Based on a sample of 50441 independent UK companies of all sizes covering all sectors of the UK economy, the size distribution of companies is close to lognormal, even though the hypothesis of lognormality can be rejected statistically. A Zipf plot shows that the Pareto distribution is a poor fit to the upper 5% tail.
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The size distribution of business firms is explained using number and size of firms' constituent com...
Based on a sample of 50 441 independent UK companies of all sizes covering all sectors of the UK eco...
The proper characterization of the size distribution of business firms represents an important issue...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The size distribution of business firms is explained using number and size of firms' constituent com...
Based on a sample of 50 441 independent UK companies of all sizes covering all sectors of the UK eco...
The proper characterization of the size distribution of business firms represents an important issue...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The upper tail of the firm size distribution is often assumed to follow a Power Law. Several recent ...
The size distribution of business firms is explained using number and size of firms' constituent com...
DOI
Add to ORKG