Relationship Between the Popularity of Key Words in the Google Browser and the Evolution of Worldwide Financial Indices
The purpose of this contribution is to evaluate whether there is enough statistical basis to establish a relationship between the popularity of certain terms in the Google browser and the evolution of several worldwide economic indices the subsequent week. A linear model trying to predict the evolut...
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| description | The purpose of this contribution is to evaluate whether there is enough statistical basis to establish a relationship between the popularity of certain terms in the Google browser and the evolution of several worldwide economic indices the subsequent week. A linear model trying to predict the evolution of 19 financial indices from all over the world with the information of how many times a selected group of 200 key words are looked up online the previous week is proposed. The linear model that is proposed takes a compositional approach due to two reasons. First, the information contained in the values of the financial indices has a compositional nature. The strongest proof supporting this idea is that in case all values for the indices on a certain week were multiplied by a factor, the information would remain unchanged. In fact, the value for a certain index is irrelevant by itself, since it is its evolution with respect to the rest of indices that indicates whether it is performing well. Therefore, this idea suggests that the numerical values of the 19 indices for a certain week can be understood as a vector of the simplex and be analyzed accordingly. Second, the explanatory variable has to be understood as a vector of the simplex as well, for a similar reason as before. For instance, let us imagine that the number of times the words are looked up online in a certain week was multiplied by a factor. Indeed, the information contained in this vector would be exactly the same. Moreover, it seems intuitive as well how the absolute value for the number of searches is irrelevant by itself, since we will be interested in the relationships amongst variables. For the reasons we have just set, a compositional approach seems necessary in order to address the problem successfully, since both the explanatory and predicted variables present a compositional nature. In other words, despite not adding up to a constant, the components of the vectors of both the explanatory and predicted variables seem to be closely related in terms of giving information of a part of a whole, so tackling the problem through a compositional perspective seems appropriate. The analysis consists of an exploratory analysis of both response (indices) and explanatory (searches) variables and a compositional linear multiple regression between both sets of variables. |
| doi_str_mv | 10.1007/978-3-319-44811-4_10 |
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J. ; Ortego, M. I. ; Garola, A.</creator><contributor>Martín-Fernández, Josep Antoni ; Thió-Henestrosa, Santiago ; Thió-Henestrosa, Santiago ; Martín-Fernández, Josep Antoni</contributor><creatorcontrib>Ortells, R. ; Egozcue, J. J. ; Ortego, M. I. ; Garola, A. ; Martín-Fernández, Josep Antoni ; Thió-Henestrosa, Santiago ; Thió-Henestrosa, Santiago ; Martín-Fernández, Josep Antoni</creatorcontrib><description>The purpose of this contribution is to evaluate whether there is enough statistical basis to establish a relationship between the popularity of certain terms in the Google browser and the evolution of several worldwide economic indices the subsequent week. A linear model trying to predict the evolution of 19 financial indices from all over the world with the information of how many times a selected group of 200 key words are looked up online the previous week is proposed. The linear model that is proposed takes a compositional approach due to two reasons. First, the information contained in the values of the financial indices has a compositional nature. The strongest proof supporting this idea is that in case all values for the indices on a certain week were multiplied by a factor, the information would remain unchanged. In fact, the value for a certain index is irrelevant by itself, since it is its evolution with respect to the rest of indices that indicates whether it is performing well. Therefore, this idea suggests that the numerical values of the 19 indices for a certain week can be understood as a vector of the simplex and be analyzed accordingly. Second, the explanatory variable has to be understood as a vector of the simplex as well, for a similar reason as before. For instance, let us imagine that the number of times the words are looked up online in a certain week was multiplied by a factor. Indeed, the information contained in this vector would be exactly the same. Moreover, it seems intuitive as well how the absolute value for the number of searches is irrelevant by itself, since we will be interested in the relationships amongst variables. For the reasons we have just set, a compositional approach seems necessary in order to address the problem successfully, since both the explanatory and predicted variables present a compositional nature. In other words, despite not adding up to a constant, the components of the vectors of both the explanatory and predicted variables seem to be closely related in terms of giving information of a part of a whole, so tackling the problem through a compositional perspective seems appropriate. 