Ontology for Geospatial Reasoning at Disasters
David Kirsh – Cognitive Science UCSD
Nicole Peterson – Anthropology Columbia Univ
Leslie Lenert – VA Hospital UCSD, CALIT(2)
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Problem• How do incident commanders and medical response team leaders:
– Conceptualize the physical space of a disaster• Is the hot zone shifting? - where’s the plume?• What’ s in the shooter’s line of sight?
– Think about their response in spatial terms• Who’s in the transport area?• Clear that region and rendezvous back here• Have we made a safe refuge area? • Let’s put the staging areas over there.
Zone
Cold Zone
Warm Zone
Hot Zone
Release
IncidentCommand
Center
Triage Area
Treatment Areas
Transport Area
Staging Areas
Decontamination Areas
Cleared by SWAT
Regrouping spot
Line of sight
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Background
• We’re designing wireless devices to attach to personnel, victims and equipment
• Concern: information overload
– data from 100’s of such devices distributed around a site
• Solution: interpret data in terms of
– spatial concepts and reference points which incident commanders already use to understand situation
– use the language of situation awareness
What’s it like at transport?
How long is the queue for decon?
How safe is the initial refuge area?
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Goals
• reduce error – number of errors
– cost of errors
• increase coordination– Stay in control
– Aware of who is where, doing what, how
– Better quality of messages
• improve the efficiency of response– Increase victim flow through key areas
– Reduce bottlenecks
Errors: cost x frequency
DSR 2 > DSR 1
Methodology
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Four Sources of Data
1. Pre-drill interviews and simulations: video’ed five 2-hour interviews
2. Drill observation: video’ed disaster drill using 5 video cameras 4 hour each camera 2 on top of building, 2 stationed, 1 roaming
3. Event debriefing: took notes of the post-event debriefing
4. Post-event follow-up interviews: follow-up with the experts from our pre-drill interviews – video’ed four 2-hour interviews.
Coding interviews and drill footage: ensured inter-coder reliability through joint coding using two to four coders
Interview: Hand simulation of drill expectations
Results
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Conceptually different types of space
• Zones– formal, taught in class– objective basis
• hot zone based on physics of release, trajectory of shooter
• Areas– formal, taught in class– driven by functional needs
• Staging areas – Fire, Hazmat, MMST
• Stations – decon, triage, treatment, transport
• Refuge – size depends on needs
• Ad Hoc– not taught per se – driven by tactical demands of activity –
inferred from language & gesture– SWAT – regroup near door
• rendezvous pt, cleared so far
Areas
Zones
Safe Refuge Area
Refuge Area
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Helps identify and reduce errors
• Thinking about attributes of zones, areas and regions explains certain sorts of errors
– Dimension Errors– Zone: wind changes, but the dimensions are not updated
– Area: a space is wrongly assumed vacant when in fact reserved for someone else (hazmat trucks took the wrong place)
– Permission Errors– A fireman marked the hot zone when he should have waited for Hazmat –
firemen lack permission
– Who has the right to move a resource into, within, or out of a zone,
» Fire shouldn’t move crime scene items
– Marking Errors– Hazmat assumed no need to mark all their staging space (4 trucks) – so were
distributed
– Tree used to mark hot zone edge but information not propagated
– Wrong tape
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Attributes
Conclusions
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It’s good to think spatially
• Responders and commanders think spatially in terms of:
• Zones
• Areas
• Ad Hoc Regions
• Information from geospatial systems needs to be translated into responder meaningful terms – more abstract than geospatial location
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It’s good to think spatially
• Ethnographic analysis can expose the attributes of spatial concepts that is implicit in discourse and gesture
• An attribute ontology provides a principled method for discovering and classifying responder errors
• When data is represented more meaningfully• Messages are cognitively more efficient – better speed-accuracy
• Situation awareness propagates faster – higher awareness diffusion rate
• Distributed activity is better coordinated – better hand-offs, time to respond, victim flow rate
• Fewer and less costly errors are made
• Sets the stage for more comprehensive evaluations• Victim flows through areas, coordination of data between stations
End
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Variance
Time
1
0
Variance of Routines
AcceptableVariance
AcceptableTime
Acceptable
V2V1 V3 V4
ProbabilityofError
Time
1
0
Better
Speed Accuracy of Routine
No RemoteRemote
Expertise
Time to learn
Great design
Good design
Average design
Quantitative measures
ErrorsIf we think about these attributes it is apparent how certain sorts of errors may arise. Here is a simple list of 25 errors.
