View allAll Photos Tagged 3dscanning
A hands-on scanning practical, using a kinect-style sensor and the in-house NextEngine laser scanner. Using open source and free software to scan your objects and prepare them for 3D printing. Scanning both small objects (no larger than a football) and humans, all participants left with a 3D digital model, ready for virtual reality applications, 3D printing or other computer controlled making techniques. This session was led by Jan Boehm and Mona Hess of UCL's Photogrammetry, 3D Imaging and Metrology Research Centre. www.youtube.com/watch?v=Gy7muFzA1e0&feature=youtu.be More information on their 3D scan of Jeremy Bentham: uclgeomatics.com/2012/11/09/jeremy-bentham-in-3d/
A hands-on scanning practical, using a kinect-style sensor and the in-house NextEngine laser scanner. Using open source and free software to scan your objects and prepare them for 3D printing. Scanning both small objects (no larger than a football) and humans, all participants left with a 3D digital model, ready for virtual reality applications, 3D printing or other computer controlled making techniques. This session was led by Jan Boehm and Mona Hess of UCL's Photogrammetry, 3D Imaging and Metrology Research Centre. www.youtube.com/watch?v=Gy7muFzA1e0&feature=youtu.be More information on their 3D scan of Jeremy Bentham: uclgeomatics.com/2012/11/09/jeremy-bentham-in-3d/
Von rechts nach links: Peter Damerow (MPIWG, CDLI), Sarah Köhler (Uni Jena), Jörg Kantel (MPIWG). (Photo: Matthias Schemmel)
Original 3d scan taken from hyper3d.com, a free photo reconstruction service. Here the scan is previewed in meshlab. Also free.
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tSet();
tPot(); tCup();
A tea set is created by sampling and remixing existing objects using 3D scanning from photographs (via hypr3D.com) and a custom made Processing sketch that works as an interface to manipulate meshes and create ready-to-print files.
The process is an alternative partcipatory approach to product consumption that exploits emerging technologies to make it possible for people to copy, modify and fabricate objects to their own taste.
A project developed during the Generator.x 3.0 workshop organised by Marius Watz at iMal.
The tSet(); being shown at iMal in Brussels at the generator.x 3.0 (from code to atoms) exhibition curated by Marius Watz.
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tSet();
tPot(); tCup();
A tea set is created by sampling and remixing existing objects using 3D scanning from photographs (via hypr3D.com) and a custom made Processing sketch that works as an interface to manipulate meshes and create ready-to-print files.
The process is an alternative partcipatory approach to product consumption that exploits emerging technologies to make it possible for people to copy, modify and fabricate objects to their own taste.
A project developed during the Generator.x 3.0 workshop organised by Marius Watz at iMal.
A hands-on scanning practical, using a kinect-style sensor and the in-house NextEngine laser scanner. Using open source and free software to scan your objects and prepare them for 3D printing. Scanning both small objects (no larger than a football) and humans, all participants left with a 3D digital model, ready for virtual reality applications, 3D printing or other computer controlled making techniques. This session was led by Jan Boehm and Mona Hess of UCL's Photogrammetry, 3D Imaging and Metrology Research Centre. www.youtube.com/watch?v=Gy7muFzA1e0&feature=youtu.be More information on their 3D scan of Jeremy Bentham: uclgeomatics.com/2012/11/09/jeremy-bentham-in-3d/
Jeff Ryan och Martin Green får 3D-scanning visat för sig av MLT Maskin & Laserteknik AB:s vd Christoffer Eriksson.
Dessa bilder är pressbilder för Underhållsmässan och får endast användas i samband med marknadsföring av Svenska Mässan och Underhållsmässan och i redaktionella sammanhang där Underhållsmässan förekommer. Fotografens namn skall alltid anges.
A hands-on scanning practical, using a kinect-style sensor and the in-house NextEngine laser scanner. Using open source and free software to scan your objects and prepare them for 3D printing. Scanning both small objects (no larger than a football) and humans, all participants left with a 3D digital model, ready for virtual reality applications, 3D printing or other computer controlled making techniques. This session was led by Jan Boehm and Mona Hess of UCL's Photogrammetry, 3D Imaging and Metrology Research Centre. www.youtube.com/watch?v=Gy7muFzA1e0&feature=youtu.be More information on their 3D scan of Jeremy Bentham: uclgeomatics.com/2012/11/09/jeremy-bentham-in-3d/
In October, we gave Candy Torres, CreatorSpace member and library program partner, a chance to test our our MakerBot Digitizer 3D scanner. She used the object on the left to let the scanner do its work of translating it into a digital file. The object on the right is what our MakerBot Replicator 2 reproduced after the scan -- an object identical in both dimensions and details. Add a little paint in the right places, and you have yourself a duplicate that is almost completely identical in appearance to the original.
