For each thesis, ED3C sets up a thesis monitoring committee made up of the thesis supervisor and two scientists from outside the laboratory. This committee meets once with the doctoral student to examine the progress made with the thesis at the start of the 2nd year. A report is sent to the director of ED3C. A second thesis committee meeting can be organized at the start of the 3rd year if requested by the experts from 1st thesis committee, the doctoral student, the supervisor or the director of ED3C.
Project Preparation), in which students develop the strategy for a major independent project (ARCH 6. Urban Design and Housing Research Report) to be completed in the summer term. Ph. D. The minimum residence requirement is three years. Every year only a few students are accepted into the Ph. D. The most qualified students enter into their first research seminar in September. Doctoral candidates must have their thesis proposal (ARCH 7. A Thesis Advisory Committee is then struck and is responsible for monitoring the student’s research.
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Wireless sensor networks (WSN) deployed for the purpose of environmental monitoring are becoming increasingly popular. This research examines the use of WSNs for the application of studying the hydrologic cycle with respect to the soil-plant-atmosphere continuum. The goal was to pair WSN technology with inexpensive hydrological sensors for the purpose of affordable and reliable environmental monitoring. This work encompasses the design, construction, and calibration of sap flow sensors; an examination into the power characteristics of the environmental sensors used to study hydrology and the wireless motes used to communicate data in the WSN; the results from deploying a pilot WSN test bed; the deployment, maintenance, and findings of a main WSN test bed; and the primarily results from the processed environmental sensor data. Lab experiments were used to determine an optimal sampling rate of environmental sensors, which was a compromise between the battery life of the motes and the temporal resolution of the environmental measurements. Based on the sampling rate, it was determined that the thermal dissipation sap flow method was the most practical for WSN applications. For the purposes of large-scale deployments, lab-made sap flow sensors provide a comparable cost-effective alternative to their commercial counterparts. Environmental monitoring of soil moisture, soil water potential, and sap flow was successful and exhibited spatial distributions and temporal changes within the main test bed. Analysis of the WSN communication revealed numerous factors impact network stability. While environmental monitoring through WSNs is feasible, its practicality is dependent on numerous variables.