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LG Unveils Flexible Display That Can Be Rolled Up Like A Piece Of Paper "LG’s display division yesterday announced two new types of panels, a rollable 18-inch OLED panel and an 18-inch transparent OLED panel. ...Instead of using plastic to achieve this level of flexibility, LG said the panel is made out of a "high molecular substance-based polyime film". The transparent panel, as LG explained, has 30% transmittance, which is significantly higher than the 10% transmittance in existing transparent LCD panels. LG says that it achieved this by adopting the company’s transparent pixel design technology and incorporating it into the new display." via Forbes

How Epson Keeps Innovating With R&D "Projector technology too has developed step by step. The 3LCD technology that powers projectors used for offices, education and homes had its origins in 1977 when Epson started to develop the active-matrix LCD chips. In 1982 it introduced the TV watch and later shifted to polysilicon TFT systems, that ironed out picture quality and size issues. In 1984, the company commercialised the world’s first pocket-sized colour TV, the ET-10. In 1989 Epson used 3 LCD technology for its first brand projector and since then High Temperature Polysilicon (HTPS) has been the key component of 3LCD projectors. Ask employees at Epson and they will tell you that R&D is the heart of their organisation. Consumers, for instance have been experiencing Epson products with diverse uses." via The Hindu Business Line

Where Does LG Display Manufacture Its Innovative Technology? "I am at the largest screen factory in the world - LG Display's Paju Complex, in South Korea, on an extensive tour. ...In a bright white space-age showroom, Epic Kim shows us possibilities that OLED opens up. Some of these products have already made it to the market - just. LG sells a inwardly curving OLED TV, which is much more impressive than it sounds, and even a semi-flexible smartphone, named the G Flex. Other innovations have not found a product yet - take the insanely high-resolution smartphone screen that is twice as sharp as an iPhone, the 3D TV that does not require glasses, or the fully transparent touchscreen, which I found the most exciting. Why hide the innards of your new smartphone? Why buy a TV when your whole window can show a movie? Why buy curtains when your window can become a black screen?" via The Age

‘Sensor Salon’ brings LCD screens, 3D-printed objects and sensors to fingernails "That’s the vision of students from the Art Center College of Design in Pasadena, Calif., who presented their “Sensor Salon” project at Microsoft today — explaining how they created a prototype salon that brought together experts in design and development to create made-to-order technology for a client’s nails. Technologies embedded in the nails included small programmable LCD screens, and 3D printed objects and charms. ...Other possibilities would include haptic feedback — sensors that would trigger small vibrations that could help people with bad habits such as smoking." via GeekWire

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What Happened At SID Display Week? IDTechEx Summarizes the Show "The impact of the emergence of Chinese manufacturing was not overlooked this year during SID last month, with the opening keynote talk delivered by Wang Dongsheng, president and co-founder of BOE, the largest Chinese display manufacturer. With over 20,000 usable patents and 4,200 patent applications, BOE is in growth mode on a massive scale, with 35% of its products globally launched in 2013. The company is obviously looking to make significant profits from the juggernaut that is the display industry, with an accumulated investment of $260 billion since 1990. Wang Dongsheng though used the term during his keynote "The display industry is suffering from success", referring to its low profitability." via Printed Electronics World

How flexible, micro-thin displays could revolutionize liquid crystal technology "A new research study published in this week's journal of Nature has shown the proof of concept for using what are known as 'phase change materials' – materials that can rapidly switch between amorphous and crystalline states when heat or electrical charge is applied – as building blocks for a whole new generation of ultra-high resolution displays. ..."The main advantage of these displays is not only that they have ultra-high resolution, but also are solid state that can be put on highly flexible films," said team leader Harish Bhaskaran, a materials scientists at Oxford University in an interview with Yahoo Canada News. "Also, power consumption is low and in many respects it can retain the image until you go and change it, so no power is required when the image is static, unlike conventional screens that require refreshing," added Bhaskaran." via Yahoo! News

