> The Role of Location in Incident and Disaster Management Erik van der Zee Geodan Amsterdam Multi-POS Winter School Tuesday 11th Februari 2014 16:30-17:45

The Presentation…

The Dream Team…

> T2.4 Location integration in crisis management lifecycle

Luis Bausá López PhD Researcher (full time) VU Amsterdam luis.bausalopez@vu.nl

Erik van der Zee PhD Researcher (part time) Multi-POS Supervisor Geodan / VU Amsterdam e2.vander.zee@vu.nl

About Geodan

> Geo-IT specialist for more than 25 years

> Independent system integrator in GIS and Geo-ICT

> Founded by Prof. Dr. Henk Scholten and Dr. Evert Meijer

> Highly innovative (large R&D dep.)

> 130 employees

> Offices in

• Amsterdam

• Den Bosch

• Madrid > OGC member

> Associated partner in Multi-POS

> Website www.geodan.nl

> Topics for today

The Topics…

1. Overview of Disaster Types

2. Spatial aspects of Disasters

3. Positioning people and objects during Disasters

4. Disaster Management

• Key players (in the field and in the crisis center)

• ICT Challenges (internet connections)

5. Common Operational Picture and Situational Awareness

6. Technology behind a Common Operational Picture

7. Disaster Management in smart(er) environments

8. Conclusions

> Disaster types

Traffic and Transport

1. Aviation accident 2. Accident on water

Traffic and Transport

3. Traffic accidents on land

Dangerous substances

4. Accidents with inflamable or explosive substances

5. Accidents with poisonous gasses

Dangerous substances

6. Nuclear accidents (Tsjernobyl, Fukushima)

Public Health

7. Threat of public health

8. Contaminating disease wave

Infrastructure

9. Accidents in tunnels

10. Fire in large building

Infrastructure

11. Collapse of large building

12. Failure of critical infrastructure (electricity, gas, water, communication)

Population

13. Panic in crowds

14. Large scale disruptions of order

Natural Disasters

15. Flooding 16. Forest Fires

Natural Disasters

17. Extreme weather

(cold/warm/wet/dry)

e.g. heavy storm, extreme (ice) rain or snow or a heat or cold wave

18. Disasters at distance

(in neighboring countries which have an effect on our country, e.g. nuclear, floods, forest fire, etc.)

> Spatial aspects of Disasters

From Indicent… to Disaster…

> Relation between scale (extent/severity) and involved parties

Where are the risks…

> Risk Map of The Netherlands…

• Location of Risk generators (dangerous objects or areas)

• Risk distance zones (10^-6)

• Effect distance zones (m) Lethality

• Locations of Risk receivers (vulnerable objects or areas)

> www.risicokaart.nl

Source Area vs Effect Area

> “Gasmal” and “Sector mal” (danger zones)

> Positioning people and objects during Disasters…

Where the !#%^&@# is …………….. ?!

Lelystad Detention Centre

The Challenge…

> Can a position be determined? Indoor and Outdoor

for different disaster types?

> Which positional accuracy is needed and what

can be delivered technically (demand and supply)?

• Sometimes a rough indication of position is enough, sometimes not (e.g. Prison LBS Use Case… in or out the geofence, Room A is GO area Room B nextdoor is NOGO area)

• It really depends on the situation (type of disaster and use case scenario) and the technology used

Positioning

> Indoor incidents and disasters (buildings, tunnels)

> Outdoor incidents and disasters

Mobile Modem

> MOMO (used by fire departments and police)(www.eal.nl)

> GPS lokalisation I/O (inputs / outputs)

• Netwerk connectie

• GPRS / UMTS communicatie of RAM Mobitex communicatie

• WIFI

• Bluetooth

• Dual carrier functionality

> Disaster Management

The Safety and Security Chain

Mono- versus Multi-disciplinary

> Mono-disciplinary incidents

> Multi-disciplinary disasters

ICT in a Disaster situation

Ad hoc WIFI network

Satellite communication GSM/3G communication

Ad hoc WIFI network

Ad hoc WIFI network

X X

X X

X

X

Field control center (COPI)

Regional Crisis Center (RCC)

