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Internet of Things (IoT)-based industrial monitoring system
Published in Muhammad Arif, Guojun Wang, Mazin Abed Mohammed, Md Tabrez Nafis, Vehicular Ad Hoc Networks, 2023
Syeda Florence Madina, Md. Shahinur Islam, Fakir Mashque Alamgir, Mohammad Farhan Ferdous, Muhammad Arif
The Internet of Things (IoT) is rapidly increasing technology. IoT is the network of physical objects or things embedded with electronics, software, sensors, and network connectivity, which enables these objects to collect and exchange data. In this project, we are developing a system which will automatically monitor the industrial atmosphere, evaluate stored data, and make decisions using the concept of IoT. IoT has given us a promising manner to construct effective industrial system and applications with the aid of the use of wireless gadgets, androids, and sensors. The main contribution of this project is that it provides IoT in industries with various sensors and control units [1].
Smart Applications of Internet of Things (IoT) in Healthcare
Published in Nishu Gupta, Srinivas Kiran Gottapu, Rakesh Nayak, Anil Kumar Gupta, Mohammad Derawi, Jayden Khakurel, Human-Machine Interaction and IoT Applications for a Smarter World, 2023
Praveen Kumar Gupta, Shweta Sudam Kallapur, Anusha Mysore Keerthi, Soujanya Ramapriya, A. H. Manjunatha Reddy, Sumathra Manokaran
An on-time alert is critical in case of life-threatening circumstances. Medical IoT devices gather vital data and transfer that data to doctors for real-time tracking while dropping notifications to people about critical parts via mobile apps and other linked devices. Reports and alerts give a firm opinion about a patient's condition, irrespective of place and time. It also helps make well-versed decisions and provide on-time treatment. Thus, IoT enables real-time alerting, tracking, and monitoring, which permits hands-on treatments, better accuracy, apt intervention by doctors, and improves complete patient care delivery results.
Duplex antenna system for MIMO application
Published in Yadwinder Kumar, Shrivishal Tripathi, Balwinder Raj, Multifunctional MIMO Antennas, 2022
D. Venkata Siva Prasad, Harsh Verdhan Singh, Punya P. Paltani, Shrivishal Tripathi
The IoT is a network that connects home appliances, vehicles, physical devices, and other items with electronic systems, actuators, sensors, software, and network connectivity, and this allows the things (physical devices) to connect and exchange data. The embedded computing system gives each thing in the network a unique identity and enables the devices to interact with the help of the existing Internet infrastructure. Narrow band-IoT (NB-IoT) is a narrowband radio technology intended for the IoT and standardized by the 3rd Generation Partnership Project (3GPP). The list of bands and their mode of duplex operation used in NB-IoT is shown in the Table 3.1. This standard enables a large number of connected devices and focuses on indoor coverage and long battery life [42].
A New Hybrid Method for Secure Data Transmission Using Watermarking based on Fuzzy Encryption in IoT
Published in IETE Journal of Research, 2023
Hossein Mohammadi, Abdulbaghi Ghaderzadeh, Amir Sheikhahmadi
The development of new types of sensors and actuators in the combination of ubiquitous and growing network communications forms the concept of the Internet of Things [2]. Many factors, including the reduction in the price of IoT equipment and the high demand of users for new services, are involved in the evolution of the Internet and IoT. According to the recent developments, we are witnessing the construction of equipment that, in addition to being mobile, are wearable or integrated devices with high memory and processing power and are equipped with various sensor technologies. Increasing the efficiency of IoT devices will lead to providing more and better services to the end user. In the next few years, we will witness the widespread penetration of communication and sensing chips into all types of physical objects, which will expand applications such as the following more and more: Smart houses (environmental control and smart appliances).Smart city (resource control, for example, road lighting, waste management, water and energy management, traffic control, etc.).Industry (process control).Construction (smart construction management).People (location services, health management and monitoring, etc.)
Compact dual-band MIMO cubical antenna for automotive applications
Published in International Journal of Electronics, 2023
Lekha Kannappan, Sandeep Kumar Palaniswamy, Malathi Kanagasabai, Mohammed Gulam Nabi Alsath, T. Rama Rao
In connected vehicles, wireless communication technology is rapidly increasing. There is a great demand for high-speed mobile connectivity in cars to interact with other vehicles in order to ensure trouble-free and safe travel. Therefore, automobile manufacturers are compelled to offer new and exciting services. The use of the Internet of things (IoT) is becoming increasingly popular in the automotive industry, and it has completely transformed the way people communicate. IoT refers to the interconnection of billions of systems/devices such as electronics, sensors, gateways, and actuators. IoT applications have made a significant impact on the global automotive industry, ranging from connected cars to automated transportation systems. IoT assists advanced driving assistance system (ADAS), which is used for automated parking, congestion avoidance through re-routing, and vehicle-to-vehicle (V2V), vehicle-to-infrastructure (V2I), and vehicle-to-everything (V2X) communications. IoT can also be used in automotive applications such as driving, braking, parking, lane changing, fleet management, tracking traffic conditions, route management, time management, and driver management. The automobiles are linked by an IoT network known as CV2X, which connects vehicles and smart/intelligent transportation systems. Semi-autonomous vehicles with IoT infusion make on-the-spot decisions to avoid accidents and reduce driver workload. The vehicles will be connected to more communication devices in the future traffic system with the help of IoT to create a more holistic and intelligent driving function.
Towards precision irrigation management: A review of GIS, remote sensing and emerging technologies
Published in Cogent Engineering, 2022
Erion Bwambale, Zita Naangmenyele, Parfait Iradukunda, Komi Mensah Agboka, Eva A. Y. Houessou-Dossou, Daniel A. Akansake, Michael E. Bisa, Abdoul-Aziz H. Hamadou, Joseph Hakizayezu, Oluwaseun Elijah Onofua, Sylvester R. Chikabvumbwa
The advent of the Internet of Things (IoT) has resulted in a paradigm shift in agricultural water management. Traditionally, farmers use heuristic approaches to schedule irrigation which oftentimes results into over or under irrigation (Kashyap et al., 2021). Closed-loop control strategies ensure that the amount of water to be applied is determined by the current soil moisture status and prevailing crop environment. IoT provides a platform for precision irrigation, wirelessly connecting several soil sensors and other different hardware on the farm. The coupling of Geographical Information Systems with the Internet of Things is essential in the automation of irrigation systems. The combination of Geographical Information systems and IoT will bring a dynamic change in the irrigation industry and other sectors as well. IoT technology is one of those techniques in which, by using the normal internet protocol, the desired technology may wirelessly transmit the data gained by digitizing the data of the object or domain of the adapter that it is adapting to the server. With a system architecture comprising of soil moisture sensors, weather sensors and solenoids placed on sprinklers, Lora modulation and 4 G connection, real-time irrigation requirements can be met (Rehman et al., 2022).