How to reduce predictors the right way for a logistic regression model












4












$begingroup$


So I have been reading some books (or parts of them) on modeling (F. Harrell's "Regression Modeling Strategies" among others), since my current situation right now is that I need to do a logistic model based on binary response data. I have both continuous, categorical, and binary data (predictors) in my data set. Basically I have around 100 predictors right now, which obviously is way too many for a good model. Also, many of these predictors are kind of related, since they are often based on the same metric, although a bit different.



Anyhow, what I have been reading, using univariate regression and step-wise techniques is some of the worst things you can do in order to reduce the amount of predictors. I think the LASSO technique is quite okay (if I understood that correctly), but obviously you just can't use that on 100 predictors and think any good will come of that.



So what are my options here ? Do I really just have to sit down, talk to all my supervisors, and smart people at work, and really think about what the top 5 best predictors could/should be (we might be wrong), or which approach(es) should I consider instead ?



And yes, I also know that this topic is heavily discussed (online and in books), but it sometimes seems a bit overwhelming when you are kind of new in this modeling field.










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    4












    $begingroup$


    So I have been reading some books (or parts of them) on modeling (F. Harrell's "Regression Modeling Strategies" among others), since my current situation right now is that I need to do a logistic model based on binary response data. I have both continuous, categorical, and binary data (predictors) in my data set. Basically I have around 100 predictors right now, which obviously is way too many for a good model. Also, many of these predictors are kind of related, since they are often based on the same metric, although a bit different.



    Anyhow, what I have been reading, using univariate regression and step-wise techniques is some of the worst things you can do in order to reduce the amount of predictors. I think the LASSO technique is quite okay (if I understood that correctly), but obviously you just can't use that on 100 predictors and think any good will come of that.



    So what are my options here ? Do I really just have to sit down, talk to all my supervisors, and smart people at work, and really think about what the top 5 best predictors could/should be (we might be wrong), or which approach(es) should I consider instead ?



    And yes, I also know that this topic is heavily discussed (online and in books), but it sometimes seems a bit overwhelming when you are kind of new in this modeling field.










    share|cite|improve this question











    $endgroup$















      4












      4








      4





      $begingroup$


      So I have been reading some books (or parts of them) on modeling (F. Harrell's "Regression Modeling Strategies" among others), since my current situation right now is that I need to do a logistic model based on binary response data. I have both continuous, categorical, and binary data (predictors) in my data set. Basically I have around 100 predictors right now, which obviously is way too many for a good model. Also, many of these predictors are kind of related, since they are often based on the same metric, although a bit different.



      Anyhow, what I have been reading, using univariate regression and step-wise techniques is some of the worst things you can do in order to reduce the amount of predictors. I think the LASSO technique is quite okay (if I understood that correctly), but obviously you just can't use that on 100 predictors and think any good will come of that.



      So what are my options here ? Do I really just have to sit down, talk to all my supervisors, and smart people at work, and really think about what the top 5 best predictors could/should be (we might be wrong), or which approach(es) should I consider instead ?



      And yes, I also know that this topic is heavily discussed (online and in books), but it sometimes seems a bit overwhelming when you are kind of new in this modeling field.










      share|cite|improve this question











      $endgroup$




      So I have been reading some books (or parts of them) on modeling (F. Harrell's "Regression Modeling Strategies" among others), since my current situation right now is that I need to do a logistic model based on binary response data. I have both continuous, categorical, and binary data (predictors) in my data set. Basically I have around 100 predictors right now, which obviously is way too many for a good model. Also, many of these predictors are kind of related, since they are often based on the same metric, although a bit different.



      Anyhow, what I have been reading, using univariate regression and step-wise techniques is some of the worst things you can do in order to reduce the amount of predictors. I think the LASSO technique is quite okay (if I understood that correctly), but obviously you just can't use that on 100 predictors and think any good will come of that.



      So what are my options here ? Do I really just have to sit down, talk to all my supervisors, and smart people at work, and really think about what the top 5 best predictors could/should be (we might be wrong), or which approach(es) should I consider instead ?



      And yes, I also know that this topic is heavily discussed (online and in books), but it sometimes seems a bit overwhelming when you are kind of new in this modeling field.







      logistic predictive-models modeling predictor






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      edited 2 hours ago









      Ben Bolker

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      Denver DangDenver Dang

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          $begingroup$

          +1 for "sometimes seems a bit overwhelming". It really depends (as Harrell clearly states; see the section at the end of Chapter 4) whether you want to do





          • confirmatory analysis ($to$ reduce your predictor complexity to a reasonable level without looking at the responses, by PCA or subject-area considerations or ...)