this image is from a data set of a boat hull mold (about 33 feet long), scanned with a FARO Focus 3D scanner. The data is just amazing. Learn more at www.3dscanningservices.net
3D scan of a crushed scrap bale
Software: Agisoft Photoscan, 3ds Max + VRay
Images used for 3D reconstruction: 1.075
• 3D Models for sale at TurboSquid: www.turbosquid.com/Search/Artists/ibl3d?referral=ibl3d
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
A hands-on scanning practical, using a kinect-style sensor and the in-house NextEngine laser scanner. Using open source and free software to scan your objects and prepare them for 3D printing. Scanning both small objects (no larger than a football) and humans, all participants left with a 3D digital model, ready for virtual reality applications, 3D printing or other computer controlled making techniques. This session was led by Jan Boehm and Mona Hess of UCL's Photogrammetry, 3D Imaging and Metrology Research Centre. www.youtube.com/watch?v=Gy7muFzA1e0&feature=youtu.be More information on their 3D scan of Jeremy Bentham: uclgeomatics.com/2012/11/09/jeremy-bentham-in-3d/
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
High resolution 3D scan of a real human skull
Software: Agisoft Photoscan, 3ds Max + VRay
Images used for 3D reconstruction of the skull: 1.767
Images used for texturing: 653
• 3D Models for sale at TurboSquid: www.turbosquid.com/Search/Artists/ibl3d?referral=ibl3d
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
andrew f. scott. Black Power Nkisi. FDM model. 3d scanned using Scan Studio and RapidWorks from a life cast.
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
High resolution 3D scan of a real human skull
Software: Agisoft Photoscan, 3ds Max + VRay
Images used for 3D reconstruction of the skull: 1.767
Images used for texturing: 653
• 3D Models for sale at TurboSquid: www.turbosquid.com/Search/Artists/ibl3d?referral=ibl3d
3D scan of a crushed scrap bale
Software: Agisoft Photoscan, 3ds Max + VRay
Images used for 3D reconstruction: 1.075
• 3D Models for sale at TurboSquid: www.turbosquid.com/Search/Artists/ibl3d?referral=ibl3d
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
This is a project where we took one unique but sadly damaged stucco and replicated it.
We started off with 3D-scanning the quarter that was still intact and then cloning it inside of a 3D-software. After that we sent the file to our Z Corporation 650 3D-printer and had a new, intact copy of the stucco.
I det här projektet skapade vi en kopia av en trasig stuckatur.
Vi började med att 3D-scanna den del av stuckaturen som fortfarande var intakt. Efter det behandlade vi 3D-modellen och klonade den hela delen så vi fick en komplett stuckatur. Därefter skickade vi filen till vår Z Corporation 650 3D-skrivare som skrev ut den nya och lagade stuckaturen.
High resolution 3D scan of a real human skull
Software: Agisoft Photoscan, 3ds Max + VRay
Images used for 3D reconstruction of the skull: 1.767
Images used for texturing: 653
• 3D Models for sale at TurboSquid: www.turbosquid.com/Search/Artists/ibl3d?referral=ibl3d
High resolution 3D scan of a real human skull
Software: Agisoft Photoscan, 3ds Max + VRay
Images used for 3D reconstruction of the skull: 1.767
Images used for texturing: 653
• 3D Models for sale at TurboSquid: www.turbosquid.com/Search/Artists/ibl3d?referral=ibl3d
msa_3D scanning, msa_Chichen Itza, msa_Chichén Itzá, msa_Philippe Martinez, msa_archaeologist, msa_arqueóloga, msa_arqueólogo, msa_escanear tridimensional, msa_escáneo tridimensional, msa_escáner tridimensional, msa_miembros del equipo de la producción, msa_production team members
3D scan of a Honda Car (Honda Civic 2001)
Software: RealityCapture, 3ds Max + VRay. (Render)
Photographs used: 1.340 (Canon 70D + Canon Lens EF 20mmm 1:2.8)
• 3D Models for sale at TurboSquid:
High resolution 3D scan of a real human skull
Software: Agisoft Photoscan, 3ds Max + VRay
Images used for 3D reconstruction of the skull: 1.767
Images used for texturing: 653
• 3D Models for sale at TurboSquid: www.turbosquid.com/Search/Artists/ibl3d?referral=ibl3d
andrew f. scott. Black Power Nkisi. FDM model. 3d scanned using Scan Studio and RapidWorks from a life cast.
I was finally able to get ReconstructMe to run in a Windows virtual machine using Parallels. I had to pick an appropriate first scan ever for ReconstructMe running from OS X.
3Dify body scanner in action at Broadcasting House for BBC World Service 3D printing special; Photo credit: Kati Byrne