Ford to Ditch Microsoft Sync Technology for BlackBerry QNX, Sources Say

As reported by the Seattle Times: Ford, struggling with in-car technology flaws, will base the next-generation Sync system on BlackBerry’s QNX and no longer use Microsoft’s Windows, according to people briefed on the matter.

Using QNX will be less expensive than licensing Microsoft technology and will improve the flexibility and speed of the next Sync system, said the sources, who asked not to be identified because the decision hasn’t been made public.

Ford has more than 7 million vehicles on the road with Sync using Microsoft voice-activated software to make mobile-phone calls and play music.

The switch may help Ford, the second-largest U.S. automaker, address customer complaints about malfunctioning technology systems and touch screens, which have hurt it in surveys by J.D. Power & Associates and Consumer Reports.

For BlackBerry, it’s a vote of support for a company that lost 95 percent of its value from mid-2008 to November and saw the collapse of a proposed $4.7 billion buyout.

“This would be a huge infusion of trust and confidence to have BlackBerry and QNX expanding into a Ford,” said Thilo Koslowski, auto analyst for researcher Gartner. “This is really the crown jewel in BlackBerry’s crown and could make the rest of the company shine as well.”

BlackBerry stock rose 6.6 percent Monday while Microsoft stock slipped 0.8 percent.

“We do not discuss details of our work with others or speculate on future products for competitive reasons,” Susannah Wesley, a Ford spokeswoman, wrote in an email. Spokesmen for Redmond-based Microsoft and QNX declined to comment.

Ford has said the quality of its vehicles has been “mixed” each of the past three years and fell short of its plan to improve those results in 2013. CEO Alan Mulally was said to be a candidate to become Microsoft’s chief until early this year.

Improving Sync is crucial for Ford to draw car shoppers who are increasingly looking to be connected at all times.

In-vehicle technology is the top selling point for 39 percent of auto buyers, more than twice the 14 percent who say their first consideration is traditional performance measures such as power and speed, according to a study by the consulting firm Accenture released in December.

Ford and Lincoln ranked Nos. 26 and 27 out of 28 brands in Consumer Reports’ annual auto-reliability survey released in October.

While the Lincoln luxury line matched the industry average in J.D. Power’s Initial Quality study in June, the namesake finished 27th out of 33 brands.

Technology companies are competing to win business from automakers as in-car technology becomes an increasingly important selling point.

Google announced an alliance with General Motors, Honda, Hyundai and chipmaker Nvidia in January to bring the Android operating system to cars. Apple is working with BMW, Mercedes-Benz, Nissan and others to introduce its iOS operating system to cars with devices such as the iPhone.

BlackBerry’s QNX Software Systems can be found in cars made by Volkswagen’s Audi unit and BMW, according to its website. QNX and Microsoft are the main suppliers of automotive operating-system software, according to researcher IHS iSuppli.

The switch would be a significant blow to Microsoft’s automotive-software business because Ford is by far its biggest customer, said Gartner’s Koslowski. Microsoft also has software in Kia Motors, Fiat models, Nissan and BMW models, according to its website.

Getting into the Ford system will expand QNX’s industry-leading position for automotive entertainment operating systems, which Koslowski said he estimates is as high as 70 percent.

QNX has done a better job of integrating compatibility with other operating systems, Koslowski said.

“The industry is realizing it has to do a better job to create a unique experience for its customers,” he said.

SpaceX Falcon Rocket to Test Landing Legs

As reported by Discovery News: Space Exploration Technologies is installing landing legs on its next Falcon 9 rocket, part of an ongoing quest to develop boosters that fly themselves back to the launch site for reuse.

This time, however, SpaceX hopes to cushion the rocket’s destructive impact into the Atlantic Ocean by restarting the Falcon 9’s engine and extending landing legs that will be attached to the booster’s aft section. The goal is a soft touchdown on the water.

Falcon 9 “will continue to land in the ocean until we prove precision control” from hypersonic all the way through subsonic regimes, SpaceX founder, chief executive and design engineer Elon Musk said on Twitter.  

SpaceX has been chipping away at that challenge in a related series of technology development initiatives.

In October 2013, SpaceX completed a program called Grasshopper to develop precision landing techniques. From a launch pad in McGregor, Texas, SpaceX flew a 10-story, first-stage Falcon rocket that ultimately reached an altitude of .46 miles (744 meters) before touching back down.

An expanded program is due to begin this year from a new test site at Spaceport America in New Mexico. The new prototype, known as Falcon 9R, will be outfitted with nine Merlin 1D engines, rather than just the single motor flown on Grasshopper, to reach higher altitudes and faster descent rates.

