Performance in smoke of wayguidance systems

Norwegian experiments on human behaviour in smoke have been re‐analysed with respect to evaluating and quantifying performance parameters adequate for fire safety design according to modern principles of fire safety engineering. Two generic performance parameters are quantified; the movement speed and the probability of making the correct decision in a decision element of an escape path. For low location lighting (LLL) systems designed according to the specifications of IMO, movement speed might be rather insensitive of the type of wayguidance system, even though higher luminance of electrically powered (EP) than photoluminescent (PL) systems. The human performance of making the correct decision in a decision element was found to vary between 70% and 80%, and also irrespective of the type of LLL system. Other types of wayguidance systems have performance greater than 90% with respect to making the correct decision, but these do not comply with the existing pre‐scriptive code specifications. The probability of wayfinding and successful escape depends on the correct decision in each decision element in the escape path and identification of exits. Therefore the probability of successful escape diminishes sharply as a function of both the number of decision elements and the performance of the wayguidance system. Unfortunately there are still missing performance requirements for both the geometry of escape paths and the visibility and recognition of safety signs. Copyright © 1999 John Wiley & Sons, Ltd.