17 results on '"Lenert, Leslie"'
Search Results
2. Data quality for situational awareness during mass-casualty events.
- Author
-
Demchak B, Griswold WG, and Lenert LA
- Subjects
- Humans, Internet, Quality Control, Rescue Work organization & administration, User-Computer Interface, Disasters, Emergency Medical Service Communication Systems standards, Emergency Medical Services organization & administration, Information Systems standards
- Abstract
Incident Command systems often achieve situational awareness through manual paper-tracking systems. Such systems often produce high latencies and in-complete data, resulting in inefficient and ineffective resource deployment. WIISARD (Wireless Internet Information System for Medical Response in Disasters) collects much more data than a paper-based system, dramatically reducing latency while increasing the kinds and quality of information available to incident commanders. Yet, the introduction of IT into a disaster setting is not problem-free. Notably, system component failures can delay the delivery of data. The type and extent of a failure can have varying effects on the usefulness of information displays. We describe a small, coherent set of customizble information overlays to address this problem, and we discuss reactions to these displays by medical commanders.
- Published
- 2007
3. Visualization of roaming client/server connection patterns during a wirelessly enabled disaster response drill.
- Author
-
Calvitti A, Lenert LA, and Brown SW
- Subjects
- Internet, Software, Telecommunications, Disasters, Emergency Medical Service Communication Systems, Emergency Medical Services organization & administration
- Abstract
Assessment of how well a multiple client server system is functioning is a difficult task. In this poster we present visualization tools for such assessments. Arranged on a timeline, UDP client connection events are point-like. TCP client events are structured into intervals. Informative patterns and correlations are revealed by both sets. For the latter, comparison of two visualization schemes on the same timeline yields additional insights.
- Published
- 2006
4. Role-tailored software systems for coordinating care at disaster sites: enhancing collaboration between the base hospitals with the field.
- Author
-
Buono C, Huang R, Brown S, Chan TC, Killeen J, and Lenert L
- Subjects
- Cooperative Behavior, Emergency Medical Service Communication Systems, Humans, Internet, Disasters, Emergency Medical Services organization & administration, Hospital Administration, Software
- Abstract
The WIISARD disaster response patient tracking program that allows for improved process flow, communication, and patient care using sophisticated wireless technology to coordinate and enhance the care of mass casualties in terrorist attacks or natural disasters. The MICN device has been developed as the link between the Base Station Mobile Intensive Care Nurse and Incident Command in the field. This tool allows the MICN coordinating the incident from the hospital side to more effectively and efficiently communicate with the Incident Command for the accurate and rapid distribution of patients from the scene to the hospitals.
- Published
- 2006
5. Middleware for reliable mobile medical workflow support in disaster settings.
- Author
-
Brown SW, Griswold WG, Demchak B, and Lenert LA
- Subjects
- Computer Systems, Disaster Planning, Equipment Failure, Feasibility Studies, Humans, Information Systems, Computer Communication Networks organization & administration, Disasters, Emergency Medical Services organization & administration, Software
- Abstract
Mobile information technology can help first responders assist patients more quickly, reliably, and safely, while focusing resources on those most in need. Yet the disaster setting complicates reliable networked computing. The WIISARD client-server architecture provides mobile IT support for medical response in disasters. Cached remote objects (CROs) are shared via publish/subscribe, enabling disconnected operation when out of network range and ensuring data consistency across clients with rollback/replay. CROs also provide a flexible, familiar, and performant programming model for client programmers. A drill with the San Diego MMST showed that a basic client-server architecture, even with CRO's, is insufficient, because prolonged network failures-to be expected in disaster reponse-inhibit group work. We describe an extension of the CRO model to clusters of computers that supports group work during network failures.
- Published
- 2006
6. Situational awareness during mass-casualty events: command and control.
- Author
-
Demchak B, Chan TC, Griswold WG, and Lenert LA
- Subjects
- Humans, Internet, Rescue Work organization & administration, User-Computer Interface, Disasters, Emergency Medical Service Communication Systems, Emergency Medical Services organization & administration
- Abstract
In existing Incident Command systems, situational awareness is achieved manually through paper tracking systems. Such systems often produce high latencies and incomplete data, resulting in inefficient and ineffective resource deployment. The WIISARD system collects much more data than a paper-based system, dramatically reducing latency while increasing the kinds and quality of information available to Incident Commanders. The WIISARD Command Center solves the problem of data over-load and uncertainty through the careful use of limited screen area and novel visualization techniques.