Next month’s test will be SpaceX’s second using an operational rocket.

The company’s September 2013 debut of its upgraded Falcon 9 rocket (flying for the first time from California) included a restart of the spent first-stage to slow the rocket’s descent.

The first of two planned engine restarts was successful. The second one failed because the rocket was spinning. Centrifugal force cut off the flow of fuel.

Musk said afterward that landing legs should help stabilize the rocket.

Four legs, which are made of carbon fiber with aluminum honeycomb, will be placed symmetrically around the base of the rocket. They will be stowed along the side of the vehicle during launch and extended down and outward for landing, SpaceX’s website shows.

Musk said the legs used for next month’s test will have a span of about 60 feet.

"Given all the things that would have to go right, the probability of recovering the first stage is low ... but we’re getting closer," SpaceX spokeswoman Emily Shanklin wrote in an email to Discovery News.

The Falcon 9 rocket due to fly on March 16 will be carrying a Dragon cargo capsule for the International Space Station. The mission is the third of 12 under SpaceX’s $1.6 billion contract with NASA.

The company, based in Hawthorne, Calif., also is working on version of Dragon to fly people.

A Plan to Lower Speed Camera Error Rates By Reversing the Incentives

As reported by The Atlantic Cities: Baltimore's particular speed camera problem first came to light in 2012, when the Baltimore Sun revealed that at least seven of the city's 83 radar cameras, all of them owned and operated by Xerox State and Local Solutions, were prone to issuing fines to drivers who were not exceeding the speed limit. Xerox itself claimed it found only five cameras that didn't work, and shut them down. The city, meanwhile, downplayed the problem even further, claiming the error rate for Xerox speed cameras was "one-quarter of one percent." In short: Nothing to see here!

Xerox's contract with Baltimore ended in 2012, but the deal is making headlines again thanks to a recent audit showing the company's cameras performed worse than even the Sun realized. The big takeaway? That error rate of "one-quarter of one percent"—promoted by city officials!—was actually upwards of 10 percent; 26 percent of issued citations were "questionable." 

The Sun, which first reported on the leaked audit last month, explains the ramifications: "The city issued roughly 700,000 speed camera tickets at $40 each in fiscal year 2012. If 10 percent were wrong, 70,000 would have wrongly been charged $2.8 million." And that's the low-end projection for how much Baltimore and Xerox may have bilked from citizens. 

But wait, it gets worse. The administration has also refused a request from the city council to officially release the audit, conducted by URS Corp. at a cost of $278,000, because doing so would violate a contract with Xerox that prohibits Baltimore from "referring or relating to, or reflecting, each party's internal considerations, discussions, analyses, and/or evaluations of issues raised during the settlement discussions."

Baltimore's speed camera fiasco does at least have something resembling a silver lining. In December 2013, the city announced it would no longer engage in revenue sharing with traffic camera vendors—a practice that Maryland Governor Martin O'Malley has decried as a "bounty" system. While Xerox got a cut of each fine its cameras issued, the decision actually resulted fromproblem cameras owned and operated by Brekford, the company Baltimore brought in to replace Xerox. 

But Maryland legislators aren't content to see Baltimore simply abandon the bounty system (which is supposedly illegal under state law anyway). They want to completely flip the incentives for camera operators: instead of paying companies for each citation they issue, pending legislation would require operators to be fined $1,000 every time they issue a citation in error. "This gives the vendors great incentive to make sure that they have done their homework," says Baltimore County Delegate Jon Cardin, the bill's sponsor.

You'd have to build a fine like that into any vendor contract, which could scare away companies (Xerox, Brekford) that have histories of fleecing drivers. A flat fee to vendors combined with penalties for faulty citations might even mean cities would be unable to find a company to operate speed cameras. Considering that traffic cameras are mostly for revenue generation (despite promising that the Xerox contract would reduce speeding in Baltimore, the annual haul from the cameras increased every year), that probably wouldn't be a bad thing. But insofar as there's a case for speed cameras, eradicating the incentive to wrongly ticket good drivers should clearly be part of it. 

Approaching Navigation Nirvana: GNSS Antenna Module Supports All Satellites

As reported by M2M World News: Swiss-based u blox, a global leader in cellular and positioning modules and integrated circuits, introduces the CAM-M8Q GPS/GLONASS/BeiDou/QZSS antenna module. 

