Ground Bases Temperature Condition Monitoring System

Student: Koshurnikov Andrei

Supervisor:

Faculty: HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE)

Educational Programme: Electronic Engineering (Master)

Year of Graduation: 2020

In this final qualifying work will talk about Ground bases temperature condition monitoring system. How it can be used to collect temperature data, and from which the main parts of this system is. In the introductory part of the work will provide information on the relevance of the development of this system and how important it is for geological studies in the Russian Arctic sector. The main part of this work will be considered by the data collection system, and what parts it should be, as well as will provide information on the types of sensors, with which you can get temperature data. Also in this part will be considered the most important modules of the complex UWUHAL (UnderWater Universal HydroAcoustic Logger) such as:  Temperature Sensor ADT7410 - the sensor has a suitable temperature measurement range and sensitivity;  Microprocessor MCU CC1310 SimpleLink - the perfect microprocessor technical characteristics, while having a very economical power consumption;  Batteries SAFT LS33600 - the most appropriate battery, with a very large capacity and small size;  Data bus (I2C interface) - the data bus is relevant in that it has a very simple interface and cost effective in relation to its competitors. It will be told about the operation of the software for monitoring the temperature of soils of foundations, and modern approaches to designing databases that optimize storage and exchange of information. Next will be described as conducted testing of the ground bases temperature condition monitoring system in the Shelf of Russian Arctic Seas in real conditions. The same calculations will be made the maximum service life of the most vulnerable parts of the system from the external environment factors. This part will be given of system testing in real conditions in the form of graphs. In the final part of this work will form the conclusion of the work done and suggestions to optimize the complex UWUHAL based on the obtained data on the maximum service life in hard conditions of the Russian Arctic.

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