Wireless Communication using Shortest Job First Scheduling Algorithm for Temporary Network
Mental Health Support App with Mood Tracking and Resources
Centralized E-Warranty System with Blockchain Security
Development of Mobile-Based Application of Crime Reporting and Handling in Malawi Police Service
Rural Well Water Management and Monitoring System
Exploring the Adoption of Blockchain Technology in Africa: Insights from Direct Observation and Literature Review
Development of Mobile App for the Soil Classification
Emerging Technologies in Interaction with Mobile Computing Devices – A Technology Forecast
Using the Arduino Platform for Controlling AC Appliances with GSM Module and Relay
Applications of Wearable Technology in Elite Sports
Evaluation of Mobile Banking Services Usage in Minna, Niger State
Smartphone Applications–A Comparative Study BetweenOlder And Younger Users
Technological Diffusion of Near Field Communication (NFC)
Touchscreen and Perceived Usability: A Comparison of Attitudes between Older and Younger Mobile Device Users
A Review on Routing Protocols for Mobile Adhoc Networks
Applications of Wearable Technology in Elite Sports
Unexpected water shortages are common, especially in densely populated areas and homes. Water supply is carried out from a reservoir located on the roof of the building. Apparently, there is no early warning system that allows monitoring of the water level in the tank at a critical level. This situation occurs when there is no one to monitor the water level. People face such problems when the need for water is greater and when there is a large crowd of people. This paper proposes a solution for a water monitoring system using a Global System for Mobile communication (GSM) network to avoid such manual control problems. In this prototype, a water level message will be sent to a person whose mobile phone is connected to the GSM network so that the water level in the tank can be monitored and known. The pumping system automatically switches off when the water reaches its maximum level.
The aim of this paper is to create a remote-controlled home automation system using a mobile phone. One of the newest trends in home appliance control is home automation. Traditional wall switches are located throughout the home and must be physically pressed to turn ON or OFF loads. It is extremely difficult for the elderly or disabled. This technology is designed to enable mobile phone users to control home appliances by dialing a specific number. The advantage of the Dual-Tone Multi-Frequency (DTMF) system is that it can be controlled remotely from a distance, which reduces the burden on a person. Two mobile phones make up a DTMF based system, one phone serves as a remote control and the other as a receiver. Unlike conventional infrared and Radio Frequency (RF) controllers, it may be used to switch devices from anywhere. The device has an MT8870 DTMF decoder, which decodes DTMF tones. This proposed system gives a new direction to the development of home automation.
Smart home systems have gained a lot of popularity in recent decades as it increases the comfort and quality of life. The most amazing home systems are due to mobile phones and microcontrollers. Mobile control-based apps have screen limitations but are easy to manage. An insightful look at the smart home, broken down into different applications based on the Internet of Things (IoT). This IoT framework establishes a set of sensors, actuators, a system manager, platforms, and associated control devices. This paper discusses the four-layer IoT architecture, IoT paradigms, issues, and challenges.
It is undeniable that the significance of mobile phones in our daily life and activities is endless. The reason for this is because the mobile phone is undergoing a huge transformation and is no longer the normal communication device of the past. It has become a huge concern for entities and industries alike due to the variety of incredible features and openings that mobile phones offer. This study sounds to explore the use of mobile phone services in educational settings, banking systems, irrigation facilities, women's safety, etc., and explore the nature of mobile use in today's society. This review talks about mobile phone applications and their challenges used by mobile internet users and various applications. Today, given the large number of mobile phones and users, the security of mobile applications is very important. Identifying these challenges will assist the industries to be ready for efficient mobile application development and enable them in the successful completion of mobile application development projects. It is recommended that practitioners would contribute more attention to the frequently mentioned challenges identified in academia and industry. In future, more empirical studies are needed to revise the existing studies with more diverse practitioners.
Mobile Ad-hoc Networks (MANETs) will be very important for the Internet of Things (IoT). MANET is a decentralized selforganizing wireless network. Every device in MANET is completely free and can move in any direction. The interaction of the Internet of Things with wireless sensors and Mobile Ad-hoc Networks allows for the development of a new MANET-IoT framework. Innovative MANET-IoT systems are created through the interaction between Wireless Sensor Networks (WSN) and the IoT, which creates numerous design difficulties. Several application domains use MANET-based IoT systems. These systems increase user mobility while reducing costs. At the same time, new complex problems are emerging in the area of networking. This paper analyzes the literature on various MANET-IoT applications using wireless sensor networks (WSNs).