@inbook{33870, author = {{Balsa, Carlos and Cots, Olivier and Gergaud, Joseph and Wembe Moafo, Boris Edgar}}, booktitle = {{Lecture Notes in Electrical Engineering}}, isbn = {{9783030586522}}, issn = {{1876-1100}}, publisher = {{Springer International Publishing}}, title = {{{Minimum Energy Control of Passive Tracers Advection in Point Vortices Flow}}}, doi = {{10.1007/978-3-030-58653-9_22}}, year = {{2020}}, } @inbook{25950, abstract = {{In this paper, the development and validation of a shield prototype for resistive sensor array characterization with Arduino UNO, a platform based on ATmega328 microcontroller provided by ATMEL, is reported. The resistance variation of the sensor can be evaluated by properly choosing the capacitance value and by measuring the period (frequency) of a custom inverter-based oscillator. The GUI and the developed firmware are able to perform the real-time monitoring of the sensor responses. The developed shield is able to measure the response of up to six sensors under UV radiation by means of LED devices. First results carried out with resistive sensors based on mesoporous In2O3-based material under UV light exposure are reported.}}, author = {{Aloisio, D. and Donato, N. and Neri, G. and Latino, M. and Wagner, T. and Tiemann, Michael and Capra, P. P.}}, booktitle = {{Lecture Notes in Electrical Engineering}}, issn = {{1876-1100}}, title = {{{Arduino-Based Shield for Resistive Gas Sensor Array Characterization Under UV Light Exposure}}}, doi = {{10.1007/978-3-319-00684-0_79}}, year = {{2014}}, } @inbook{1800, author = {{Blanckenstein, Johannes and Garcia-Jimenez, Javier and Klaue, Jirka and Karl, Holger}}, booktitle = {{Lecture Notes in Electrical Engineering}}, isbn = {{9783319030708}}, issn = {{1876-1100}}, pages = {{165--177}}, publisher = {{Springer International Publishing}}, title = {{{A Scalable Redundant TDMA Protocol for High-Density WSNs Inside an Aircraft}}}, doi = {{10.1007/978-3-319-03071-5_18}}, year = {{2013}}, } @inbook{25960, abstract = {{We report on sensing properties of ordered mesoporous nanostructures of In2O3 synthesized by nanocasting procedure towards NO2. The nanostructured material shows improved recover times and higher responses compared to non nanostructured material at low operating temperatures (100–150°C) thus allowing the use for low power NO2 sensors. These properties may be related to fast oxygen in and out propagation facilitated by an enhanced surface accessibility of the nanostructure.}}, author = {{Donato, Nicola and Wagner, Thorsten and Tiemann, Michael and Waitz, Thomas and Kohl, Claus-Dieter and Latino, Mariangela and Neri, Giovanni and Spadaro, Donatella and Malagù, Cesare}}, booktitle = {{Lecture Notes in Electrical Engineering}}, issn = {{1876-1100}}, title = {{{NO2 Sensors with Reduced Power Consumption Based on Mesoporous Indium Oxide}}}, doi = {{10.1007/978-1-4614-0935-9_10}}, year = {{2012}}, }