The detailed elevation model based on airborne laser altimetry (AHN) proved to be a reliable tool to detect well-developed Celtic field systems, characteristic arable plots of the Iron Age. They were detected in the central part of the Netherlands, where only a limited number of Celtic field systems have been recognized in the past. Most of these previously detected systems were identified in the northern part of the Netherlands or in the southern part, but not in this zone. About 1200 ha of well-developed systems could be identified by AHN in the central part of the Netherlands, of which only 136 ha were registered as an archaeological monument. Another 335 ha of archaeologically identified Celtic field systems were not accepted or recogni...
This paper discusses how the use of AI (artificial intelligence) detected later prehistoric field sy...
Excavation of series of test-pits in a scheduled monument that proved a Celtic field (rather than an...
Long-term archaeological data gathering in the southern Netherlands may deliver an unprecedented reg...
The detailed elevation model based on airborne laser altimetry (AHN) proved to be a reliable tool to...
Until recently, Celtic fields could only be distinguished on aerial photographs, especially in open ...
Celtic field research has so far been strongly focused on prospection and mapping. As a result of th...
A detailed elevation model of the Netherlands has been acquired with the use of Airborne Laser Altim...
Until recently, Celtic fields could only be distinguished on aerial photographs, especially in open ...
The Celtic field research programme of Groningen University involves research excavations of Dutch C...
A detailed elevation model of the Netherlands has been acquired with the use of Airborne Laser Altim...
Targeted excavations of Dutch Celtic fields (Dutch: raatakkers) have yielded much-needed data on the...
The Celtic field research programme of Groningen University involves research excavations of Dutch C...
Between 1969 and 1973, excavations were undertaken at Hijken, the Netherlands. An area of 3 hectares...
This paper discusses how the use of AI (artificial intelligence) detected later prehistoric field sy...
Excavation of series of test-pits in a scheduled monument that proved a Celtic field (rather than an...
Long-term archaeological data gathering in the southern Netherlands may deliver an unprecedented reg...
The detailed elevation model based on airborne laser altimetry (AHN) proved to be a reliable tool to...
Until recently, Celtic fields could only be distinguished on aerial photographs, especially in open ...
Celtic field research has so far been strongly focused on prospection and mapping. As a result of th...
A detailed elevation model of the Netherlands has been acquired with the use of Airborne Laser Altim...
Until recently, Celtic fields could only be distinguished on aerial photographs, especially in open ...
The Celtic field research programme of Groningen University involves research excavations of Dutch C...
A detailed elevation model of the Netherlands has been acquired with the use of Airborne Laser Altim...
Targeted excavations of Dutch Celtic fields (Dutch: raatakkers) have yielded much-needed data on the...
The Celtic field research programme of Groningen University involves research excavations of Dutch C...
Between 1969 and 1973, excavations were undertaken at Hijken, the Netherlands. An area of 3 hectares...
This paper discusses how the use of AI (artificial intelligence) detected later prehistoric field sy...
Excavation of series of test-pits in a scheduled monument that proved a Celtic field (rather than an...
Long-term archaeological data gathering in the southern Netherlands may deliver an unprecedented reg...