Sony patents vein reading system for accessible computers, toilets

Sony patents vein reading system for accessible computers, toilets

In a sign of just how backed up our patent system is, Sony was finally awarded a series of claims for a vein-reading mouse it filed back in January of 2009. The idea is to use an image of the blood vessels in your index finger as an authentication system. But, instead of unlocking a PC, the identity would be associated with a set of preferences -- automatically boosting contrast and text size on a screen for the elderly. While the patented claims apply exclusively to computer mice, Sony envisions vein readers everywhere, personalizing and simplifying life for the aging... even in the bathroom. Another embodiment of the system involves scanning a persons finger as they turn the doorknob to the lavatory. Once authenticated, data is sent to the toilet which automatically lifts the seat, then adjusts the force and angle of the bidet based on your preferences. Once again, Japan proves why it's winning the race in toilet technology.

Sony patents vein reading system for accessible computers, toilets originally appeared on Engadget on Wed, 04 Jul 2012 17:29:00 EDT. Please see our terms for use of feeds.

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Researchers use 3D printer, sugar, to create a fake artery network for lab-grown tissue

Researchers use 3D printer, sugar, to create a fake artery network for lab-grown tissue

Printing a chocolate heart is easy enough, but how about an actual organ? There are folks working on it, but it turns out those veins of yours aren't exactly a breeze to replicate. Researchers at the University of Pennsylvania and MIT may have found a semi-sweet solution -- dissolving a sugar lattice in a batch of living Jell-O. The research team uses a RepRap 3D printer and a custom extruder head to print a filament network composed of sucrose, glucose and dextran which is later encased in a bio-gel containing living cells. Once the confectionery paths are dissolved, they leave a network of artery-like channels in their void. Tissue living in the gel can then receive oxygen and nutrients through the hollow pipes.

The research has been promising so far, and has increased the number of functional liver cells the team has been able to maintain in artificial tissues. These results suggest the technique could have future research possibilities in developing lab-grown organs. MIT Professor Sangeeta Bhatia, who helped conduct the effort, hopes to push the group's work further. "More work will be needed to learn how to directly connect these types of vascular networks to natural blood vessels while at the same time investigating fundamental interactions between the liver cells and the patterned vasculature. It's an exciting future ahead." Scientists at other labs could also get their mitts on the sweet templates since they're stable enough to endure shipping. Head past the break for a video of the innard infrastructure.

Continue reading Researchers use 3D printer, sugar, to create a fake artery network for lab-grown tissue

Researchers use 3D printer, sugar, to create a fake artery network for lab-grown tissue originally appeared on Engadget on Tue, 03 Jul 2012 04:07:00 EDT. Please see our terms for use of feeds.

Permalink Hack a Day  |  sourceNature, University of Pennsylvania  | Email this | Comments