Control Center situation

Devices in the control center

Network Infrastructure

> Common Operational Picture and Situational Awareness Information Sharing

Information demand and supply

Information Sharing Architecture

Police

Security regions

GHOR

Ambulance

Justice

Municipalities

Domain experts

Control Rool domain

Citizen and Companies

Fire Department

Disaster coordination

Defence

COMMON DOMAIN

Data and Functionality…

Communicatie

netwerk/

Beveiliging

Presentatie en

Visualisatie

Arc

hite

ctu

ur e

n S

tan

da

ard

en

(bv IM

OO

V)

Functionele

en data

ontsluitings

webservices

OOV Basis

registraties en

Kernregistraties

Gelderland

Midden

Alarmering & Attendering (LBS)

GDI Services

Geo OOV Architectuur Gelderland Midden

Mobiel(C2000, GPRS, UMTS)

Koper en Glasvezel(Intranet, OOVnet, Haagse Ring)

OOV Basisregistraties Kernregistraties HGM

GBKN KadasterFalk

GeostreetsAHNACN

Cyclo

media

Top

kaarten

Sirenes WaterschapAanvals

plannen

Luchtfotos

Rampen

bestrijdings

plannen

Bereikbaar

heids

plannen

Risicokaart

Locatie

Server VTS

Webservice

Bereikbaar

heidsplannen

Service HGM en Gemeente ArnhemProvinciale services Commerciële Services

Peer-to-Peer secure communicatie en bestandsuitwisseling

Commerciële basisregistraties

Impact

Analyse

Location

Based

Services

Gasmal en

Sectormal

NWB

Bestuurlijke

Grenzen

WMS

Services

Haagse Ring

WMS Service

o.a.

Luchtfotos

WMS

services

Arnhem

Cyclomedia

en BridGIS

BridGIS

CCS web applicatiesCCS MobielCCS desktop applicaties

Virtual

Earth

Meetopdracht

en meetbericht

Berichten

(tekst, audio)

Print en

Rapportage

Locatie

zoeken

Expirimentele visualisatie

Touch

Table

Gebruikers-

functionaliteit

Overige

Gegevens

NUTSCBS

Buurt & Wijk

Delen ROT

beeld

Overige GIS

Functionaliteit

ArcGIS

Gebruikers Brandweer Politie GemeenteGHOR Meldkamer NCC/DCC/LOCCProvincie

Overige services (toekomst)

Sherpa/GMS

Koppeling

Service

Actueel en

verwacht

weerbeeld

(KNMI)

Verkeers

situatie

(VCNL)

ArcGIS

Server

Client

Gevaarlijke

Stof fen(LIOGS/LMIP/

CRP)

Scheepvaart

IVS 90

(RWS)

Hoogwater

HIS

(RWS)

COP-SA-NCW

> COP: Common Operational Picture

> SA: Situational Awareness

> NCW: Net-Centric Working

Common Operational Picture (COP)

Common Operation Picture (detail)

Common Operational Picture

> Technology behind a Common Operational Picture

Central Architecture Model

Distributed Architecture model (p2p)

Geodan Concurrent Online WebGIS (COW)

COW Connectors

JS API

C# API

Java API

API

Service

API

User Interface

Web sockets

Programming API

- Fire propagation model - Flood model

- COW client

COW works cross domain

API

User Interface

COW client

Intranet

API

Service

Internet

API

Service

API

User Interface

COW client

API

Service

API

Service

API

User Interface

COW client

API

User Interface

COW client

Demo COW

DEMO COW Luis + Erik (or be a crisis manager yourself ...

http://research.geodan.nl/sites/foss4g)

(COW on GitHub http://github.com/Geodan/cow)

Map UI on COW infrastructure

Concurrent Online WebGIS (COW)

Phoenix Touchtable

> Disaster Management in smart(er) environments (by use of ICT)

E-Call example

Location Based Services

> Use of Geofences for notification and alerting

> The Conclusions

Conclusions…

Conclusions

> Disaster happen everywhere, indoor AND outdoor positioning scenarios

> …And under difficult conditions, special demands on equipment

> Communication lines and connections can be severely disturbed in DM situations, alternatives needed (plan B…) or local caching

> There are mono- and multi-disciplinary disasters

> A Common Operation Picture improves the Situational Awareness, especially in multi-disciplinary situations

> There are 2 types of IT architectures to create a COP, the central model and the distributed (P2P) model

The end