@article { author = {Dehvari, Masoud and Farzaneh, Saeed and Sharifi, Mohammad Ali}, title = {The Retrieval of Wet Refractivity Index by Tomography Using Spherical Cap Harmonics}, journal = {Space Science and Technology}, volume = {15}, number = {ویژه نامه انگلیسی}, pages = {15-24}, year = {2022}, publisher = {Iranian Aerospace Society -Aerospace Research Institute}, issn = {2008-4560}, eissn = {2423-4516}, doi = {10.30699/jsst.2022.1256}, abstract = {In this research, three-dimensional and four-dimensional tomography is used to demonstrate the distribution of wet refractivity index of the troposphere. In this model, spherical cap harmonics are used for the horizontal distribution of the wet refractivity index, and empirical orthogonal functions are used for the vertical distribution of the index. The region of study is in the west California State, and the wet refractivity index is retrieved from the wet tropospheric delay measurements. to validate the results, radiosonde profiles were compared to the tomographically retrieved profiles. The result shows that wet refractivity indices can be retrieved using functional models with RMSE about 2.4 ppm till 3.9 in four-dimension method. The comparisons show that the four-dimensional retrieved profiles shows improvement up to 34 and 42 percentage in mid-day tomography epochs compare to three-dimensional tomography results. Also it can be seen that in mid-night epochs three-dimensional tomography has higher accuracy compare to four-dimension method because of low variation of wet refractivity indices}, keywords = {Empirical Orthogonal Functions,Legendre function,Radiosonde,numerical weather model,tropospheric wet delay}, title_fa = {The Retrieval of wet Refractivity Index by Tomography using Spherical Cap Harmonics}, abstract_fa = {In this research, three-dimensional and four-dimensional tomography is used to demonstrate the distribution of wet refractivity index of the troposphere. In this model, spherical cap harmonics are used for the horizontal distribution of the wet refractivity index, and empirical orthogonal functions are used for the vertical distribution of the index. The region of study is in the west California State, and the wet refractivity index is retrieved from the wet tropospheric delay measurements. to validate the results, radiosonde profiles were compared to the tomographically retrieved profiles. The result shows that wet refractivity indices can be retrieved using functional models with RMSE about 2.4 ppm till 3.9 in four-dimension method. The comparisons show that the four-dimensional retrieved profiles shows improvement up to 34 and 42 percentage in mid-day tomography epochs compare to three-dimensional tomography results. Also it can be seen that in mid-night epochs three-dimensional tomography has higher accuracy compare to four-dimension method because of low variation of wet refractivity indices}, keywords_fa = {Empirical Orthogonal Functions,Legendre function,Radiosonde,numerical weather model,tropospheric wet delay}, url = {https://jsst.ias.ir/article_109639.html}, eprint = {https://jsst.ias.ir/article_109639_5306d4b19a1469bbfc1c7d45947a2bc3.pdf} }