Keywords and phrases: classical statistics, uncertainty, imprecise data, sensor, neutrosophic statistics.
Received: September 28, 2023; Accepted: November 21, 2023; Published: December 4, 2023
How to cite this article: Usama Afzal, Mohammed Albassam and Muhammad Aslam, Neutrosophic statistical method to analyze humidity sensor data with PLA films, Advances and Applications in Statistics 91(1) (2024), 13-26. http://dx.doi.org/10.17654/0972361724002
This Open Access Article is Licensed under Creative Commons Attribution 4.0 International License
References: [1] U. Afzal, F. Afzal, K. Maryam and M. Aslam, Fabrication of flexible temperature sensors to explore indeterministic data analysis for robots as an application of Internet of Things, RSC Adv. 12 (2022), 17138-17145. doi:10.1039/D2RA03015B. [2] U. Afzal, J. Afzal and M. Aslam, Analyzing the imprecise capacitance and resistance data of humidity sensors, Sensors and Actuators B: Chemical (2022), 132092. [3] U. Afzal, N. Ahmad, Q. Zafar and M. Aslam, Fabrication of a surface type humidity sensor based on methyl green thin film, with the analysis of capacitance and resistance through neutrosophic statistics, RSC Adv. 11(61) (2021), 38674-38682. [4] U. Afzal, H. Alrweili, N. Ahamd and M. Aslam, Neutrosophic statistical analysis of resistance depending on the temperature variance of conducting material, Sci. Rep. 11(1) (2021), 23939. doi:10.1038/s41598-021-03347-z. [5] U. Afzal, M. Aslam, F. Afzal, K. Maryam, N. Ahmad, Q. Zafar and Z. Farooq, Fabrication of a graphene-based sensor to detect the humidity and the temperature of a metal body with imprecise data analysis, RSC Adv. 12 (2022), 21297-21308. [6] U. Afzal, M. Aslam and A. H. Al-Marshadi, Analyzing imprecise graphene foam resistance data, Materials Research Express 9(4) (2022), 9 pp. [7] M. Aslam, Design of the Bartlett and Hartley tests for homogeneity of variances under indeterminacy environment, Journal of Taibah University for Science 14(1) (2020), 6-10. [8] M. Aslam, Enhanced statistical tests under indeterminacy with application to earth speed data, Earth Science Informatics 14(3) (2021), 1261-1267. [9] C. Chen, X. Wang, M. Li, Y. Fan and R. Sun, Humidity sensor based on reduced graphene oxide/lignosulfonate composite thin-film, Sensors and Actuators B: Chemical 255 (2018), 1569-1576. [10] J. Chen, J. Ye and S. Du, Scale effect and anisotropy analyzed for neutrosophic numbers of rock joint roughness coefficient based on neutrosophic statistics, Symmetry 9(10) (2017), 208. [11] B. Davaji, H. D. Cho, M. Malakoutian, J.-K. Lee, G. Panin, T. W. Kang and C. H. Lee, A patterned single layer graphene resistance temperature sensor, Sci. Rep. 7(1) (2017), 1-10. [12] J. Estupiñán Ricardo, J. J. Domínguez Menéndez, I. F. Barcos Arias, J. M. Macías Bermúdez and N. Moreno Lemus, Neutrosophic K-means for the analysis of earthquake data in Ecuador, Neutrosophic Sets and Systems 44(1) (2021), 29. [13] M. G. González Chico, N. Hernández Bandera, S. Herrera Lazo and N. Laica Sailema, Assessment of the relevance of intercultural medical care. Neutrosophic sampling, Neutrosophic Sets and Systems 44(1) (2021), Article: 46. [14] D.-U. Kim and B. Yoo, A novel electropolymerization method for Ppy nanowire-based NH3 gas sensor with low contact resistance, Sensors and Actuators B: Chemical 160(1) (2011), 1168-1173. [15] G. J. Klir and B. Yuan, Fuzzy Sets, Fuzzy Logic, and Fuzzy Systems, Selected papers by Lotfi A Zadeh, World Scientific, Vol. 6, 1996. [16] A. Muhammad, A new attribute sampling plan using neutrosophic statistical interval method, Complex and Intelligent Systems 5(4) (2019), 365-370. [17] H. Nazemi, A. Joseph, J. Park and A. Emadi, Advanced micro- and nano-gas sensor technology: a review, Sensors 19(6) (2019), 1285. [18] R. A. K. Sherwani, H. Shakeel, W. B. Awan, M. Faheem and M. Aslam, Analysis of COVID-19 data using neutrosophic Kruskal Wallis H test, BMC Medical Research Methodology 21(1) (2021), 1-7. [19] F. Smarandache, Multispace and Multistructure. Neutrosophic Transdisciplinarity (100 Collected Papers of Science), Infinite Study, Vol. 4, 2010. [20] F. Ubaid, Z. Ahmad, R. Shakoor and A. M. A. Mohamed, Surface engineering of the PLA films for fabricating dexterous humidity sensors, Journal of Materials Science: Materials in Electronics 29(10) (2018), 8135-8141. [21] Y.-F. Wang, T. Sekine, Y. Takeda, K. Yokosawa, H. Matsui, D. Kumaki, T. Shiba, T. Nishikawa and S. Tokito, Fully printed PEDOT: PSS-based temperature sensor with high humidity stability for wireless healthcare monitoring, Sci. Rep. 10(1) (2020), 2467.
|