News Stories

Microsoft Kinect to Create 3D Scans of Archaeological Dig

8.4.2011

[Philip Lelyveld comment: the 3 min. video describes the Kinect scanning process.]

[excerpt]

The [UC San Diego] students will be using the Kinect as a 3D scanning tool to record the positional details of the items that are found. The same technique is often performed using expensive LIDAR systems. The hacked Kinect system they’ll be using was created by the California Institute for Telecommunications and IT. It taps into the Kinect data stream blending 3D positional data and color video texture maps to make the scans that can then be inserted into a virtual world.

Read the full story here: http://technabob.com/blog/2011/08/03/microsoft-kinect-archaeology-dig/

New 3D High Speed Imaging to Screen Cancer

8.4.2011

[Excerpt]

The Massachusetts Institute of Technology (MIT) has extended the use of 3D imaging technology to screen oesophageal and colon cancer. The new imaging system is based on Optical coherence tomography (OCT) and has the advantage of detecting underlying microscopic pre-cancerous tissues.  …

What Is New?

OCT is similar to medical ultrasound imaging; only that OCT uses light instead of sound waves to detect pre-cancerous tissues that lie below the surface. OCT utilizes light waves of higher resolution to see images in the body in real time and can capture data equivalent to 980 frames or 480, 000 axial scans, which is 10 times faster than existing devices. The system can also measure microscopic features lesser than eight millionth of a meter in size.

…  Fujimoto, lead author of the paper said, “Ultra high speed imaging is important because it enables the acquisition of large three dimensional volumetric data sets with micron-scale resolution.”

“This new system represents a significant advance in real-time, 3-D endoscopic OCT imaging in that it offers the highest volumetric imaging speed in an endoscopic setting, while maintaining a small probe size and a low, safe drive voltage,” says Xingde Li, associate professor at the Whitaker Biomedical Engineering Institute and Department of Biomedical Engineering at Johns Hopkins University, who is not affiliated with the research team.  …

The Procedure:

For endoscopic OCT, miniature probes with diameters of a few millimeters are needed, which can scan optical beams in two dimensions to generate high-resolution 3-D data sets. While scanning the beam in one transverse direction generates image in a cross-sectional plane; scanning the beam in two directions generates a stack of cross-sectional images or  3-D (volumetric) image.

The optical catheter developed by MIT researchers and their collaborators utilizes a piezoelectric transducer, a miniature device that bends in response to electrical current, allowing a laser-light emitting optical fibre to be rapidly scanned over the area to be imaged.  …

 

 

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Specification for Naming VFX Image Sequences Released

ETC’s VFX Working Group has published a specification for best practices naming image sequences such as plates and comps. File naming is an essential tool for organizing the multitude of frames that are inputs and outputs from the VFX process. Prior to the publication of this specification, each organization had its own naming scheme, requiring custom processes for each partner, which often resulted in confusion and miscommunication.

The new ETC@USC specification focuses primarily on sequences of individual images. The initial use case was VFX plates, typically delivered as OpenEXR or DPX files. However, the team soon realized that the same naming conventions can apply to virtually any image sequence. Consequently, the specification was written to handle a wide array of assets and use cases.

To ensure all requirements are represented, the working group included over 2 dozen participants representing studios, VFX houses, tool creators, creatives and others.  The ETC@USC also worked closely with MovieLabs to ensure that the specification could be integrated as part of their 2030 Vision.

A key design criteria for this specification is compatibility with existing practices.  Chair of the VFX working group, Horst Sarubin of Universal Pictures, said: “Our studio is committed to being at the forefront of designing best industry practices to modernize and simplify workflows, and we believe this white paper succeeded in building a new foundation for tools to transfer files in the most efficient manner.”

This specification is compatible with other initiatives such as the Visual Effects Society (VES) Transfer Specifications. “We wanted to make it as seamless as possible for everyone to adopt this specification,” said working group co-chair and ETC@USC’s Erik Weaver. “To ensure all perspectives were represented we created a team of industry experts familiar with the handling of these materials and collaborated with a number of industry groups.”

“Collaboration between MovieLabs and important industry groups like the ETC is critical to implementing the 2030 Vision,” said Craig Seidel, SVP of MovieLabs. “This specification is a key step in defining the foundations for better software-defined workflows. We look forward to continued partnership with the ETC on implementing other critical elements of the 2030 Vision.”

The specification is available online for anyone to use.

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