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Tuesday, September 1, 2015

Trucking: Driver Harassment and the Electronic Logging Device Mandate

As reported by FleetOwnerAfter a U.S. district court passed down a judgement in 2011 that the FMCSA did not sufficiently address driver harassment in its previous electronic logging device (ELD) rulemaking, the agency was forced to go back to the drawing board.
Publication of the FMCSA’s new electronic logging device rule is just around the corner – with a projected publication date of Sept. 30.
ELDs enable truck drivers and commercial motor carriers to electronically track hours of service (HOS) compliance. One of the major concerns surrounding the upcoming ELD mandate is how it will address the potential for driver harassment. During an Aug. 26 webinar, Tom Cuthbertson, discussed just that.
After the court nixed its previous mandate, the FMCSA began holding listening sessions on the topic, Cuthbertson said. The issues that emerged from those discussions include:
  • How log hours changed in the automatic on-boarding recording devices (AOBRD) without driver knowledge
  • Comments regarding treatment of employment if drivers were found not driving beyond limits
  • Comments on how shippers can force drivers to move vehicles from their property
  • Prohibition of Coercion Notice of Proposed Rulemaking
The upcoming mandate, is looking like it will allow drivers to edit their own logs and create annotations on all entries and edits. This, Cuthbertson noted, puts drivers in control of their own logs. He added that drivers will be able to approve all edits from the system before they’re applied, and that even though the back office can make edits, all must be approved by the driver before final submission. If a driver rejects an edit, the carrier then begins a process for reconciliation, Cuthbertson explained.
Another regulation that came up is the content of the Prohibition of Coercion Notice of Proposed Rulemaking. Cuthbertson said this more clearly defines coercion from the dispatcher, carrier, broker or shipper of the driver. That could mean penalties of $11,000 and punitive damages of $250,000 if a harassment issue becomes a labor case, he added.
“This addresses harassment, so drivers have an opportunity to do something if they think [harassment] could have happened,” Cuthbertson explained.
During the question-and-answer portion of the webinar, one attendee asked Cuthbertson if drivers could “cheat” the ELDs by unhooking relays. Cuthbertson advised that would be a mistake.
“If they unhook, we’re going to know it was unhooked because there’s going to be a gap in the odometer readings,” he explained, adding that this move would only generate more questions. “If someone wants to do that, they’ll be making a mistake. Trying to dance around it would not be advisable; there’s enough information to track it.”
Another attendee asked about potential issues that can arise when logging on and off the ELD. Cuthbertson advised that drivers would have to be careful to identify the difference between on- and off-duty activities.
Drivers logging on and in the vehicle are considered on duty, he said, adding that any activity involving the vehicle would be considered on duty. Meal breaks and sleeping are considered off duty.
By 2017, or two years after a final rule is filed, all CDL drivers will be required to keep a record of duty status and must use an ELD to document their compliance with HOS rules. The new rule will add technical and performance specifications that define what the device must feature.
Currently ELDs must:
  • Connect to the truck’s engine to record if the truck is in motion
  • Allow the driver to log in and select on-duty, off-duty, or on-duty not driving; drive segments must be automatically selected based on vehicle movement
  • Graphically display a record of duty status, so a driver can quickly see hours in a day
  • Provide data in a format that’s standardized and can be transmitted to law enforcement in a number of prescribed ways, such as wireless web services, USB, or Bluetooth 2.0
  • Be provider-certified that the device meets the proper specifications
  • Be listed on an FMCSA website (upcoming)

Monday, August 31, 2015

The Dreadnought 2050: England's Royal Warship Of The Future

As reported by Sky NewsEngineers have provided a glimpse of what the Royal Navy's surface ships could look like in the future.