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J.</creatorcontrib><creatorcontrib>Ortego, M. I.</creatorcontrib><creatorcontrib>Garola, A.</creatorcontrib><title>Relationship Between the Popularity of Key Words in the Google Browser and the Evolution of Worldwide Financial Indices</title><title>Compositional Data Analysis</title><description>The purpose of this contribution is to evaluate whether there is enough statistical basis to establish a relationship between the popularity of certain terms in the Google browser and the evolution of several worldwide economic indices the subsequent week. A linear model trying to predict the evolution of 19 financial indices from all over the world with the information of how many times a selected group of 200 key words are looked up online the previous week is proposed. The linear model that is proposed takes a compositional approach due to two reasons. First, the information contained in the values of the financial indices has a compositional nature. The strongest proof supporting this idea is that in case all values for the indices on a certain week were multiplied by a factor, the information would remain unchanged. In fact, the value for a certain index is irrelevant by itself, since it is its evolution with respect to the rest of indices that indicates whether it is performing well. Therefore, this idea suggests that the numerical values of the 19 indices for a certain week can be understood as a vector of the simplex and be analyzed accordingly. Second, the explanatory variable has to be understood as a vector of the simplex as well, for a similar reason as before. For instance, let us imagine that the number of times the words are looked up online in a certain week was multiplied by a factor. Indeed, the information contained in this vector would be exactly the same. Moreover, it seems intuitive as well how the absolute value for the number of searches is irrelevant by itself, since we will be interested in the relationships amongst variables. For the reasons we have just set, a compositional approach seems necessary in order to address the problem successfully, since both the explanatory and predicted variables present a compositional nature. In other words, despite not adding up to a constant, the components of the vectors of both the explanatory and predicted variables seem to be closely related in terms of giving information of a part of a whole, so tackling the problem through a compositional perspective seems appropriate. The analysis consists of an exploratory analysis of both response (indices) and explanatory (searches) variables and a compositional linear multiple regression between both sets of variables.</description><subject>Compositional data</subject><subject>Financial markets</subject><subject>Geochemistry</subject><subject>Google searches</subject><subject>Investigació operativa</subject><subject>Matemàtiques i estadística</subject><subject>Multiple linear regression</subject><subject>Optimització</subject><subject>Probability & statistics</subject><subject>Programming (Mathematics)</subject><subject>Stock market indices</subject><subject>Àrees temàtiques de la UPC</subject><issn>2194-1009</issn><issn>2194-1017</issn><isbn>3319448102</isbn><isbn>9783319448107</isbn><isbn>3319448110</isbn><isbn>9783319448114</isbn><isbn>3319448110</isbn><isbn>9783319448114</isbn><fulltext>true</fulltext><rsrctype>book_chapter</rsrctype><creationdate>2016</creationdate><recordtype>book_chapter</recordtype><sourceid>XX2</sourceid><recordid>eNpFkV9vFCEUxfFvXGu_gQ98gdF7gRmGR9u0tbGJxmh8JCzc6aKTYYRZN_32MrvGkhDgHH7n4R7G3iK8QwD93ui-kY1E0yjVIzbKIjxhr2VVjgI8ZRtR7w0C6mePBojn_w0wL9nGdNJIgdq8Yuel_ASo_zshFWzY4SuNbolpKrs48wtaDkQTX3bEv6R5P7oclweeBv6JHviPlEPh8WTfpHQ_Er_I6VAoczeFo3z1J437NW-FKjCGQwzEr-PkJh_dyG-nED2VN-zF4MZC5__OM_b9-urb5cfm7vPN7eWHu8aLFqBRA7WtHghIq-02dND1YNAF6fvedxqpA9EDKNcGNDgEwrpUa7AyHqWQZwxPub7svc3kKXu32OTi42PdArSwUiH0sjLixJQ5x-mest2m9KvU6du1F1t7sdLWYdtjDXbtpULyBM05_d5TWSytlKdpyW70OzcvlItVWnXY1wxhUfXyLwzpi8Q</recordid><startdate>2016</startdate><enddate>2016</enddate><creator>Ortells, R.</creator><creator>Egozcue, J. 