Today's telecommunication networks are configured statically. Whenever a connection
is established, the customer has permanent access to it. However, it is
observed that usually the connection is not used continuously. At this point, dynamic
provisioning could increase the utilization of network resources. WDM
based Optical Transport Networks (OTNs) will shortly allow for fast dynamic
network reconfiguration. This enables optical broadband leased line services on
demand. Since service requests competing for network resources may lead to service
blocking, it is vital to use appropriate strategies for routing and wavelength
assignment in transparent optical networks. We simulate the service blocking
probabilities of various dynamic algorithms for this problem using a well-founded
traffic model for two realistic networks. One of the algorithms using shortest path
routings performs best on all instances. Surprisingly, the tie-breaking rule between
equally short paths in different wavelengths decides between success or
failure.