News Stories

Sharp 3D phone & thin 3D Blu-ray player

11.4.2010

Galapagos 003SH/005SH: Sharp Shows 3D-Enabled Smartphones

In September, we blogged on CrunchGear about Sharp’s entry into the Android tablet sector (the company is currently readying a 5.5-inch and a 10.8-inch version). Strangely dubbed “Galapagos”, the tablets, which will be available in Japan starting next month, will soon be joined by two smartphones carrying the same name.

Sharp today took the wraps off [JP] the so-called Galapagos 003SH and the Galapagos 005SH. Both phones share one major selling point: they both feature a naked-eye 3D display.

Galapagos 003SH (pictured above)

This model comes with

  • 3.8-inch touchscreen with 800×480 resolution
  • Android 2.2
  • 1GHz Snapdragon CPU
  • 9.6MP CCD camera with 720p video recording
  • Wi-Fi, Bluetooth
  • electronic wallet function
  • digital TV tuner
  • size: 121×62×12mm, weight: 139g

by Serkan Toto on November 4, 2010

———————————————-

Those Android 3D handsets aren’t the only 3D devices Sharp announced today. The company alsoshowed [JP] the BD-HP90 today, a 3D Blu-ray player that’s just 35mm thick. Needless to say, this makes the device the thinnest of its kind.

The player is not only thin, but it can also be used both in a horizontal and vertical position (as you can see above). It comes with a USB port, an HDMI interface, Ethernet, and AQUOS Link. It can play 3D Blu-ray discs but doesn’t support BDXL.

Sharp plans to start selling the BD-HP90 in Japan on November 20 for $495 (no word yet on availability).

source: http://www.crunchgear.com/tag/sharp/

New technology makes surgeries less invasive (robotics and 3D)

11.4.2010

Dr. Myron Luthringer is one of an increasing number of surgeons who can sit six feet away from the operating table while performing surgery on his patients.

The feat is made possible by a robotic “assistant” called the da Vinci Surgical System, which consists of four robotic arms and a 3D camera. The surgeon sits at a console and operates the robotic arms using the thumb and forefinger on each hand and by pressing a pedal with his feet. By pinching his fingers together and rotating his wrists, he can control the precise movements of the surgical instruments attached to the robotic arms.

On Wednesday, the general public and area physicians were invited to Turning Stone Resort and Casino to view and test out the system.

Luthringer said there are benefits for the surgeon and patient with the system.

“For the surgeon, it allows a three-dimensional view so you have depth perception so you can see the organs better,” he said. “The instruments are ‘wristed’ where the instruments bend. So instead of using straight instruments to do the surgery, you can actually mimic exactly what your hands would do if were in the abdomen.”

He said the less invasive nature of the surgery has numerous benefits for the patient.

“For the patient, it allows for less pain afterwards, less bleeding and a quicker recovery back to normal,” he said. “It has allowed a lot of the surgeries that were very complicated and were previously done in an open fashion with a large six or eight inch incision to be done minimally invasively.”

Luthringer is chief of gynecological robotic and minimally invasive surgery at Community General Hospital in Syracuse and uses the system routinely in his practice.

“Still in the United States, 50 percent of hysterectomies are done through a large open incision,” he said. “In my practice, 99 percent are done with the robot.”

Half his patients return home the same day of the surgery and the other half go home the next morning.

“Recuperation is a week to two weeks versus the traditional six to eight weeks,” he said.

The technology was developed in 2000 and Luthringer has used it in gynecological procedures such as hysterectomies for removing the uterus and myomectomies for removing fibroid tumors.

He said the system was first used by surgeons in the cardiology and urology fields.

The list of uses for the system continues to expand into colorectal surgery and surgeries in the ears, nose and throat field, otolaryngology. Luthringer can see it being applied to orthopedic surgery as well.

According to Intuitive Surgical, the makers of the system, as of December 2009, Community General Hospital in Syracuse had one of 1,028 systems in use in the United States.

Luthringer acknowledges that the cost of the system, $1.7 million, is slowing its expansion to more hospitals around country.

By MATT POWERS
Dispatch Staff Writer

source: http://www.oneidadispatch.com/articles/2010/11/04/news/doc4cd362c0a5bdd543925045.txt?viewmode=fullstory

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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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