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I. ; Garola, A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c2500-4fe557fe0e74bbd6068091ad3c88c671e6028004a5d191fde111145917fec1323</frbrgroupid><rsrctype>book_chapters</rsrctype><prefilter>book_chapters</prefilter><language>eng</language><creationdate>2016</creationdate><topic>Compositional data</topic><topic>Financial markets</topic><topic>Geochemistry</topic><topic>Google searches</topic><topic>Investigació operativa</topic><topic>Matemàtiques i estadística</topic><topic>Multiple linear regression</topic><topic>Optimització</topic><topic>Probability & statistics</topic><topic>Programming (Mathematics)</topic><topic>Stock market indices</topic><topic>Àrees temàtiques de la UPC</topic><toplevel>online_resources</toplevel><creatorcontrib>Ortells, R.</creatorcontrib><creatorcontrib>Egozcue, J. J.</creatorcontrib><creatorcontrib>Ortego, M. 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I.</au><au>Garola, A.</au><au>Martín-Fernández, Josep Antoni</au><au>Thió-Henestrosa, Santiago</au><au>Thió-Henestrosa, Santiago</au><au>Martín-Fernández, Josep Antoni</au><format>book</format><genre>bookitem</genre><ristype>CHAP</ristype><atitle>Relationship Between the Popularity of Key Words in the Google Browser and the Evolution of Worldwide Financial Indices</atitle><btitle>Compositional Data Analysis</btitle><seriestitle>Springer Proceedings in Mathematics & Statistics</seriestitle><date>2016</date><risdate>2016</risdate><volume>187</volume><spage>145</spage><epage>165</epage><pages>145-165</pages><issn>2194-1009</issn><eissn>2194-1017</eissn><isbn>3319448102</isbn><isbn>9783319448107</isbn><isbn>3319448110</isbn><isbn>9783319448114</isbn><eisbn>3319448110</eisbn><eisbn>9783319448114</eisbn><abstract>The purpose of this contribution is to evaluate whether there is enough statistical basis to establish a relationship between the popularity of certain terms in the Google browser and the evolution of several worldwide economic indices the subsequent week. A linear model trying to predict the evolution of 19 financial indices from all over the world with the information of how many times a selected group of 200 key words are looked up online the previous week is proposed. The linear model that is proposed takes a compositional approach due to two reasons. First, the information contained in the values of the financial indices has a compositional nature. The strongest proof supporting this idea is that in case all values for the indices on a certain week were multiplied by a factor, the information would remain unchanged. In fact, the value for a certain index is irrelevant by itself, since it is its evolution with respect to the rest of indices that indicates whether it is performing well. Therefore, this idea suggests that the numerical values of the 19 indices for a certain week can be understood as a vector of the simplex and be analyzed accordingly. Second, the explanatory variable has to be understood as a vector of the simplex as well, for a similar reason as before. For instance, let us imagine that the number of times the words are looked up online in a certain week was multiplied by a factor. Indeed, the information contained in this vector would be exactly the same. Moreover, it seems intuitive as well how the absolute value for the number of searches is irrelevant by itself, since we will be interested in the relationships amongst variables. For the reasons we have just set, a compositional approach seems necessary in order to address the problem successfully, since both the explanatory and predicted variables present a compositional nature. In other words, despite not adding up to a constant, the components of the vectors of both the explanatory and predicted variables seem to be closely related in terms of giving information of a part of a whole, so tackling the problem through a compositional perspective seems appropriate. The analysis consists of an exploratory analysis of both response (indices) and explanatory (searches) variables and a compositional linear multiple regression between both sets of variables.</abstract><cop>Switzerland</cop><pub>Springer International Publishing AG</pub><doi>10.1007/978-3-319-44811-4_10</doi><oclcid>963932179</oclcid><tpages>21</tpages><oa>free_for_read</oa></addata></record> |
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| ispartof | Compositional Data Analysis, 2016, Vol.187, p.145-165 |
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| recordid | cdi_csuc_recercat_oai_recercat_cat_2072_341083 |
| source | Springer Books; Recercat |
| subjects | Compositional data Financial markets Geochemistry Google searches Investigació operativa Matemàtiques i estadística Multiple linear regression Optimització Probability & statistics Programming (Mathematics) Stock market indices Àrees temàtiques de la UPC |
| title | Relationship Between the Popularity of Key Words in the Google Browser and the Evolution of Worldwide Financial Indices |
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