- Published
- 2006
7. Tablet computing for disaster scene managers.
- Author
-
Chan TC, Buono CJ, Killeen JP, Griswold WG, Huang R, and Lenert L
- Subjects
- Humans, Rescue Work organization & administration, User-Computer Interface, Disasters, Emergency Medical Service Communication Systems, Emergency Medical Services organization & administration, Microcomputers
- Abstract
WIISARD utilizes wireless technology to improve the care of victims following a mass casualty disaster. The WIISARD Scene Manager device (WSM) is designed to enhance the collection and accessibility of real-time data on victims, ambulances and hospitals for disaster supervisors and managers. We recently deployed WSM during a large-scale disaster exercise. The WSM performed well logging and tracking victims and ambulances. Scene managers had access to data and utilized the WSM to coordinate patient care and disposition.
- Published
- 2006
8. 802.11 wireless infrastructure to enhance medical response to disasters.
- Author
-
Arisoylu M, Mishra R, Rao R, and Lenert LA
- Subjects
- Disaster Planning, Emergency Medical Services standards, Rescue Work, Telecommunications instrumentation, Telemedicine instrumentation, Telemedicine organization & administration, Terrorism, Computer Communication Networks instrumentation, Computer Communication Networks standards, Disasters, Emergency Medical Service Communication Systems standards, Emergency Medical Services organization & administration
- Abstract
802.11 (WiFi) is a well established network communications protocol that has wide applicability in civil infrastructure. This paper describes research that explores the design of 802.11 networks enhanced to support data communications in disaster environments. The focus of these efforts is to create network infrastructure to support operations by Metropolitan Medical Response System (MMRS) units and Federally-sponsored regional teams that respond to mass casualty events caused by a terrorist attack with chemical, biological, nuclear or radiological weapons or by a hazardous materials spill. In this paper, we describe an advanced WiFi-based network architecture designed to meet the needs of MMRS operations. This architecture combines a Wireless Distribution Systems for peer-to-peer multihop connectivity between access points with flexible and shared access to multiple cellular backhauls for robust connectivity to the Internet. The architecture offers a high bandwidth data communications infrastructure that can penetrate into buildings and structures while also supporting commercial off-the-shelf end-user equipment such as PDAs. It is self-configuring and is self-healing in the event of a loss of a portion of the infrastructure. Testing of prototype units is ongoing.
- Published
- 2005
9. An ontology of geo-reasoning to support medical response to attacks with weapons of mass destruction.
- Author
-
Kirsh D, Peterson N, and Lenert LA
- Subjects
- Cognition, Geographic Information Systems, Humans, Internet, Nuclear Warfare, Warfare, Disaster Planning organization & administration, Emergency Medical Service Communication Systems, Emergency Medical Services organization & administration, Geography, Rescue Work organization & administration, Terrorism
- Abstract
We study how Metropolitan Medical Response System units conceptualize the physical space of a disaster and their organized response. Using a variety of ethnographic methods before, during, and after a disaster drill, we have developed an initial ontology for geospatial and context-aware technology. The conceptual map of first responders is far more complex than a geographical map. Zones and Areas are used to describe documented concepts critical to MMRS operations. Ad hoc locations also play a critical role, helping first responders communicate tactics in spatial terms. Such distinctions play an important role in the way our experts think about their activity. Successful geoaware alerting systems must incorporate these notions if they are to seamlessly fit into the work flow of first responders.
- Published
- 2005
10. Role-tailored software systems for medical response to disasters: enhancing the capabilities of "mid-tier" responders.