The design of Dreadnought 2050 includes a new style of operation room that would give commanders an improved focus on areas thousands of miles away.
Engineers believe the warship could be manned by a crew of 50 - a significant reduction from modern vessels, which usually have a crew of 200.
The images of the ship have been released by a group of leading British naval electronic systems companies who worked with experts Startpoint.
The original HMS Dreadnought entered service in 1906 and was such an advance at the time that all it rendered all other major warships obsolete.
Commander Steve Prest, the Royal Navy's fleet robotics officer, said: "In 2013 the Royal Navy challenged the defense industry to innovate, and to generate new opportunities to give it an operational edge.
"We therefore welcome a project that allows some of Britain's best and brightest young engineers to come up with ideas on what a warship might look like or be equipped with in 2050.
"We want to attract the best new talent to sea to operate, maintain and develop systems with this level of ambition."
Muir Macdonald, from Startpoint, said: "The Royal Navy needs visionary, innovative thinking and these concepts point the way to cutting-edge technology which can be acquired at less cost and operated with less manpower than anything at sea today in the world's leading navies."
The images of futuristic vessel were released as Chancellor George Osborne announced £500m to be spent on sea walls, jetties and other projects at the Faslane naval base, the home of the UK's nuclear deterrent. 

Saturday, August 29, 2015

Aircraft Company Offers Stake in Vertical Take-off and Landing Business Plane

As reported by GizmagCrowdfunding is usually associated with consumer goods like smartwatches and drones, but XTI Aircraft Company of Denver, Colorado is hoping to score a double first with its TriFan 600. Pitched as the first commercially certified high-speed, long-range Vertical Takeoff and Landing (VTOL) airplane that combines the vertical lift capability of a helicopter with the speed of an airplane, it's also the first major aviation project to launch an equity crowdfunding campaign in the wake of new rules approved by the U.S. Securities and Exchange Commission.
Under development for two years, the TriFan 600 is designed as a six-seat, fixed-wing, composite-construction, fly-by-wire airplane with both VTOL capabilities and the speed and range of a conventional business jet. It would carry a pilot and five passengers at a cruising speed of 340 knots (400 mph, 644 km/h) and have a ceiling of 30,000 ft (9,000 m). Its two high-performance turboshaft engines give it a range of 800 to 1,200 mi (1,300 to 1,900 km), depending on takeoff method and payload.
Meanwhile, three ducted fans behind a sliding hatch provide vertical lift. One selling point of the aircraft is that by eliminating the need to travel to and from airports and transport passengers door-to-door (or helipad-to-helipad), it would be competitive even with faster conventional aircraft. The TriFan 600 will initially be targeted at business customers and is expected to cost from US$10 to $12 million.
According to the company, the TriFan 600 has a choice of interior fitouts, ranging from luxury business seating to medical evacuation or air ambulatory configurations.
On Tuesday, XTI Aircraft announced an equity crowdfunding campaign that the company refers to as the "first fundraising effort of its kind in aviation history." Based on new rules approved by the U.S. Securities and Exchange Commission, backers can buy a stake in the company. The campaign is part of a larger fundraising effort that is also looking to attract venture capital, private equity, and high net-worth investors.
The new company boasts some high-powered officers, including Vice Chairman Jeffrey Pino, who is the former president and chief executive of Sikorsky Aircraft, board member Charlie Johnson, who is the former president of Cessna Aircraft Company, and Chief Engineer and board member Dennis Olcott, who served as chief engineer for Adam Aircraft and the PiperJet program.
If the fundraising effort is successful, the company aims to get the first proof of concept prototype completed in two-and-a-half years before building another one or two prototypes for further testing and FAA certification.
"We view equity crowdfunding as a creative way to involve everyone as true stakeholders working together to pioneer this all new way to fly," says Brody. "It's a way to turn all of our supporters into potential stockholders by providing the public a once-in-a-lifetime chance to get in early on something truly revolutionary."
The video below introduces the TriFan 600.

Tesla Agrees to Buy Lithium from Mexican Mine for its Gigafactory

As reported by Fortune: Tesla has entered into an agreement to buy lithium from a soon-to-be-built mine in Northern Mexico to supply a key ingredient in the batteries that it will eventually churn out in its large battery factory.

The companies that own the mine, Bacanora Minerals and Rare Earth Minerals, announced a conditional supply agreement on Friday. The mine, called the Sonora Lithium Project, will just be one of the lithium suppliers to Tesla’s Gigafactory.