          • predictive analysis ($to$ use appropriate penalization methods). Lasso could very well work OK with 100 predictors, if you have a reasonably large sample. Feature selection will be unstable, but that's OK if all you care about is prediction. I have a personal preference for ridge-like approaches that don't technically "select features" (because they never reduce any parameter to exactly zero), but whatever works ...



            You'll have to use cross-validation to choose the degree of penalization, which will destroy your ability to do inference (construct confidence intervals on predictions) unless you use cutting-edge high-dimensional inference methods (e.g. Dezeure et al 2015; I have not tried these approaches but they seem sensible ...)




          • exploratory analysis: have fun, be transparent and honest, don't quote any p-values.






          share|cite|improve this answer









          $endgroup$





















            0












            $begingroup$

            There are many different approaches. What I would recommend is trying some simple ones, in the following order:




            • L1 regularization (with increasing penalty; the larger the regularization coefficient, the more features will be eliminated)

            • Recursive Feature Elimination (https://scikit-learn.org/stable/modules/feature_selection.html#recursive-feature-elimination) -- removes features incrementally by eliminating the features associated with the smallest model coefficients (assuming that those are the least important once; obviously, it's very crucial here to normalize the input features)

            • Sequential Feature Selection (http://rasbt.github.io/mlxtend/user_guide/feature_selection/SequentialFeatureSelector/) -- removes features based on how important they are for predictive performance






            share|cite|improve this answer








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            resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.






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              2 Answers
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              2 Answers
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              3












              $begingroup$

              +1 for "sometimes seems a bit overwhelming". It really depends (as Harrell clearly states; see the section at the end of Chapter 4) whether you want to do





              • confirmatory analysis ($to$ reduce your predictor complexity to a reasonable level without looking at the responses, by PCA or subject-area considerations or ...)


              • predictive analysis ($to$ use appropriate penalization methods). Lasso could very well work OK with 100 predictors, if you have a reasonably large sample. Feature selection will be unstable, but that's OK if all you care about is prediction. I have a personal preference for ridge-like approaches that don't technically "select features" (because they never reduce any parameter to exactly zero), but whatever works ...



                You'll have to use cross-validation to choose the degree of penalization, which will destroy your ability to do inference (construct confidence intervals on predictions) unless you use cutting-edge high-dimensional inference methods (e.g. Dezeure et al 2015; I have not tried these approaches but they seem sensible ...)




              • exploratory analysis: have fun, be transparent and honest, don't quote any p-values.






              share|cite|improve this answer









              $endgroup$


















                3












                $begingroup$

                +1 for "sometimes seems a bit overwhelming". It really depends (as Harrell clearly states; see the section at the end of Chapter 4) whether you want to do





                • confirmatory analysis ($to$ reduce your predictor complexity to a reasonable level without looking at the responses, by PCA or subject-area considerations or ...)


                • predictive analysis ($to$ use appropriate penalization methods). Lasso could very well work OK with 100 predictors, if you have a reasonably large sample. Feature selection will be unstable, but that's OK if all you care about is prediction. I have a personal preference for ridge-like approaches that don't technically "select features" (because they never reduce any parameter to exactly zero), but whatever works ...



                  You'll have to use cross-validation to choose the degree of penalization, which will destroy your ability to do inference (construct confidence intervals on predictions) unless you use cutting-edge high-dimensional inference methods (e.g. Dezeure et al 2015; I have not tried these approaches but they seem sensible ...)




                • exploratory analysis: have fun, be transparent and honest, don't quote any p-values.






                share|cite|improve this answer









                $endgroup$
















                  3












                  3








                  3





                  $begingroup$

                  +1 for "sometimes seems a bit overwhelming". It really depends (as Harrell clearly states; see the section at the end of Chapter 4) whether you want to do





                  • confirmatory analysis ($to$ reduce your predictor complexity to a reasonable level without looking at the responses, by PCA or subject-area considerations or ...)


                  • predictive analysis ($to$ use appropriate penalization methods). Lasso could very well work OK with 100 predictors, if you have a reasonably large sample. Feature selection will be unstable, but that's OK if all you care about is prediction. I have a personal preference for ridge-like approaches that don't technically "select features" (because they never reduce any parameter to exactly zero), but whatever works ...



                    You'll have to use cross-validation to choose the degree of penalization, which will destroy your ability to do inference (construct confidence intervals on predictions) unless you use cutting-edge high-dimensional inference methods (e.g. Dezeure et al 2015; I have not tried these approaches but they seem sensible ...)




