Design Exploration of Atlanta Apparatus Instrument Panel

Walcott, Taro A.

21 April 2005

The fire department depends on the fire apparatus to support the many roles firefighters fulfill in the community. The instrument panel of the fire apparatus is the primary man-machine interface for controlling the vehicle. The instrument panel contains many gauges and controls for the numerous features of the apparatus. This research reflects the investigation of how the fire apparatus instrument panel is used by the Atlanta Fire Department. Research involves an immersive study observing the Atlanta firefighters. Surveys and a design critique were developed to obtained firefighter feedback. A comparison of similar tasks was completed to Based on the feedback from fire apparatus drivers and captains design concepts were developed. Concepts are desiged to help the driver and the captain of the apparatus.

Instrument panel

Interface

Fire engines Design and construction

Design, Industrial

A methodology for locating fire stations at airports

Burness, Geoffrey Carter

January 1977

A methodology is developed to determine the locations of the fewest number of fire stations at an airport such that two guidelines, recommended to the Federal Aviation Administration, are met. The first guideline stipulates that airport fire vehicles must be capable of reaching any potential crash site on the runway system within a two minute time period. The second guideline requires stations to be located such that the chance of possible blockage of vehicle response routes to potential crash sites is minimized. The methodology transforms an initial continuous facility location problem into a discrete problem. By modeling the discrete formulation as a modified set covering problem, a solution is determined that meets the two guidelines. To illustrate the utility of the methodology, it is applied to two situations at the Atlanta Airport. In the first situation it is assumed that no fire stations exist at the airport, and in the second, three of the four fire stations planned to be in existence at the airport are assumed to be in operation. For both situations, the methodology is applied three times, changing the average speed vehicles are assumed to be capable of traveling on the runway system each time. For an average speed of 40 m.p.h., it is shown that fire vehicles, responding from the four stations at the airport, are not capable of reaching every potential crash site on the runway system within a two minute time period. / Master of Science

LD5655.V855 1977.B88

Airports -- Fires and fire prevention

Fire engines