The deal is subject to various terms and conditions. One of the biggest is that Bacanora and Rare Earth Metals will need to raise funding and then build out the mine and a lithium processing facility.

The lithium-deposit region is less than 200 miles south of the border with the U.S., in the state of Sonora in Mexico. The companies estimate that it will be able to produce 35,000 tons of lithium compounds, with a potential to grow that to 50,000 tons, when fully constructed.

The companies have previously estimated that it would take them $114 million to build out a lithium mine on the site. But in the release the companies said they were doing a new study to determine the costs now that the companies would build out the site to supply Tesla with the materials and volumes it wants.

Lithium deposits can produce both of the compounds lithium hydroxide and lithium carbonate. Depending on the type of battery chemistry, lithium-ion battery makers would buy one or the other to supply the key ingredient for their lithium-ion batteries. Tesla plans to buy lithium hydroxide from the mine.

Another big condition is once the mine is built out, it must provide Tesla with the volumes of lithium it wants and at the speed that Tesla requires. The mine must reach performance milestones over the next two years, for Tesla to buy lithium from the mine. Following that time period, from the first order of lithium, the deal is for five years, with an option to extend it for another five years.

Tesla’s massive Gigafactory is under construction just outside of Reno, Nevada. The factory intends to churn out enough lithium-ion batteries to supply 500,000 electric cars by 2020.

Friday, August 28, 2015

Artificial Leaf Harnesses Sunlight for Efficient Fuel Production

As reported by Phys.orgGenerating and storing renewable energy, such as solar or wind power, is a key barrier to a clean-energy economy. When the Joint Center for Artificial Photosynthesis (JCAP) was established at Caltech and its partnering institutions in 2010, the U.S. Department of Energy (DOE) Energy Innovation Hub had one main goal: a cost-effective method of producing fuels using only sunlight, water, and carbon dioxide, mimicking the natural process of photosynthesis in plants and storing energy in the form of chemical fuels for use on demand. Over the past five years, researchers at JCAP have made major advances toward this goal, and they now report the development of the first complete, efficient, safe, integrated solar-driven system for splitting water to create hydrogen fuels.

"This result was a stretch project milestone for the entire five years of JCAP as a whole, and not only have we achieved this goal, we also achieved it on time and on budget," says Caltech's Nate Lewis, George L. Argyros Professor and professor of chemistry, and the JCAP scientific director.
The new solar fuel generation system, or , is described in the August 27 online issue of the journal Energy and Environmental Science. The work was done by researchers in the laboratories of Lewis and Harry Atwater, director of JCAP and Howard Hughes Professor of Applied Physics and Materials Science.
"This accomplishment drew on the knowledge, insights and capabilities of JCAP, which illustrates what can be achieved in a Hub-scale effort by an integrated team," Atwater says. "The device reported here grew out of a multi-year, large-scale effort to define the design and materials components needed for an integrated solar fuels generator."
The new system consists of three main components: two electrodes—one photoanode and one photocathode—and a membrane. The photoanode uses sunlight to oxidize , generating protons and electrons as well as oxygen gas. The photocathode recombines the protons and electrons to form hydrogen gas. A key part of the JCAP design is the plastic membrane, which keeps the oxygen and hydrogen gases separate. If the two gases are allowed to mix and are accidentally ignited, an explosion can occur; the membrane lets the hydrogen fuel be separately collected under pressure and safely pushed into a pipeline.

