Weather reporting system consist multiple devices which are playing dynamic role in producing dynamic environmental parameters such as temperature, humidity, and air pollution. It was a tedious task to bring all the devices together and make them interleaving to produce relevant measurement. Recent trends have proven that the IoT has brought all the devices and peripherals in one place to make more flexible and smart measurement. In the traditional weather monitoring system measurement method is not real time, not continuous and also tedious job to take continuous measurement. But, the IoT has completely changed the measurement scenario and improved the consistency of the measurement. In the present work the environmental parameters such rainfall, temperature, humidity, and density of carbon dioxide in the air are measured with sensors. The Arduino Uno card gathers all information from the devices which are associated with its port pins. The information is sent to cloud server for record and future retrieving. At the same time the data security in cloud been assured with encryption and decryption data while retrieving the information from cloud. This enhances the security, ease of accessing the cloud data from mobile applications, provides wise predictions and minimizes the communication overhead.
In IoT researches are found millions of devices are connected in global digital infrastructure framed in network fashion. Most of the things on the network use cloud or central database to share their data and control signals to control and manage the devices on the IoT network. Devices on the network need fast traversing paths, to take correct decision in right time. The data synchronization between source and destination is very important in real time parameter maintenance. The multidimensional parametric evaluation of the environment or the surrounding area is facing problems with data synchronization and congestion in the sensor network. This will lead arrival of fault data at the destination. The fault data also leads a misconception at user end. In the present work pipeline integration is proposed to overcome the misconception and synchronization failures. The pipeline and Arduino UNO processor are integrated on Proteus simulation tool. Transducer nodes and the functionalities are analysed with pipeline.
Abstract-In the years, optical communication systems have been using significantly for attractive solutions to the increasing high data rate in telecommunication systems and various other applications. In the present days mostly, two types of communication schemes are using in data communication, namely asynchronous transmission and synchronous transmission depending on their timing and frame format. But both transmission systems are facing complications seriously with the involvement of jitter in data propagation. The jitter can degrade the performance of a transmission system by introducing bit errors and uncontrolled offsets or displacements in the digital signals. The jitter creates problems furiously at high data rate systems. The jitter need to be minimized in the communication system, otherwise it also degrades the performance of the interconnected systems with main circuit. This will happen due to improper synchronization or management of the clock scheme in the communication system. The improper organization of clock scheme propagates fault data and clock scheme to all other interconnected circuits. In the present work a new clock scheme is discussed to minimize the jitter in data propagation.
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