Deepankar Kumar scite author profile

Deepankar Kumar

2Publications

5Citation Statements Received

3Citation Statements Given

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IOT based water level and quality monitoring system in overhead tanks

Rao¹,

Srinija²,

Bindu³

et al. 2018

IJET

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Water is most profitable and valuable source since it is the fundamental need of all the individuals. Now a day we are facing many issues regarding water wastage and quality monitoring in tanks. This paper proposes a proficient method to water level and quality observing in the overhead tanks to lessen the present water wastage and give better water quality. The venture is about overhead tank checking framework that is we screen the level of water in the overhead tank and furthermore we decide nature of water. Firstly, we have the issue of filling the tanks which are situated far, and for this we have executed a little hypothesis that we put level sensors in the tank, that level sensors detect the water level in the tank and sends us message about water level in the tank. Also, the second preferred standpoint is that really, we utilize different quality parameter sensors like pH and turbidity sensors to screen the water quality in the tank. In light of level of water, we can choose how much measure of water is required for specific area and give adequate measure of water as opposed to squandering water. The Raspberry Pi B+ is utilized as core controller. The composed framework applies to an IOT module for getting to sensor information from center controller to cloud. The sensor information can be seen on cloud. At last information will be assembled and through Wi-Fi information can be seen on versatile device through android app. Based on data in the app workers will be sent to clean the tank This proposed framework is a minimal effort, wireless, multi-sensor arrange for exact water monitoring in tanks.

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Leher - Low-Cost Enhanced Hydro-Navigation System Ensuring Real-Time Monitoring of Ships With the Help of Raspberry Pi, Rockblock 9603 Satellite Communication Module and a Couple of Other Sensors

Das¹,

Kumar²,

Dutta³

et al. 2021

ijarcs

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Wrecks are by and large caused because of carelessness in route. As we probably are aware route includes human move in this way mishappen is consistently an opportunity. To decrease this, it is our answer to make a self-governing route-able boat utilizing 'Global Positioning System' support. Latitude and longitude coordinates will allow the boat to decide its precise area on the water body. The coordinates of the destination will be pre-loaded before the flight of the boat. A fanciful way will be resolved between the boat's area and the last area. A magnetometer sensor will be utilized to clarify the geological area of the boat itself to guide the navigation. If there should arise an occurrence of any capricious snag shows up on the radar the boat will be prepared to make an impermanent way to stay away from the deterrent. In the wake of passing the impediment, it will keep on after the recently decided way by following back to the directions that were fixed during setting the last objective directions. The Rockblock 9603 Satellite Communication Module is a special GPS module that can be utilized to send short burst information to the Iridium satellite and back to earth. We will utilize this module to set up a solid association of the boat to the control room. Besides, this module will help us cause the boat to explore independently, with no human intercession.

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Deepankar Kumar

IOT based water level and quality monitoring system in overhead tanks

Leher - Low-Cost Enhanced Hydro-Navigation System Ensuring Real-Time Monitoring of Ships With the Help of Raspberry Pi, Rockblock 9603 Satellite Communication Module and a Couple of Other Sensors

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