Artificial leaf harnesses sunlight for efficient fuel production
A highly efficient photoelectrochemical (PEC) device uses the power of the sun to split water into hydrogen and oxygen. The stand-alone prototype includes two chambers separated by a semi-permeable membrane that allows collection of both gas products. Credit: Lance Hayashida/Caltech

Semiconductors such as silicon or gallium arsenide absorb light efficiently and are therefore used in solar panels. However, these materials also oxidize (or rust) on the surface when exposed to water, so cannot be used to directly generate fuel. A major advance that allowed the integrated system to be developed was previous work in Lewis's laboratory, which showed that adding a nanometers-thick layer of titanium dioxide (TiO2)—a material found in white paint and many toothpastes and sunscreens—onto the electrodes could prevent them from corroding while still allowing light and electrons to pass through. The new complete solar fuel generation system developed by Lewis and colleagues uses such a 62.5-nanometer-thick TiO2 layer to effectively prevent corrosion and improve the stability of a gallium arsenide–based photoelectrode.
Another key advance is the use of active, inexpensive catalysts for fuel production. The photoanode requires a catalyst to drive the essential water-splitting reaction. Rare and expensive metals such as platinum can serve as effective catalysts, but in its work the team discovered that it could create a much cheaper, active catalyst by adding a 2-nanometer-thick layer of nickel to the surface of the TiO2. This catalyst is among the most active known catalysts for  molecules into oxygen, protons, and electrons and is a key to the high efficiency displayed by the device.

Artificial leaf harnesses sunlight for efficient fuel production
Illustration of an efficient, robust and integrated solar-driven prototype featuring protected photoelectrochemical assembly coupled with oxygen and hydrogen evolution reaction catalysts. Credit: Image provided courtesy of Joint Center for …more

The photoanode was grown onto a photocathode, which also contains a highly active, inexpensive, nickel-molybdenum catalyst, to create a fully integrated single material that serves as a complete solar-driven water-splitting system.
A critical component that contributes to the efficiency and safety of the new system is the special plastic membrane that separates the gases and prevents the possibility of an explosion, while still allowing the ions to flow seamlessly to complete the electrical circuit in the cell. All of the components are stable under the same conditions and work together to produce a high-performance, fully integrated system. The demonstration system is approximately one square centimeter in area, converts 10 percent of the energy in sunlight into stored energy in the chemical fuel, and can operate for more than 40 hours continuously.
"This new system shatters all of the combined safety, performance, and stability records for artificial leaf technology by factors of 5 to 10 or more ," Lewis says."Our work shows that it is indeed possible to produce fuels from sunlight safely and efficiently in an integrated system with inexpensive components," Lewis adds, "Of course, we still have work to do to extend the lifetime of the system and to develop methods for cost-effectively manufacturing full systems, both of which are in progress."
Because the work assembled various components that were developed by multiple teams within JCAP, coauthor Chengxiang Xiang, who is co-leader of the JCAP prototyping and scale-up project, says that the successful end result was a collaborative effort. "JCAP's research and development in device design, simulation, and materials discovery and integration all funneled into the demonstration of this new device," Xiang says.

Thursday, August 27, 2015

Welcome to the World, Drone-Killing Laser Cannon

As reported by WiredHANG ON TO your drone. Boeing’s developed a laser cannon specifically designed to turn unmanned aircraft into flaming wreckage.

The aerospace company’s new weapon system, which it publicly tested this week in a New Mexico industrial park, isn’t quite as cool as what you see in Star Wars—there’s no flying beams of light, no “pew! pew!” sound effects. But it is nonetheless a working laser cannon, and it will take your drone down.
People keep flying their drones where they shouldn’t. In airport flight paths. Above wildfires. Onto the White House lawn. Luckily, there haven’t been any really bad incidents—that is, no one has been killed by a civilian quadcopter or plane, yet.