                  • exploratory analysis: have fun, be transparent and honest, don't quote any p-values.






                  share|cite|improve this answer









                  $endgroup$



                  +1 for "sometimes seems a bit overwhelming". It really depends (as Harrell clearly states; see the section at the end of Chapter 4) whether you want to do





                  • confirmatory analysis ($to$ reduce your predictor complexity to a reasonable level without looking at the responses, by PCA or subject-area considerations or ...)


                  • predictive analysis ($to$ use appropriate penalization methods). Lasso could very well work OK with 100 predictors, if you have a reasonably large sample. Feature selection will be unstable, but that's OK if all you care about is prediction. I have a personal preference for ridge-like approaches that don't technically "select features" (because they never reduce any parameter to exactly zero), but whatever works ...



                    You'll have to use cross-validation to choose the degree of penalization, which will destroy your ability to do inference (construct confidence intervals on predictions) unless you use cutting-edge high-dimensional inference methods (e.g. Dezeure et al 2015; I have not tried these approaches but they seem sensible ...)




                  • exploratory analysis: have fun, be transparent and honest, don't quote any p-values.







                  share|cite|improve this answer












                  share|cite|improve this answer



                  share|cite|improve this answer










                  answered 2 hours ago









                  Ben BolkerBen Bolker

                  23.4k16393




                  23.4k16393

























                      0












                      $begingroup$

                      There are many different approaches. What I would recommend is trying some simple ones, in the following order:




                      • L1 regularization (with increasing penalty; the larger the regularization coefficient, the more features will be eliminated)

                      • Recursive Feature Elimination (https://scikit-learn.org/stable/modules/feature_selection.html#recursive-feature-elimination) -- removes features incrementally by eliminating the features associated with the smallest model coefficients (assuming that those are the least important once; obviously, it's very crucial here to normalize the input features)

                      • Sequential Feature Selection (http://rasbt.github.io/mlxtend/user_guide/feature_selection/SequentialFeatureSelector/) -- removes features based on how important they are for predictive performance






                      share|cite|improve this answer








                      New contributor




                      resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                      Check out our Code of Conduct.






                      $endgroup$


















                        0












                        $begingroup$

                        There are many different approaches. What I would recommend is trying some simple ones, in the following order:




                        • L1 regularization (with increasing penalty; the larger the regularization coefficient, the more features will be eliminated)

                        • Recursive Feature Elimination (https://scikit-learn.org/stable/modules/feature_selection.html#recursive-feature-elimination) -- removes features incrementally by eliminating the features associated with the smallest model coefficients (assuming that those are the least important once; obviously, it's very crucial here to normalize the input features)

                        • Sequential Feature Selection (http://rasbt.github.io/mlxtend/user_guide/feature_selection/SequentialFeatureSelector/) -- removes features based on how important they are for predictive performance






                        share|cite|improve this answer








                        New contributor




                        resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                        Check out our Code of Conduct.






                        $endgroup$
















                          0












                          0








                          0





                          $begingroup$

                          There are many different approaches. What I would recommend is trying some simple ones, in the following order:




                          • L1 regularization (with increasing penalty; the larger the regularization coefficient, the more features will be eliminated)

                          • Recursive Feature Elimination (https://scikit-learn.org/stable/modules/feature_selection.html#recursive-feature-elimination) -- removes features incrementally by eliminating the features associated with the smallest model coefficients (assuming that those are the least important once; obviously, it's very crucial here to normalize the input features)

                          • Sequential Feature Selection (http://rasbt.github.io/mlxtend/user_guide/feature_selection/SequentialFeatureSelector/) -- removes features based on how important they are for predictive performance






                          share|cite|improve this answer








                          New contributor




                          resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                          Check out our Code of Conduct.






                          $endgroup$



                          There are many different approaches. What I would recommend is trying some simple ones, in the following order:




                          • L1 regularization (with increasing penalty; the larger the regularization coefficient, the more features will be eliminated)

                          • Recursive Feature Elimination (https://scikit-learn.org/stable/modules/feature_selection.html#recursive-feature-elimination) -- removes features incrementally by eliminating the features associated with the smallest model coefficients (assuming that those are the least important once; obviously, it's very crucial here to normalize the input features)

                          • Sequential Feature Selection (http://rasbt.github.io/mlxtend/user_guide/feature_selection/SequentialFeatureSelector/) -- removes features based on how important they are for predictive performance







                          share|cite|improve this answer








                          New contributor




                          resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                          Check out our Code of Conduct.









                          share|cite|improve this answer



                          share|cite|improve this answer






                          New contributor




                          resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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                          answered 2 hours ago









                          resnetresnet

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                          New contributor




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                          New contributor





                          resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                          Check out our Code of Conduct.






                          resnet is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
                          Check out our Code of Conduct.






























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