveyed by the trending phrase “Internet of Things”. As modern societies have turned to round-the-clock connectivity, IoT fits their needs. Recently, many researchers have redefined the term IoT according to the applications developed. It includes transportation, healthcare, mining and many more. A mathematical language of IoT is expressed by the conceptual framework of 2020 as [7], IoT= Sensor + Network + Data + Services.

IoT services will be gained from all living and nonliving things which either request or offer a service. The inter-connectivity between all the things is made possible with microcontrollers, sensors and actuators. IoT provides promising smart solutions which have arisen due to dramatic urbanization as shown in Figure 1.1 [8]. Several scientific and engineering applications have emerged rapidly with the help of IoT. Solutions on IoT can be addressed with the recent technologies such as Robotics, Radio-frequency identification (RFID), Wireless Communication, Cloud Computing and Micro-Electromechanical Systems (MEMS).

      1.2.2 Architecture of IoT System

Various architectures on IoT are designed with respect to the smart functionalities provided by the system. In this typical system, middleware is the main component as it combines infrastructure and services together. In this Figure 1.2 [8], the combining factor of the Real World Data with the semantic web for providing services is through Linked Sensor Middleware (LSM). Also, nowadays various IoT architectures have been designed with Cloud-based Middleware infrastructure.

Figure 1.1 Comparison between the estimated world population and the projected number of smart devices connected to the Internet: 2015–2025.

Figure 1.2 Characterization of the technologies in IoT-enabled smart cities.

Generally, primary components involved in IoT architecture are application, sensors, processors and gateways. The major zone of IoT framework for users to utilize the gathered data is application. Sensors help in sensing the environment and to learn the functionalities of assembled things in order to make the actuators respond. The brain of the IoT framework is considered as processors which help to extract the information from raw data collected from sensors. Assigning the property to the gathered information is performed through gateway. Its working is similar to that of a router which will allow the processed data into LAN, PAN, WAN. In simple words, a gateway is used for a steering process which is performed on data collected [9].

      1.2.3 Architecture of Smart City

IoT services in smart cities are of great interest and are implemented not only for the welfare of human lives, but also to reduce the operational costs in administration. Some of the major administration policies are in the hands of local bodies such as corporations and municipalities. Services offered through smart cities include smart water management, smart lighting, and smart waste management. These advantageous developments through IoT can be used within smart homes, grid stations and also in workplaces for efficient management of energy usage as shown in Figure 1.3 [9].

Figure 1.3 Smart city architecture.

Figure 1.4 IoT with Smart-Aqua sensors via cloud.

A smart city СКАЧАТЬ