- Author
-
Buono C, Chan TC, Brown S, and Lenert L
- Subjects
- Computer Systems, Humans, Internet, Workforce, Disasters, Emergency Medical Services organization & administration, Rescue Work organization & administration, Software
- Abstract
WIISARD (Wireless Internet Information System for Medical Response in Disasters) is developing wireless technology to coordinate and enhance the care of mass casualties at disaster sites. Mid-tier personnel (area supervisors) play a critical role in disaster response, supervising care processes in the triage, Treatment and Transport areas of the attack site. The design of a software tool to support mid-tier activities focuses on providing supervisors aggregate information on patient conditions and needs, real-time data on ambulance availability and location, and hospital status and on coordinating care delivery among triage, treatment and transport areas.
- Published
- 2005
11. RealityFlythrough: enhancing situational awareness for medical response to disasters using ubiquitous video.
- Author
-
McCurdy NJ, Griswold WG, and Lenert LA
- Subjects
- Disaster Planning, Humans, Disasters, Emergency Medical Service Communication Systems, Emergency Medical Services, Rescue Work, Telemedicine, Video Recording
- Abstract
The first moments at a disaster scene are chaotic. The command center initially operates with little knowledge of hazards, geography and casualties, building up knowledge of the event slowly as information trickles in by voice radio channels. RealityFlythrough is a tele-presence system that stitches together live video feeds in real-time, using the principle of visual closure, to give command center personnel the illusion of being able to explore the scene interactively by moving smoothly between the video feeds. Using RealityFlythrough, medical, fire, law enforcement, hazardous materials, and engineering experts may be able to achieve situational awareness earlier, and better manage scarce resources. The RealityFlythrough system is composed of camera units with off-the-shelf GPS and orientation systems and a server/viewing station that offers access to images collected by the camera units in real time by position/orientation. In initial field testing using an experimental mesh 802.11 wireless network, two camera unit operators were able to create an interactive image of a simulated disaster scene in about five minutes.
- Published
- 2005
12. Information technology and emergency medical care during disasters.
- Author
-
Chan TC, Killeen J, Griswold W, and Lenert L
- Subjects
- California, Disaster Planning, Emergency Medical Service Communication Systems organization & administration, Emergency Medical Services statistics & numerical data, Emergency Service, Hospital organization & administration, Emergency Service, Hospital statistics & numerical data, Humans, Systems Integration, Telecommunications, Total Quality Management, Disasters, Emergency Medical Services organization & administration, Information Systems organization & administration
- Abstract
Disaster response to mass-casualty incidents represents one of the greatest challenges to a community's emergency response system. Rescuers, field medical personnel, and regional emergency departments and hospitals must often provide care to large numbers of casualties in a setting of limited resources, inadequate communication, misinformation, damaged infrastructure, and great personal risk. Emergency care providers and incident managers attempt to procure and coordinate resources and personnel, often with inaccurate data regarding the true nature of the incident, needs, and ongoing response. In this chaotic environment, new technologies in communications, the Internet, computer miniaturization, and advanced "smart devices" have the potential to vastly improve the emergency medical response to such mass-casualty incident disasters. In particular, next-generation wireless Internet and geopositioning technologies may have the greatest impact on improving communications, information management, and overall disaster response and emergency medical care. These technologies have applications in terms of enhancing mass-casualty field care, provider safety, field incident command, resource management, informatics support, and regional emergency department and hospital care of disaster victims.
- Published
- 2004
- Full Text
- View/download PDF
13. Data Quality for Situational Awareness during Mass-Casualty Events
- Author
-
Demchak, Barry, Griswold, William G., and Lenert, Leslie A.
- Subjects
Disasters ,Quality Control ,Emergency Medical Services ,Internet ,User-Computer Interface ,Emergency Medical Service Communication Systems ,Rescue Work ,Humans ,Articles ,Information Systems - Abstract
Incident Command systems often achieve situational awareness through manual paper-tracking systems. Such systems often produce high latencies and in-complete data, resulting in inefficient and ineffective resource deployment. WIISARD (Wireless Internet Information System for Medical Response in Disasters) collects much more data than a paper-based system, dramatically reducing latency while increasing the kinds and quality of information available to incident commanders. Yet, the introduction of IT into a disaster setting is not problem-free. Notably, system component failures can delay the delivery of data. The type and extent of a failure can have varying effects on the usefulness of information displays. We describe a small, coherent set of customizble information overlays to address this problem, and we discuss reactions to these displays by medical commanders.