Why is Samsung the only one buying AMOLED displays? " ZDNet Korea did an interview with Samsung Display CEO Park Dong-Geun specifically on this topic, and he had a little more to say on it, specifically what Samsung Display is going to do about it. Park talked about Samsung’s current expansion into China and other markets where its devices are at saturation point, and would like to see expansion of its display division into these territories as well. Right now LCD is the most popular form of display on devices, particularly mobile ones, and Samsung wants to try to convince device manufacturers that AMOLED is the way to go, as they say it provides a richer user experience by giving the user better visuals. Right now they have to fight the fact that they are the largest consumer electronics company in the world, and as such many are likely choosing to support the underdog rather than the big dog." via AndroidHeadlines

How is Jaguar Land Rover enhancing the automotive display experience? "The car maker unveiled its 'Jaguar Virtual Windscreen' concept that uses the windscreen as a display to project information like racing line and braking guidance, ghost car racing and virtual cones. Jaguar Land Rover Research and Technology director Dr Wolfgang Epple said, "By presenting the highest quality imagery possible, a driver need only look at a display once. "Showing virtual images that allow the driver to accurately judge speed and distance will enable better decision-making and offer real benefits for every-day driving on the road, or the track." (Video)" via Automotive Business Review

How does new transparent touchscreen display work on both sides? "Their TransWall is not only transparent, but it can also receive input and display content on either side of its screen, plus it's capable of haptic feedback. The system is housed within a T-shaped frame that also incorporates two overhead-mounted projectors, which project visuals onto either side of the screen. That screen is made up of two sheets of plexiglass, with a clear holographic film sandwiched between them. Bordering those sheets are two rectangular infra-red touch sensor frames, one on either side. A surface transducer is also mounted in the plexiglass above the frames, plus microphones are integrated into each of them." via Gizmag

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Waterproof, glare-free phone screens invented "The team at The Institute for Photonic Sciences in Barcelona, in conjunction with Corning Incorporated (the makers of the tough Gorilla Glass adorning many of today's premium smartphones) developed a novel technique of "roughing" the glass surface without sacrificing transparency. ...This discovery has strong implications for the mobile industry, where similar effects can only be produced by polarising filters placed over the screen. But these filters can interfere with the capacitive touch interface of many smart screens, a problem Pruneri's team believes may not be the case with their "roughening" method." via Wired

takee Holographic Handset Disrupts Traditional Technology "After 10 years of research and development, takee holographic handsets are taking the lead in handset screen display technology, making a disruptive breakthrough in the field. ...Something of note is that the takee holographic handset is fundamentally different from Fire Phone handset recently released by Amazon. Fire Phone's display technology is not a naked-eye 3D display technology, but rather employs Dynamic Perspective 3D technology, in actuality a form of 2D display technology. In other words, what one is observing is a dynamic expression of a traditional 2D handset instead of a visual display of holographic technology. In this regard, the takee holographic handset outdoes competitors by jumping ahead one generation." via Consumer Electronics Net

How is the digital signage industry being threatened? ""The industry faces tough competition from ordinary consumer television products that are being used by commercial establishments instead of specially outfitted digital signage displays, and the result is a loss for the signage industry as sales go instead to consumer-type replacements." Digital signage panel manufacturers and set makers can capitalise on existing advantages offered by the technology. These include high-brightness displays of 1,000 to 1,500 nits without compromising display lifetimes; ultra-narrow bezel displays for data visualisation; ultra-high-definition displays in high-end applications such as architecture firms and medical operating theatres; and touch, gesture or embedded vision for segments like education, for use in interactive whiteboards." via InAVate

Is the iPhone 6 Sapphire Crystal Display Really Unbreakable? Watch the Test "In an effort to test just how durable the suppose 4.7-inch iPhone 6 panel is, Marques puts it through a serious of gruesome tests, first by stabbing it with a knife, and then with a set of keys. He goes at it pretty hard, too—harder than your average phone would see on a daily basis—and the panel is essentially left unscathed. Even the sharp knife is no match for the sapphire crystal, inflicting zero damage. It’s incredibly impressive. Say good-bye to screen protectors once and for all. (Video)" via TechnoBuffalo

