Layout 1 ISDS Annual Conference Proceedings 2012. This is an Open Access article distributed under the terms of the Creative Commons Attribution- Noncommercial 3.0 Unported License (http://creativecommons.org/licenses/by-nc/3.0/), permitting all non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. ISDS 2012 Conference Abstracts Implementation of a Mobile-Based Surveillance System in Saudi Arabia for the 2009 Hajj Wei Li* Centers for Disease Control and Prevention, Atlanta, GA, USA Objective To develop and implement a mobile-based disease surveillance system in the Kingdom of Saudi Arabia (KSA) for the 2009 Hajj; to strengthen public health preparedness for the H1N1 Influenza A pan- demic. Introduction The Hajj is considered to be the largest mass gathering to date, at- tracting an estimated 2.5 million Muslims from more than 160 coun- tries annually (1). The H1N1 Influenza A pandemic of 2009 generated a global wave of concern among public health departments that re- sulted in the institution of preventive measures to limit transmission of the disease. Meanwhile, the pandemic amplified an urgent need for more innovative disease surveillance tools to combat disease out- breaks. A collaborative effort between the KSA Ministry of Health (MOH) and the U.S. Centers for Disease Control and Prevention (CDC) was initiated to implement and deploy an informatics-based mobile solu- tion to provide early detection and reporting of disease outbreaks dur- ing the 2009 Hajj. The mobile-based tool aimed to improve the efficiency of disease case reporting, recognize potential outbreaks, and enhance the MOH’s operational effectiveness in deploying re- sources (2). Methods We designed a case-based system consisting of a mobile-based data collection toolkit and interactive map-based user interface to per- form geospatial analysis and visualization. A train-the-trainer ap- proach was adapted to provide training to the KSA MOH. Results More than 200 public health and information and communication technology (ICT) professionals were trained, and 100 mobile devices were deployed during the 2009 Hajj. Nine diseases and conditions that were considered as highest priority during the Hajj were under surveillance, including H1N1 Influenza A and Influenza-like Illness. Pilot testing of the system was conducted during the first week of Ramadan and a modified system was fully operational during the Hajj. Data collected on smartphones were sent to the system via a se- cured network. The data were processed immediately and visualized on highly interactive maps with local and global views. Conclusions Effective public health decision-making requires timely and accu- rate information from a variety of sources. Mobile-based systems (e.g., personal digital assistants and smartphones) for data collection, transmission, reporting, and analyses provide a faster, easier, and cheaper means to communicate standardized and shareable public health data for decision-making (3). Mobile-based systems have been recognized as a quick and effective response solution to mass gath- erings and recommended as data gathering and communication sys- tems with geographical information system (GIS) capability (2). This paper explored the development and implementation of the Global Positioning System/ Geographic Information System (GPS/GIS) en- abled mobile-based disease surveillance system as a feasible and ef- fective way to support and strengthen preparedness for H1N1 Influenza A during the 2009 Hajj. Mobile computing technology can be utilized to provide rapid and accurate data collection for public health decision-making during mass gatherings. The GIS-based interactive mapping tool provided a pioneering example of the power of a geographically based internet- accessible surveillance system with real-time data visualization. The technical challenges in the process of implementation and in the field were also identified. A need now exists for a comprehensive and comparative review of parameters such as handheld device cost, training required, and sys- tem evaluations because selecting the appropriate software/hardware and system remains a challenge not only to public health profession- als, but to the development and application of informatics technol- ogy as well. Keywords Mobile Technology; GIS/GPS; Mass Gatherings; Surveillance Sys- tem; Public Health Preparedness Acknowledgments Many people contributed to the mobile-based surveillance system’s de- velopment and implementation for the 2009 Hajj. The author would like to acknowledge Dr. Z. Memish and his colleagues at KSA MOH, Mr. C. Gillespie and his colleagues at the U.S. Embassy in KSA, the CDC Foun- dation, and colleagues across CDC. References 1. Memish ZA, Ahmed GA. Mecca bound: the challenges ahead. J. Travel Med 2002; 9:202-10 2. Memish ZA, McNabb S, Mahoney F, et al. Establishment of public health security in Saudi Arabia for the 2009 Hajj in response to pan- demic influenza A H1N1. The Lancet, Published online November 14, 2009; DOI:10.1016/S0140-6736(09)61927-9 3. Yu, P. et al. The development and evaluation of a PDA-based method for public health surveillance data collection in developing countries, Int. J. Med. Inform. (2009; 78(8):532-42 *Wei Li E-mail: for5@cdc.gov Online Journal of Public Health Informatics * ISSN 1947-2579 * http://ojphi.org * 5(1):e137, 2013