2,388 research outputs found
Core 9 Biface Flake Models
Dataset consists of one ZIP archive containing 25 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 50 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing an experimental archaeological reduction. This Core 9 Biface was knapped by Matthew D. Hunstiger. It and its related flakes are housed at the University of Minnesota's Department of Anthropology Evolutionary Anthropology Labs. These models are of the flakes that were created, or knapped off, as Hunstiger made that biface. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Core 9 Biface Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D61S3S
Core 11 Discoidal Flake Models
Dataset consists of one ZIP archive containing 25 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 50 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing an experimental archaeological reduction. This Core11 Discoidal reduction was knapped by Matthew D. Hunstiger. It and its related flakes are housed at the University of Minnesota's Department of Anthropology Evolutionary Anthropology Labs. These models are of the flakes that were created, or knapped off, as Hunstiger made that discoidal reduction. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Core 11 Discoidal Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D60W24
Core 2 Levallois Flake Models
Dataset consists of one ZIP archive containing 34 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 68 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing an experimental archaeological reduction. This Core 2 Levallois reduction was knapped by Matthew D. Hunstiger. It and its related flakes are housed at the University of Minnesota's Department of Anthropology Evolutionary Anthropology Labs. These models are of the flakes that were created, or knapped off, as Hunstiger made the levallois reduction. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Core 2 Levallois Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D6RC7P
Core 4 Levallois Flake Model
Dataset consists of one ZIP archive containing 1 virtual flake models, represented by one OBJ file with an accompanying MTL file, for 2 total files. The flake was scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. This model can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of a flake model representing an experimental archaeological reduction. This Core 4 Levallois reduction was knapped by Matthew D. Hunstiger. It and its related flake are housed at the University of Minnesota's Department of Anthropology Evolutionary Anthropology Labs. This model is of the flake that was created, or knapped off, as Hunstiger made that levallois reduction. It was created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Core 4 Levallois Flake Model. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D6NK52
Core 12 Discoidal Flake Models
Dataset consists of one ZIP archive containing 31 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 62 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing an experimental archaeological reduction. This Core 12 Discoidal reduction was knapped by Matthew D. Hunstiger. It and its related flakes are housed at the University of Minnesota's Department of Anthropology Evolutionary Anthropology Labs. These models are of the flakes that were created, or knapped off, as Hunstiger made that discoidal reduction. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Core 12 Discoidal Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D6HS34
Tabun Unit I Flake Models
Dataset consists of one ZIP archive containing 91 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 182 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing archaeological materials from Tabun Cave, Israel. They were excavated in the late 1960's to early 1970's by a team led by Arthur J. Jelinek of the University of Arizona. This Tabun Unit I assemblage was knapped by hominins approximately 165,000 years ago. The flakes are housed at the University of Arizona's School of Anthropology. These models are of the flakes that were created, or knapped off, as hominins made stone tools. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the archaeological side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Tabun Unit I Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D6D305
Tabun Unit IX Flake Models
Dataset consists of one ZIP archive containing 279 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 558 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing archaeological materials from Tabun Cave, Israel. They were excavated in the late 1960's to early 1970's by a team led by Arthur J. Jelinek of the University of Arizona. This Tabun Unit IX assemblage was knapped by hominins approximately 255,000 years ago. The flakes are housed at the University of Arizona's School of Anthropology. These models are of the flakes that were created, or knapped off, as hominins made stone tools. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the archaeological side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Tabun Unit IX Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D68C7B
Bordes Biface Flake Models
Dataset consists of one ZIP archive containing 16 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 32 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing an experimental archaeological reduction. This Bordes Biface was knapped by the late French prehistorian and archaeologist François Bordes. It and its related flakes are housed at the University of Arizona's School of Anthropology. These models are of the flakes that were created, or knapped off, as Bordes made that biface. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Bordes Biface Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D65K5Q
Dibble Levallois Flake Models
Dataset consists of one ZIP archive containing 34 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 68 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing an experimental archaeological reduction. This Dibble Levallois reduction was knapped by Harold L. Dibble. It and its related flakes are housed at the University of Arizona's School of Anthropology. These models are of the flakes that were created, or knapped off, as Dibble made that levallois reduction. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Dibble Levallois Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D6X30T
Tostevin Blade Flake Models
Dataset consists of one ZIP archive containing 30 virtual flake models, each represented by one OBJ file with an accompanying MTL file, for 60 total files. The flakes were scanned with a NextEngine Inc.’s Desktop 3D Scanner SD (standard definition) or HD (high definition), and then virtually assembled using 3D Systems' Inc. Geomagic Design X and Verify. These models can be viewed with a variety of software, for example http://3dviewer.net/.This dataset consists of flake models representing an experimental archaeological reduction. This Tostevin Blade reduction was knapped by Gilbert B. Tostevin. It and its related flakes are housed at the University of Minnesota's Department of Anthropology Evolutionary Anthropology Labs. These models are of the flakes that were created, or knapped off, as Tostevin made that blade reduction. They were created for the purpose of studying scar directionality in archaeological chipped stone analysis, and formed part of the experimental side of a dissertation by Matthew D. Hunstiger.Hunstiger, Matthew D. (2016). Tostevin Blade Flake Models. Retrieved from the University Digital Conservancy, http://doi.org/10.13020/D64K5D
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