Does display form factor matter? "The way I see it, Google Glass is an early shot at making the computer disappear, at making it hide in the furniture. The true ideal form factor is one that isn’t there at all. It’s just a pure human interface. No friction. ...But even screen size can be handled as a relative matter. Apparent screen size is a function of distance between the viewer’s eyes and the screen and its actual dimensions. A 13cm (5.1”) screen held 60cm (~2’) away takes up the same field of vision as a 130cm (51.2”) screen at 600cm (~20’). You can watch a movie on a phone at two feet or on a big TV at 20 feet." via Forbes

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Is the world finally ready for Virtual and Augmented Reality? "The year is 1979 and Richard Bolt, a student at MIT, demonstrates a program that enables the control of a graphic interface by combining both speech and gesture recognition. ...To this day, Richard’s research speaks to the core of what natural gesture technology aims to achieve, that “natural user modality”. While advances in HMI have continued to iterate and improve over time, the medium for our visual interaction has remained relatively intact: the screen. Navigation of our modern UI has been forced to work within the limits of the 2D screen. With the emergence of AR and VR, our traditional forms of HMI do not provide the same accessible input as the mouse and touch interfaces of the past. Our HMI must evolve to allow users the ability to interact to the scene and not the screen." via Games Alfresco

What's the Secret to Tackling Three Touchscreen Design Challenges? "The secret to achieving the low energy, high performance capacitive sensing is a hardware-based capacitive-to-digital converter (CDC). The CDC consists of two current digital-to-analog converters or DACs. The first is a variable DAC that delivers the current to the external sensor capacitor, and the second is a constant current source for an internal reference capacitor. Capacitance is measured using successive approximation registers (SAR) which is an efficient process immune to DC offset and requires no external components. The CDC improves accuracy and noise immunity by performing a two-stage discharge of the external capacitor to remove ambient noise energy captured during the discharge process. The CDC offers a wide dynamic range by adjusting gain and reducing source current to change the charge timing and more directly reflect the voltage at the capacitive sensor when the source current and series impedance are both high (i.e., such as when using a touch panel or ESD protected capacitive pads)." via Silicon Labs

How healthy is the medical imaging display market? "The worldwide market demand for medical imaging displays used in clinical review, medical diagnostics and surgical procedures, is showing strong growth, according to the new NPD DisplaySearch Specialty Displays Report. Between 2013 and 2017, global revenues for the displays used in surgical procedures and clinical review are each expected to grow at a compound average rate of 9%. Growth in diagnostic displays is forecast to increase 5% per year. ...The number of radiology investigations continues to increase annually, spurring growth in the diagnostic display market. The 21.3in display, now comprising 67% of the market, will continue to dominate this category. However, due to specialised panel and backlight requirements, few manufacturers participate in this niche market. Those that do participate have limited capabilities and some run on older, less-efficient production lines. Therefore, the costs to produce these panels are higher than the more commoditised displays, which results in relatively stable ASPs." via Installation

Pilot's Eye View of the F-35 Head-Up Display "The Rockwell Collins ESA Vision Systems F-35 Gen III helmet mounted display provides unprecedented situational awareness for pilots. AINtv spoke with F-35 Lightning II Chief Test Pilot Alan Norman about what makes this head-up display special. (Video)" via AINtv

Display Industry Trends – Survey Results "The two questions on laser phosphor projectors seemed consistent with what was discussed at Display Summit a couple of weeks ago. But nearly 1/3 don’t see the technology becoming a mainstream product, a bit higher than I would have expected. This probably means that lamp-based projectors will become value products - and there will continue to be a market for them. On the question of lumen output in 5 years, some are very bullish (17%) seeing the technology enabling projectors with over 35K lumens of light output. Many were unsure about this question." via Display Central

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