The module integrates a u-blox M8 satellite receiver IC plus SAW filter, LNA, TCXO, RTC, passives and a pre-tuned GNSS chip antenna in a tiny 9.6 x 14.0 x 1.95 mm package. Just add power for instant stand-alone global positioning!

Combining low power consumption with high-sensitivity, high jamming immunity and concurrent GNSS operation (GPS/GLONASS, GPS/BeiDou, or GLONASS/BeiDou) the surface-mount CAM-M8Q is truly a drop-in solution for reliable and accurate satellite positioning anywhere in the world.

“Our CAM-M8Q is perfect for customers designing highly compact products who want to speed up product development while freeing resources for core activities,” explains Thomas Nigg, VP Product Marketing at u-blox.

CAM-M8Q is ideal for a wide range of applications such as personal locators, handheld navigators, wearable electronics as well as vehicle telematics systems used for emergency call, anti-theft, insurance and road pricing. Consistent omnidirectional antenna performance insures excellent performance regardless of module orientation.

It also has a feature whereby the internal chip antenna can be used as a backup antenna if the design makes use of an external antenna. This is an important feature for applications where there is a risk that the primary external antenna may malfunction or suffer damage, for example in vehicle tracking systems where damage to the external antenna is possible.

The module uses the latest u-blox M8 GNSS receiver chip qualified according to AEC-Q100 and is manufactured in ISO/TS 16949 certified sites. Qualification tests are performed as stipulated in the ISO16750 standard: “Road vehicles – Environmental conditions and testing for electrical and electronic equipment”.

The CAM M8Q is form-factor compatible to predecessor modules UC530 and UC530M, allowing the upgrade of existing designs with minimal effort.

Now, if we can get ublox to add in an integrated eLORAN receiver, and MEMS (micro-mechanical sensors that include an accelerometer and gyroscope for short term inertial navigation) - we'd have a nearly perfect tracking product - potentially with jamming detection.  They already have the MEMS interface available in a different module (the 3D ADR), so they are very close to reaching navigation nirvana.

LEAP: Microsoft Tries To Re-Invent GPS With Cloud-Based Processing

As reported by The Register: Microsoft has released a tool that it hopes will make it possible to add location-sensing abilities to many more devices.

The Microsoft Cloud-Offloaded GPS Experimental Kit is part of an effort to gather location data from GPS satellites without using much power. That's important because, as Microsoft explains, few applications drain a mobile device's battery more rapidly than contacting satellites. Redmond therefore wonders what might happen if devices “log just enough raw GPS signal for postprocessing” in the cloud, instead of doing everything on the mobile device itself.

Microsoft’s even cooked up a cloud service, dubbed Low Energy Assisted Positioning (LEAP), to do that work. In this paper, the researchers explain it works as follows:  “The GPS receiver only needs to be on for less than a second to collect the submillisecond level propagation delay for each satellite's signal.

With a reference to a nearby object, such as a cell tower, the LEAP server can infer the rest of the information necessary to perform GPS position calculation.”

Microsoft's also created hardware to help the experiment along. Detailed here and dubbed CLEO, the device comprises a GPS receiver, battery and SD card slot. “Compared to more than 30 seconds of heavy signal processing on standalone GPS receivers, we can achieve three orders of magnitude lower energy consumption per location tagging,” Microsoft says.

CLEO devices cannot go online: users must gather their SD cards to upload data into a PC. But there's nothing to stop a CLEO being attached to something moving, where it will presumably last longer than conventional location-tracking devices thanks to its skimpy data-generating design.

At a time when plenty of apps offer real-time data acquisition and processing, this experiment may not seem particularly sophisticated. But with a bit more polish applied, Microsoft could conceivably find itself with a very handy addition to mobile device operating systems. And with a little lateral thinking it could find itself with a very interesting device and service combination to fuel its aim of becoming a devices and services company.

One small wrinkle suggests itself: Google got itself into an awful lot of trouble by geolocating WiFi modems. Material about this project mentions using known pieces of infrastructure like cell towers to assist the location process, but neglects to say how Redmond came by or intends to source that data. Surely Microsoft won't go where even Google now fears to tread?

New, Inexpensive Solar Materials Boost Promise Of Hydrogen Fuel

As reported by the University of Wisconsin-Madison News: Generating electricity is not the only way to turn sunlight into energy we can use on demand. The sun can also drive reactions to create chemical fuels, such as hydrogen, that can in turn power cars, trucks and trains.

The trouble with solar fuel production is the cost of producing the sun-capturing semiconductors and the catalysts to generate fuel. The most efficient materials are far too expensive to produce fuel at a price that can compete with gasoline.

