Traveltime tomography by inverting direct arrival times is the most common
technique in crosshole radar surveying. In a standard crosshole experiment,
the inversion is a mathematically nonunique process due to the limited ran
ge of viewing angles producing ambiguous and smeared results. If possible,
additional information should be extracted from the data or added from the
outside to improve and constrain the inversion and the interpretation. In l
ow attenuation media, reflected wave energy can also be present in the cros
shole data. Reflections are often caused by well-known interfaces, such as
the free earth surface or the groundwater table. Because of their differing
travel paths, these reflected events contain additional information about
subsurface structure and parameter distribution. We present a technique to
include reflection traveltimes associated with known interfaces into tomogr
aphic traveltime inversion of crosshole radar data. If in a crosshole radar
survey such reflections can be clearly identified, the total number of ray
s and the range of raypath angles are increased by the presented inversion
strategy. Applications to a synthetic and a real field data set show the pr
acticability and the improvements offered by this method. The results show
that horizontal smearing is reduced and local anomalies are better contoure
d compared to standard crosshole tomography using only direct arrivals. (C)
2001 Elsevier Science BN, All rights reserved.