Software Package Coordinates Response to Biological Threats

Having the necessary information at hand is key to saving lives in any biological event, whether it be flu or a biological release. Argonne scientists are using their skills in software integration to provide a decision-making system for state and local emergency managers.

The system, Biological Warning and Incident Characterization (BWIC), is currently being tested in two major U.S. cities. It is a support system for timely warning attack assessment, communications and effective response in the event of a biological attack. Funded by the Department of Homeland Security, BWIC is an integral part of the agency’s BioWatch program.

Argonne computer scientists have taken a diverse group of computer modeling programs, written in a variety of computer languages by research teams at a number of national laboratories, and integrated them to work seamlessly for an entire emergency response team. They also developed the main BWIC Situational Awareness Tool that keeps the emergency manager apprised of the latest estimates determined by analysts using modeling components.

“The BWIC package,” explained Pam Sydelko “is designed to be an easy-to-use collaborative modeling and analysis system.” Sydelko is group leader of the Modeling, Simulations and Visualization Group in Argonne’s Decision and Information Sciences Division.

“BWIC is built upon a highly modular and flexible computer framework we’ve developed here to integrate diverse computer modeling tools (written in disparate computer languages) so that they seem like one seamless decision support system with one consistent user interface,” Sydelko said.

The package provides a common view of the event as it evolves to all agencies involved. Cities will have an assigned set of BWIC users who each have access to his or her personal BWIC analysis workspace. A special user, called the BWIC Operational System Supervisor (BOSS) has access to all of the information and has specialized tools for exporting data and information to other jurisdictions and agencies; others users may have access to only certain data or analysis tools, as needed.

Analysts with specific expertise such as public health, environment or emergency management can perform their own analysis, view each others analysis results and update the BOSS command screen with information.

“BWIC allows the people who need to know the information to have it as soon as possible,” Sydelko explained. “It provides for timely and reliable warning and supplies tools to identify the population at risk.”

The BWIC system is updated with live data from BioWatch and Postal Service Bio-Defense System monitoring and meteorological data at the local level. It provides these data for use in a variety of modeling and analysis tools. These tools include:

* Geographical information system maps,

* Air dispersion models,

* Day and night population information based on census data,

* Epidemiological forecasting tool,

* Subway and facility interior models,

* Links to public health surveillance information.

As part of the BioWatch program, biological data is collected regularly from many stations around a city, processed and entered into the system. If a hazardous bioagent is found, local and state responders go to work using BWIC to begin assembling data to support decision-makers.

For example, analysts use modeling components and gather information in their “sandboxes” that are available to others who might need to see their latest estimates. For example, the public health officer posts updates of which hospitals are receiving patients with symptoms that fit the biological agent that was detected.

Then, the environmental expert uses the data to refine the air dispersion model to make estimates of what areas may be affected next. As the situation evolves, each update is sent to the emergency commander.

Argonne’s role was to develop the BWIC Situational Awareness Tool and to integrate all the component parts into a software package that works together easily.