"In order to make commercially viable devices for solar fuel production, the material and the processing costs should be reduced significantly while achieving a high solar-to-fuel conversion efficiency," says Kyoung-Shin Choi, a chemistry professor at the University of Wisconsin-Madison.

Kyoung-Shin Choi

In a study published last week in the journal Science, Choi and postdoctoral researcher Tae Woo Kim combined cheap, oxide-based materials to split water into hydrogen and oxygen gases using solar energy with a solar-to-hydrogen conversion efficiency of 1.7 percent, the highest reported for any oxide-based photoelectrode system.

Choi created solar cells from bismuth vanadate using electrodeposition — the same process employed to make gold-plated jewelry or surface-coat car bodies — to boost the compound's surface area to a remarkable 32 square meters for each gram.

"Without fancy equipment, high temperature or high pressure, we made a nanoporous semiconductor of very tiny particles that have a high surface area," says Choi, whose work is supported by the National Science Foundation. "More surface area means more contact area with water, and, therefore, more efficient water splitting."

Bismuth vanadate needs a hand in speeding the reaction that produces fuel, and that's where the paired catalysts come in.

While there are many research groups working on the development of photoelectric semiconductors, and many working on the development of water-splitting catalysts, according to Choi, the semiconductor-catalyst junction gets relatively little attention.

"The problem is, in the end you have to put them together," she says. "Even if you have the best semiconductor in the world and the best catalyst in the world, their overall efficiency can be limited by the semiconductor-catalyst interface."

“Without fancy equipment, high temperature or high pressure, we made a nanoporous semiconductor of very tiny particles that have a high surface area.”

Kyoung-Shin Choi

Choi and Kim exploited a pair of cheap and somewhat flawed catalysts — iron oxide and nickel oxide — by stacking them on the bismuth vanadate to take advantage of their relative strengths.

"Since no one catalyst can make a good interface with both the semiconductor and the water that is our reactant, we choose to split that work into two parts," Choi says. "The iron oxide makes a good junction with bismuth vanadate, and the nickel oxide makes a good catalytic interface with water. So we use them together."

The dual-layer catalyst design enabled simultaneous optimization of semiconductor-catalyst junction and catalyst-water junction.

"Combining this cheap catalyst duo with our nanoporous high surface area semiconductor electrode resulted in the construction of an inexpensive all oxide-based photoelectrode system with a record high efficiency," Choi says.

She expects the basic work done to prove the efficiency enhancement by nanoporous bismuth vanadate electrode and dual catalyst layers will provide labs around the world with fodder for leaps forward.

"Other researchers studying different types of semiconductors or different types of catalysts can start to use this approach to identify which combinations of materials can be even more efficient," says Choi, whose lab is already tweaking their design. "Which some engineering, the efficiency we achieved could be further improved very fast."

The Future of Photography: Drones

As reported by The Atlantic: Drones are being used to film ski and snowboarding events at the Winter Olympics in Sochi, as you may have noticed. But the use of unmanned aerial vehicles for sports photography is far from a passing gimmick. In fact, you should expect more and more athletic events to be filmed by drone.

Remo Masina isn't involved in shooting the Olympics, but he's already familiar with drones' finesse for filming winter sports: He uses them to film skiers for commercials. The drones are quieter and cheaper than a manned helicopter (though they can still cost up to $40,000), he told the Associated Press, and they allow the filmmaker to get much closer to his subject.

Drones are also more flexible than cable-suspended camera systems, which are also present at the Winter Olympics. While live transmission is tricky—it requires an extra transmitter, which weighs on the drone—Masina says he's flown such devices at over 40 mph while delivering live, high-definition video.

Masina says that drones are "for sure" the future of sports broadcasting. UK company HeliPOV, which provides drones on which to mount existing cameras, has some great examples of just how cool the resulting video can be:

It won't take long for drones to be fully integrated into broadcasting: One company is already prototyping drones that automatically follow a person from a few feet away—perfect, they say, for downhill skiing. And drones are also making appearances at events smaller than the Olympics.

There are limitations: In many countries, drone regulations are still lagging behind the times, and it might not be clear to a broadcaster that they can be used legally. Then there are concerns about crashes. But with the risks low and potential benefits high, it could be that sports photography will be one of the first uses of drones to go mainstream.

Expect similar kinds of photography drones to be used for near-real-time GIS street level mapping, and for aerial maps typically provided by Earth satellite systems:  Drone generated street views for both indoor, and outdoor applications are not far away.