Abstract Background Widespread availability of geographic information systems software has facilitated the use of disease mapping in academia, government and private sector. Maps that display the address of affected patients are often exchanged in public forums, and published in peer-reviewed journal articles. As previously reported, a search of figure legends in five major medical journals found 19 articles from 1994–2004 that identify over 19,000 patient addresses. In this report, a method is presented to evaluate whether patient privacy is being breached in the publication of low-resolution disease maps. Results To demonstrate the effect, a hypothetical low-resolution map of geocoded patient addresses was created and the accuracy with wh...
Background: Knowledge of the geographical locations of individuals is fundamental to the practice of...
In response to the widespread concern about the adequacy, distribution, and disparity of access to a...
Background: Collecting data on the localization of users is a key issue for the MASK (Mobile Airways...
Copyright © 2014 Paul A. Zandbergen.This is an open access article distributed under the Creative Co...
Abstract Background: General practitioner (GP) practices in Australia are increasingly storing patie...
Public health datasets increasingly use geographic identifiers such as an individual’s address. Geoc...
A major challenge in mapping health data is protecting patient privacy while maintaining the spatial...
Background: Knowledge of the geographical locations of individuals is fundamental to the practice of...
The importance of geography as a source of variation in health research continues to receive sustain...
A major challenge in mapping health data is protecting patient privacy while maintaining the spatial...
The importance of geography as a source of variation in health research continues to receive sustain...
Background Maintaining patient privacy when geocoding and linking residential address information wi...
Geomasking is used to provide privacy protection for individual address information while maintainin...
To balance the protection of geo-privacy and the accuracy of spatial patterns, we developed a geo-sp...
Abstract Background A linear programming (LP) model w...
Background: Knowledge of the geographical locations of individuals is fundamental to the practice of...
In response to the widespread concern about the adequacy, distribution, and disparity of access to a...
Background: Collecting data on the localization of users is a key issue for the MASK (Mobile Airways...
Copyright © 2014 Paul A. Zandbergen.This is an open access article distributed under the Creative Co...
Abstract Background: General practitioner (GP) practices in Australia are increasingly storing patie...
Public health datasets increasingly use geographic identifiers such as an individual’s address. Geoc...
A major challenge in mapping health data is protecting patient privacy while maintaining the spatial...
Background: Knowledge of the geographical locations of individuals is fundamental to the practice of...
The importance of geography as a source of variation in health research continues to receive sustain...
A major challenge in mapping health data is protecting patient privacy while maintaining the spatial...
The importance of geography as a source of variation in health research continues to receive sustain...
Background Maintaining patient privacy when geocoding and linking residential address information wi...
Geomasking is used to provide privacy protection for individual address information while maintainin...
To balance the protection of geo-privacy and the accuracy of spatial patterns, we developed a geo-sp...
Abstract Background A linear programming (LP) model w...
Background: Knowledge of the geographical locations of individuals is fundamental to the practice of...
In response to the widespread concern about the adequacy, distribution, and disparity of access to a...
Background: Collecting data on the localization of users is a key issue for the MASK (Mobile Airways...