The Data Related to Interfacial Shift Keying Allows a High Information Rate in Molecular Communication

This dataset is related to a method for molecular communication in fluids described on "Fluorescent nanoparticles for reliable communication among implantable medical devices," Carbon, vol. 190, pp. 262-275, Apr. 2022, by Federico Calì, Luca Fichera, Giuseppe Trusso Sfrazzetto, Giuseppe Nicotra, Gianfranco Sfuncia, Elena Bruno, Luca Lanzanò, Ignazio Barbagallo, Giovanni Li-Destri, Nunzio Tuccitto; doi: 10.1016/J.CARBON.2022.01.016. The dataset is linked to the manuscript entitled "Interfacial Shift Keying Allows a High Information Rate in Molecular Communication: Methods and Data" by F. Calì, G. Li-Destri, and N. Tuccitto submitted to IEEE Transactions on Molecular, Biological, and Multi-Scale Communications (T-MBMC).The data, including elapsed time (s), starting from the injection and fluorescence intensity (a.u.), is given in tab-separated values format as .txt files. When present, a column includes the intensity subtracted for the baseline and the subtracted and normalized intensity. In all cases, the baseline was obtained by performing a linear fit between 10 and 110 s and subtracting the line obtained from the entire dataset.

本数据集与流体中分子通信的方法相关，该方法由Federico Calì、Luca Fichera、Giuseppe Trusso Sfrazzetto、Giuseppe Nicotra、Gianfranco Sfuncia、Elena Bruno、Luca Lanzanò、Ignazio Barbagallo、Giovanni Li-Destri、Nunzio Tuccitto等人在《Carbon》杂志第190卷第262-275页发表的论文《Fluorescent nanoparticles for reliable communication among implantable medical devices》中描述。该数据集与F. Calì、G. Li-Destri和N. Tuccitto提交至《IEEE Transactions on Molecular, Biological, and Multi-Scale Communications》杂志（T-MBMC）的论文《Interfacial Shift Keying Allows a High Information Rate in Molecular Communication: Methods and Data》相联系。数据包括注射后的经过时间（秒）和荧光强度（a.u.），并以制表符分隔的值格式存储在.txt文件中。当存在时，一列包括用于基线的强度减去值以及减去并归一化的强度。在所有情况下，基线是通过在10至110秒之间进行线性拟合并从整个数据集中减去得到的直线来获得的。