Dimension errors:• zone: a space has reasonably precise dimensions but the team miscalculates them• zone: conditions alter, such as when the wind changes, but the dimensions are not updated• zone: team members misread their instruments and so propagate incorrect information about dimensions• zone: team members do not realize that their instruments tell them about boundaries (e.g. beepers indicate radiological perimeters)
and so they do not think they can discover boundaries • areas: a space is assumed vacant when in fact it is reserved for someone else (hazmat trucks took the wrong place)• Ad hoc regions: the SWAT team leader did not take into account the shooters height and so incorrectly assumed a safe
retreat zone was also safe in the vertical dimension.
Permissions Errors• All spaces: Person A enters but lacks permission to enter, and should have known it. E.g perimeter guard approaches the ICC• All spaces: A does not have the right to move a resource into, within, or out of a zone. E.g fireman move crime scene item.• Zones, areas: Person A marks the boundaries of a zone or area but lacks permission to do this, and should have known it. Fireman
marks the hot zone when he should have waited for Hazmat.• All spaces: A lacks permission to do a specific activity in that space. • Zones, Areas: A gatekeeper should prevent A from entering but does not realize that a permission is required; or that A has the
wrong permissions. E.g. Gatekeeper at site perimeter mistakenly keeps out authorized responders.• With respect to evidence: different perspective on situation, don’t share information
Rule Errors: a zone/area may have primary owners fpr certain time then pass ownership Ad Hoc are uniquely owned• All spaces: Different groups have their own set of dos and don’ts with respect to the scene. To the FBI, the setting represents the
scene of the crime. To the MMST, the setting is filled with victims needing medical attention. To the SWAT strike team, the setting represents an unsecured space that may harbor shooters or bombs. Errors arise when responders perform actions that are correct for their own team but which have unintended negative consequences for other teams. E.g. MMST move victims whose physical disposition is of forensic value.
Marking Errors• Areas: one area encroaches on another because future needs were not marked. E.g. Hazmat truck 1 arrived early to the scene and
did not mark sufficient space for the remaining 4 trucks to arrive soon. Another team moved their trucks into that large opening blocking truck 1 in and preventing Hazmat from being close enough to the site.
• Use mark which changes location, such as a truck or even cone that might be moved unwittingly. • Zone is marked in a way that requires special knowledge to interpret. E.g. special markings or use of a feature such as a
tree or a bush that hasn’t been communicated to everybody else.• Zone is marked incorrectly with respect to size or type • Zone isn’t explicitly marked and needs to be because it is not self-identifying in the way the boundary of a building is self-identifying
(hazmat area)• Entry point to a zone may not be well marked or by leaving a large entry corridor the boundary of the hot zone near that corridor may
be unclear.
Location ErrorsArea is put in the wrong location. E.g. The decon area was set in a bad location given the topography of the area. Water would run
downhill to ICC and to treatment areas.more of these
Boundary Errorssome of these
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Justification Perimeter defined
Perimeter marked
Perimeter moves
Center marked
Duration Shape Nested spaces?
Zones Factual Yes Yes Yes No Event 3D Yes
AreasLong-term requirements of activity
Often Sometimes Sometimes Yes Event 2D Yes
Ad hoc
Short-term requirements specific to one activity
No Sometimes No (expires) NoPhase of activity
2D/1DOther ad hoc
Cold Zone
Treatment area
Nested
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Dril
Drill May 2004
AmbulanceStaging
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Support Zone
Wind Direction
Contamination Reduction Zone
Exclusion Zone
Release
Safe Refuge
Contamination Reduction Zone
Support Zone
Wash T & EDrop
Pre-DropEntry
Corridor
Staging