This study examined the feasibility of using a very sensitive thermal video
radiometer to derive information about subsoil objects from the air. In th
is study we mounted a thermal sensor onboard a helicopter and acquired digi
tal data from an altitude of 1333 m over an archaeological site on the Gola
n Heights, Israel. The site, namely, Leviah Enclosure, is an Early Bronze A
ge settlement that is covered by a thin layer of soil. The buried structure
s, made from basalt, could not be observed from the ground or in aerial pho
tos. However, in the thermal images, the buried basalt structures were sign
ificantly enhanced because they have different thermal characteristics than
the ground's surface. Based on the thermal images, it was possible to gene
rate a map to use for future excavation activity. Referring to the thermal
maps, a selected area was excavated, and verification on the ground, using
traditional archaeological methods revealed a positive agreement between th
e thermal-based map and the actual location of the buried structures. The r
esearch highlights the fact that this technology can contribute additional
and useful information to the field of archaeology. Based on these results,
further study is planned in order to examine the capability of the sensor
under different conditions and to further excavate the entire Leviah Enclos
ure.