National Incident Management Systems

1. National Incident Management Systems A History of Incident Command and Coordination Session 4 Slide Deck Session 4

2. Session Objectives • Describe Completed and Ongoing Efforts to Provide Standard Performance Measures for the Emergency Management Profession • Describe Incident Command and Control Prior to the Emergence of the Incident Command System (ICS) • Define and Explain “Incident Command” and “Incident Coordination” Systems • Review the Historical Development of Incident Command Systems in the US. Session 4

3. Emergency Management as an Operational Context • As events get larger and demands increase the number of actors also increases. • As events get larger and demands increase the number of actors also increases. • Disasters also are characterized by a need for fast action Session 4

4. Examples of Standards • NFPA 1600 • EMAP • AS/NZS 4360:2004 • ISO 31000 • ISO IWA 5:2006

5. Consequences of the Emergency Context • Success is often measured by the ability to mobilize and use resources. • It is common for different organizations to work together in disaster situations. Session 4

6. Before the ICS and EOC • Responses emerged in an ad-hoc manner and the system were created during a response. • There was little pre-planning or predetermined structure involved in such operations. • As a result of their emergent nature, time was lost trying to overcome differences. Session 4

7. What does and the ICS system provide? • Facilitate Training because materials can be shared • Increase reliability by reducing the likelihood that key functions will be over looked. • Replace emergent networks with standardized networks which can reduce lost time. Session 2

8. A Note of Caution • Emergency response systems must be both disciplined and agile (Harrald, 2006.) • While emergent systems are highly agile it has been suggested that they lack in discipline. • Some also suggest that ICS systems can be too structured and too disciplined. Session 2

9. Planned Coordination vs. Command and Coordination Systems • Where planning documents are designed to reduce the number of disagreements before an event these organizational systems are designed to minimize and manage disagreements during events. • Officials at responding organizations may not be familiar with one another, disputes over authority and resources “almost inevitably arise” (Quarantelli 1988, 380), and there may be a lack of consensus on the nature of the problem and on what to. • Drabek’s (1990, 222) study of emergency managers led him to conclude that [t]he fundamental function of emergency managing is to facilitate interagency coordination because coordination in the midst of crisis is not easy. • Rosenthal et al. (1989, 459) argue, “it is time to do away with persistent myths about harmony and cooperation as the dominant trends in governmental reactions to crisis.” Session 2

10. Reasons that Coordinative Complications Exist (Kettl 2007) • Bureaucratic Autonomy- In a multi-organizational setting it is difficult for one organization to exert authority over another. • Mission Conflict- It is often the case that multiple agencies will have overlapping tasks and assignments that each will want to control • Different Cultures- Organizations approach problems differently and often see problems in different terms which causes confusion • Technological and geographical distance Session 2

11. Incident Command and Incident Coordination • Incident Command Systems are tactical level tools used to organize the process of completing tasks once it has been decided what should be done • ICS • NIIMS • IMS • Incident Coordination Systems are strategic level tools used to help diverse actors come to an agreement about what needs to be done. • EOC • MACS Session 2

12. Similarities and Differences • Similarities • Explicitly designed for the incorporation of multiple internal and external resources into a response network • Created for incidents where resources often come from distinct locations and there is an important need for coordination. • Logistics, operations, planning, and finance are the key functional areas • Differences • Incident coordination systems serve a support and prioritization function • Incident command systems are more administrative and guide the process of completing tasks Session 2

13. Relationship Between Incident Command and Incident Coordination • It is important to remember that any multi-organizational response system will need both command and coordination systems. In order to be successful, both should be addressed. • The “planning function” is central to the implementation of incident command and incident coordination systems. • Planning is the glue that holds an operation together and is a central aspect to the management by objectives approach. • The planning cycle creates specific goals to attend during each operational period. In it there is a strategic or campaign plan and a tactical or action plan. In the action plan, objectives are set for each Session 2

14. Variations on a Theme • Although people talk about ICS as a single approach, it is important to recognize that prior to NIMS there was no official single ICS system in the USA. There have been several versions that can be thought of as variations on a theme. • FIRESCOPE Incident command System (ICS) • Fire Ground Command (FGC) • Incident Management System (IMS) Session 2

15. FIRESCOPE • Initially developed by a group of seven fire agencies who came together in the aftermath of the disastrous 1970 wildfire season in California • In 1972, the U.S Congress approved funding for the U.S Forest Service Research to develop a system for multi-agency coordination of fire suppression resources when that exceeded the capabilities of any single jurisdiction were exceeded or multiple-fires existed • The FIRESCOPE (Firefighting Resources Organized for Potential Emergencies) coalition was charged with a national mandate to create that systems • Unlike many of its descendents the FIRESCOPE program explicitly included both an incident command system (ICS) and an incident coordination system (MACS.) Session 2

