transmitter subunit to convert and transmit glucose dependent signal from the sensors to a remote data acquisition system. The telemetry-instrumentation system consists of two amperometric sensors: one oxygen and one glucose biosensor and two potentiostats for biasing the sensors, an instrumentation amplifier to subtract and amplify sensor output signals, and a signal. This paper describes the development of a compact, low power, implantable system for in vivo monitoring of oxygen and glucose concentrations. This system helps in determining the leak location and the leak flow rate. Transient simulation model is developed using LabVIEW and equations are formulated by observing the changes in the continuity equation and law of conservation of momentum. Also, the dynamic parameters such as pressure and flow at the upstream and downstream of the pipe are acquired. The LabVIEW GUI will monitor the values and take suitable action based on whether the concentration is in normal, precaution or critical range. The sensor will detect the concentration of the gas and sent to the Arduino UNO as voltage output. For the development of this system, the gas sensor (MQ6) is used for detection of gas (here, LPG) and for measuring humidity and temperature, the sensor (DHT11) is used. In order to detect and locate such leaks within short period of time, leakage detection plays a key role in the pipeline management system. However, internal and external corrosion at construction joints, cracking, locations with imperfections, accidents or sabotage can lead to pipeline leakage causing explosions, health problems, fatalities, pollution and huge economic losses. Going through the projects of this book will allow you to automate your Arduino projects without writing a single line of code, therefore creating complex projects in little time.Pipelines are one of the most reliable means of transport of water, crude oil, natural gas and other petroleum products. Then, the book dives into more complex projects, such as building a weather measurement station, making a simple alarm system, and controlling a mobile robot wirelessly via LabVIEW. For example, you will learn how to control a motor from the LabVIEW interface. The book starts with some basic projects that you will create in order to learn how to interface LabVIEW and Arduino. You will learn how to use LabVIEW to control your Arduino projects simply by dragging and dropping blocks in LabVIEW. This book covers several projects that you can build using LabVIEW and Arduino.
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January 2023
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