Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

This holds true both for individuals as well as whole tagging communities.

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This holds true both for individuals as well as whole tagging communities.

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This holds true both for individuals as well as whole tagging communities.

Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

This holds true both for individuals as well as whole tagging communities.

Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

This holds true both for individuals as well as whole tagging communities.

Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

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Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

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Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

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Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

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Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

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Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.

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Most notably, it has been confirmed in many empirical studies on tagging(see e.g. [Golder:2005, Hotho:2006, Cattuto:2006]), that tag distributions tend follow a power law—a small number of tags is used very often, while a very large number of tags occurs very rarely.