16. FIRESCOPE ICS • ICS is the Incident command element developed in FIRESCOPE. • The agencies within the system formally agreed on common terms and organizational principles that would be included in the system. • In the late 1970’s the FIRESCOPE ICS system was tested in a number of exercises and live events. • In 1980 it was formally adopted by the California department of Forestry and Fire Protection and the Governor’s Office of Emergency Services. • By the mid 1980’s The National Wildfire Coordinating Group (NWCG) performed an analysis of ICS for possible national application. With a limited number of changes it was adapted for “all hazards response” under the title National Inter-agency Incident Management System (NIIMS.) Session 2

17. FGC-Fire Ground Command System • With support from the National Fire Protection Association, Alan Brunacini (1985) took a number of the basic concepts of FIRESCOPE ICS and developed the Fire Ground Command System (FGC). • The concepts of FGC were similar to FIRESCOPE ICS, but there were some important differences in terminology and in organizational structure •  A major advantage of Brunacini’s (1985) work was that it meant IMS would be used on all incidents under the hypothesis that daily use would enhance the effectiveness of the system when it had to be used in more rare, extremely large incidents. Session 2

18. FGC Differences from ICS • The FGC system was optimized for structural fires, EMS, rescues operations and other “urbanized emergencies, in general these were short incidents, in a limited area, with relatively fewer resources required when compared to the wildfire community. • FGC was a purely Incident Command System. One of the key differences between FGC and FIRESCOPE ICS was the assumption of only one commander, working on a single type of incident (structural fire). • FGC was designed for the integration of multiple resources under the authority of single individual. • FGC was designed for the integration of multiple resources under the authority of single individual. As a result, the concepts of FGC were similar to FIRESCOPE ICS, but there were some important differences in terminology and in organizational structure Session 2

19. Re-convergence of FIRESCOPE ICS and FGC • By the 1980’s, both FIRESCOPE ICS and FGC had become well established, but different incident command systems • The National Fire Protection Association adopted Fire Ground Command and published several related training materials. • In addition to having the very strong support of responders in California from both the wild fire and municipal companies urban fire departments nationwide began to apply the system to structural fires and other urban emergencies. • One early effort happened in 1987 when the National Fire Protection Association (NFPA) undertook the development of NFPA 1561, then called Standard on Fire Department Incident Management System. Session 2

20. Re-convergence of FIRESCOPE ICS and FGC (cont.). • Throughout the 1980’s, fire service leaders debated the benefits of each system and the possibilities of merging the best components of the two into a single system. • Recognizing the continuing challenges occurring in the fire service in applying a common approach to incident command, the National Fire Service Incident Management System (IMS) Consortium was created in 1990. Its purpose was to evaluate an approach to developing a single command system. Session 2

21. National Fire Service Incident Management System (IMS) Consortium • The consortium consisted of many individual fire service leaders, representatives of most major fire service organizations and representatives of federal, state and local agencies, including FIRESCOPE and the Phoenix Fire Department. • As additional meetings occurred, more and more fire service organizations participated, thus increasing representation. • During the February 1993 meeting in Houston, Texas, the Consortium made some adjustments in the organization structure and officers and completed its Constitution and By-Laws and initiated the process of incorporation. Also at the Houston Meeting, the Consortium completed the successful merger of ICS and FGC. The title “Incident Management System (IMS)” was chosen to identify the merger. Session 2

22. National Fire Service Incident Management System (IMS) Consortium • One of the significant outcomes of the consortium's work was an agreement on the need to develop operational protocols within ICS, so that fire and rescue personnel would be able to apply the ICS as one common system. • Out of the IMS consortium the Incident Management System evolved. IMS is the basis on which the ICS components of NIMS were built. • The National Fire Academy (NFA), which had already adopted the FIRESCOPE ICS in 1980, incorporated this material into its training curriculum as well. • In 2000, the IMS was officially recognized and recommended by the National Fire Protection Association through its standard setting process Session 2

23. Recommendations Put to Action • Homeland Security Presidential Directive-5 (HSPD-5) • 2004 mandate that all responders relying on federal resources use the NIMS system • One of the key issues here is that the NIMS project is being seen as a tool to change organizational cultures • Federal law now requires the ICS to be used for management of disasters and has linked federal preparedness dollars to NIMS compliance a measure also endorsed by the 9-11 Commission • Despite the fact that some have questioned the necessity of this decision (Hess and Harrald 2004) and others have questioned the likelihood of its success(Buck, Trainor, and Aguirre 2005); regardless it is important to note that the decision to make NIMS a national policy in many ways has elevated it to the level of “standard practice” Session 2