Edge Computing And Its Role In Optimizing Edge Devices For E-commerce
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Edge Computing And Its Role In Optimizing Edge Devices For E-commerce
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What Is Edge Computing?
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By Rongxu Xu Rongxu Xu Scilit Preprints.org Google Scholar 1 , Wenquan Jin Wenquan Jin Scilit Preprints.org Google Scholar 2 and Dohyeun Kim Dohyeun Kim Scilit Preprints.org Google Scholar 3 , *
Pdf] Latency Optimized Edge Computing In Fifth Generation (5g) Cellular Networks
Received: 30 June 2021 / Revised: 8 September 2021 / Accepted: 9 September 2021 / Published: 17 September 2021
With the rapid development of infrastructure and communication technology, the Internet of Things (IoT) has become a promising field. Ongoing research sees the smart home environment as a very promising sector that uses IoT and cloud computing to improve residents’ life experiences. Recent studies related to IoT and cloud-based smart home services have issues with security, bandwidth and a worrying lack of thermal comfort for residents. In this paper, we propose an edge computing-based environmental optimization scheme using particle swarm optimization (PSO) for effective thermal comfort control in living spaces to overcome the aforementioned limitations of smart home research. The comfort level of the occupants of a smart home is assessed by the Predictive Manifold Vote (PMV), which represents the thermal response of the occupants. The PSO algorithm is combined with PMV to improve the accuracy of the optimal results for effective thermal comfort control in a smart home environment. We integrate IoT with edge computing to enhance the capabilities of IoT nodes in computing power, storage and reliable connectivity. We use EdgeX as an edge computing platform to generate occupant-friendly environmental parameters to create thermal comfort by considering a PMV-based optimization engine with PSO algorithm and to maintain the indoor environment in real-time. Detect environmental changes in the smart home. Thermally comfortable. To evaluate our proposed system that maintains the occupancy environment with a thermal comfort index based on a PSO optimization scheme in smart homes, we compare between the original data with the desired data and measure the execution times of the desired function. From the experimental results, when our proposed system is implemented, it meets the thermal comfort and consumes energy stably.
With the rapid development of infrastructure and information technology, IoT has become a promising field in global information and communication technology. Many industries have integrated the concept of IoT into their traditional products and services to facilitate their use by consumers. In addition, ICT domain practices and scientific fields have also changed. Previous studies have shown that IoT has had a significant impact on the overall structure, business philosophy and future direction of the industry [1]. Current research also looks at the smart home environment, one of the most promising environments for IoT adoption and use [2].
Dedomena • Nucleus Edge: Where Data Synthetization Meets Edge Computing
Smart home is one of the applications of IoT, which is the connection between physical objects that allow indoor digital device, sensor, application and network communication [3]. Many definitions have been used to design and define smart homes. Definitions vary by opinion. The author [4] describes a smart home as a user-equipped computer and information technology, which responds to the needs of residents and improves their life experiences such as convenience, comfort and security through control. is trying System in the home environment and relationships with the outside world. The author [5] introduces the smart home as a combination of all kinds of services in the home by adopting a common Internet protocol. The system provides an intelligent capability and flexibility to ensure users a safe, economical and comfortable life at home. The author [6] explains that a smart home is a building armed with sensors and actuators. Control devices can be air, light, temperature, air conditioning. There is a control system called “Gateway” that provides connectivity to connect switches and sensors. The control system creates a user interface that allows consumers to interact with the system through a smartphone, tablet or laptop.
With the advancement of technology, many people work at home and wherever they feel comfortable [7]. Since the mood of residents and the productivity of employees are affected by the quality of the place where they work and live, thermal comfort management is an important task [8]. There are studies to implement a smart home control system using IoT and microcontrollers to control environmental properties. It detects and controls the home environment through IoT devices and monitors the management of environmental changes through mobile devices or web pages. The study [9] develops remote controls and microcontrollers with Android mobile phones to implement the control system on Arduino Uno and connect via WiFi to create a smart home control system. This system provides functions such as turning lights on and off, opening and closing doors to the house, turning water taps on and off, and monitoring the status of the house through video surveillance. The test results of home prototypes with Android mobile phones show us that the control distance of home electronic devices is up to 150m, and the media can directly monitor the status of the home through CCTV at a distance of 100m from the screen. 10] Work to make your home environmentally friendly. The system enables users to manage power consumption and reduce costs by controlling lighting, irrigation and consumption monitoring. Mobility and smartphone technology allow users to manage their electronic devices at home through smartphones. Remote control of devices allows users to complete control before leaving home. The proposed prototype for a home control system allows users to remotely turn on or off any device in the IoT through an advanced solar charger. However, IoT is typically characterized by widely distributed devices with limited processing options and storage. These IoT devices face performance, reliability, privacy and security issues [11]. In addition, it lacks an automatic function that monitors the indoor climate of the smart home in real time to maintain the optimal environment for the resident.
There is a paradigm that involves a large network with unlimited storage capacity and computing power called cloud computing. In addition, it provides flexibility to data managed by cloud computing through dynamic data combinations from different data sources [12]. IoT has reliability, security, privacy, and performance challenges that are exacerbated by limited capabilities such as computing power and storage. The combination of IoT with cloud computing is a solution to deal with many problems [13]. In addition, the cloud is user-friendly and reduces costs for end users using applications and services. With the cloud, the IoT data collection and processing process is simplified, providing fast and cost-effective organization and integration for comprehensive data processing and provisioning [14]. Research [15] suggests the use of several IoT devices with some digital assistants provided by Amazon, Google, Apple or Microsoft to receive voice commands from people who have physical disabilities to control smart home devices. Research [16] introduces a small home IoT convection device with an implemented system that provides remote control. To provide a comfortable environment to the occupant, the control module collects data from sensors and occupants to calculate the desired environmental parameters and transmits the results to the IoT convection system. Cloud computing is used to store all data collected from IoT sensors and generate optimal parameters for thermal comfort in the home. The system enables users to adjust the temperature in the smart home not only from a smartphone or web page, but also from the local home network system. However, security is an issue in the integration of IoT and cloud computing. Since IoT devices and the cloud are connected through the Internet, there are many opportunities for attacks on both IoT.
Exploring The Edge Computing And Iot
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