- Published
- 2006
14. Role-Tailored Software Systems for Coordinating Care at Disaster Sites: Enhancing Collaboration between the Base Hospitals with the Field
- Author
-
Buono, Colleen, Huang, Ricky, Brown, Steve, Chan, Theodore, Killeen, James, and Lenert, Leslie
- Subjects
Disasters ,Emergency Medical Services ,Internet ,Hospital Administration ,Emergency Medical Service Communication Systems ,Humans ,Cooperative Behavior ,Article ,Software - Abstract
The WIISARD disaster response patient tracking program that allows for improved process flow, communication, and patient care using sophisticated wireless technology to coordinate and enhance the care of mass casualties in terrorist attacks or natural disasters. The MICN device has been developed as the link between the Base Station Mobile Intensive Care Nurse and Incident Command in the field. This tool allows the MICN coordinating the incident from the hospital side to more effectively and efficiently communicate with the Incident Command for the accurate and rapid distribution of patients from the scene to the hospitals.
- Published
- 2006
15. Situational Awareness During Mass-Casualty Events: Command and Control
- Author
-
Demchak, Barry, Chan, Theordore C., Griswold, William G., and Lenert, Leslie
- Subjects
Disasters ,Emergency Medical Services ,Internet ,User-Computer Interface ,Emergency Medical Service Communication Systems ,Rescue Work ,Humans ,Article - Abstract
In existing Incident Command systems1, situational awareness is achieved manually through paper tracking systems. Such systems often produce high latencies and incomplete data, resulting in inefficient and ineffective resource deployment. The WIISARD2 system collects much more data than a paper-based system, dramatically reducing latency while increasing the kinds and quality of information available to Incident Commanders. The WIISARD Command Center solves the problem of data overload and uncertainty through the careful use of limited screen area and novel visualization techniques.
- Published
- 2006
16. Toward An Ontology of Geo-Reasoning to Aid Response to Weapons of Mass Destruction
- Author
-
Kirsh, David, Peterson, Nicole, and Lenert, Leslie
- Subjects
Emergency Medical Services ,Internet ,Warfare ,Cognition ,Geography ,Emergency Medical Service Communication Systems ,Geographic Information Systems ,Rescue Work ,Humans ,Disaster Planning ,Terrorism ,Article ,Nuclear Warfare - Abstract
We study how Metropolitan Medical Response System units conceptualize the physical space of a disaster and their organized response. Using a variety of ethnographic methods before, during, and after a disaster drill, we have developed an initial ontology for geospatial and context-aware technology. The conceptual map of first responders is far more complex than a geographical map. Zones and Areas are used to describe documented concepts critical to MMRS operations. Ad hoc locations also play a critical role, helping first responders communicate tactics in spatial terms. Such distinctions play an important role in the way our experts think about their activity. Successful geoaware alerting systems must incorporate these notions if they are to seamlessly fit into the work flow of first responders.
- Published
- 2005
17. Role-Tailored Software Systems for Coordinating Care at Disaster Sites: Enhancing the Capabilities of 'Mid-Tier' Responders
- Author
-
Buono, Colleen, Chan, Theordore C., Brown, Steve, and Lenert, Leslie
- Subjects
Disasters ,Emergency Medical Services ,Internet ,Computer Systems ,health services administration ,education ,Rescue Work ,Workforce ,Humans ,Article ,Software - Abstract
Wireless Internet Information System for medicAl Response to Disasters (WIISARD) is a developing wireless technology to coordinate and enhance the care of mass casualties at disaster sites. Mid-tier personnel (area supervisors) play a critical role in disaster response, supervising care processes in the Triage, Treatment and Transport areas of the attack site. The design of a software tool to support mid-tier activities focuses on providing supervisors aggregate information on patient conditions and needs, real-time data on ambulance availability and location, and hospital status and on coordinating care delivery among Triage, Treatment and Transport areas.
- Published
- 2005
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