But governments and militaries around the world are terrified by the prospect of drones carrying explosives or chemical weapons (and now, pornography) into places where they shouldn’t.
There are lots of theories on the best way to deal with the drone threat. An Idaho company has developed special anti-drone shotgun shells. Some agencies are working on jamming technology to block communication from the operator to the aircraft. Firefighters in New York kept it simple, aiming their hose at a pesky drone hovering near a house fire.
Forget all that. Boeing thinks the best way to kill a drone is to zap it with a precision laser, burn a hole in it, and bring it down. So it created a weapon system to do just that—and the result could someday be installed everywhere from LaGuardia to the Pentagon.
Wednesday morning, the company showed off its Compact Laser Weapon System for media in Albuquerque, New Mexico. It’s a much smaller, significantly more portable version of the High Energy Laser Mobile Demonstrator (HEL MD) Boeing demonstrated last year. This setup looks like an overgrown camera, swiveling around on a tripod.
In the demo, Boeing used the laser to burn holes in a stationary, composite UAV shell, to show how quickly it can compromise an aircraft. Two seconds at full power and the target was aflame. Other than numerous safety warnings to ensure no one was blinded by the two-kilowatt infrared laser, there was no fanfare. No explosions, no visible beam. It’s more like burning ants with a really, really expensive magnifying glass than obliterating Alderaan.
Instead of a massive laser mounted on a dedicated truck, the compact system is small enough to fit in four suitcase-sized boxes and can be set up by a pair of soldiers or technicians in just a few minutes. At the moment, it’s aimed primarily at driving drones away from sensitive areas.


The new system is more scalpel than sledgehammer. Its laser, and, especially, the off-the-shelf gimbal (a fancy motor that can aim the laser and camera in any direction) it’s mounted on, make it precise enough to target different parts of a UAV. Want to zap the tail so it crashes and then you can go retrieve the mostly intact drone and see who is trying to spy on you? Can do. Think it’s carrying explosives and you want to completely destroy it? No problem. Boeing wouldn’t get specific on its range, but company reps suggested that if you can see a target, even with binoculars, you can kill it.
Depending on the target’s speed and distance, Boeing’s weapon can fire its laser within an inch or two of what it wants to hit. Because the laser moves at the speed of light, it’s easier to be precise—there’s no need to lead the target. The speed of the gimbal is the primary limitation on the targeting front.
The laser is controlled with a standard Xbox 360 controller (“If it breaks, just head to the barracks to get a replacement!”) and a laptop with custom targeting software. Once in range, the system can take over from the human operator and control targeting and tracking automatically. Though current prototypes are meant to be used from static positions, the new weapon could be used on a moving vehicle or ship with minimal upgrades.
“This represents a low-cost way to deal with the threat,” said David DeYoung, director of Boeing Laser & Electro-Optical Systems. Boeing wouldn’t reveal a total price of the system, but says it’s a one-time purchase. Once you’ve got the system, the only cost is electricity. The company expects the system to run for “years” with basic maintenance (the gimbal is the only moving part) and near-zero ongoing costs since there’s no traditional ammunition.
The necessary electricity can come from standard 220 volt outlet, a generator on a military vehicle, or a battery pack for ultimate portability. Boeing has several battery solutions depending on situational need, but all should give enough juice for at least a few shots.
The company hopes to have the Star Wars-inspired weapon ready for market in a year or two, with many refinements and developments to come over the next few years. But don’t expect lasers to replace traditional armaments like Raytheon’s Patriot missile defense system and Israel’s Iron Dome. “There will be times where it makes sense to use a missile and there will be times where it makes sense to use a laser,” says DeYoung.
As with any military weapon, Boeing would need to work through export control regulations before selling to foreign governments. It’s also not clear whether civilian agencies running prisons and airports could deploy the system under current regulations, or even what regulations might apply to something like this.
Perhaps the biggest disappointment is that the laser doesn’t make any noise. A Boeing rep did say the company’s planning to add a number of sound effects to the control station, to help multi-tasking operators keep an eye on what’s going on when it’s in an automated tracking mode. Hopefully they’ll hire Industrial Light and Magic to appease disappointed laser-lovers.

Wednesday, August 26, 2015

There’s a Massive Battle Brewing Over the Future Of Wi-Fi

As reported by TimeVerizon and T-Mobile are planning to use Wi-Fi networks to broadcast their cellular signals — a move that could clog up the airwaves and lead to fierce competition, according to a report in The Wall Street Journal.
The two wireless carriers are set to introduce LTE-U, an iteration of the LTE cellular standard that will switch to the least congested channel, which includes Wi-Fi frequencies. It eases the load on the carriers’ networks, but it could also burden Wi-Fi networks, reducing speed and quality. It’s also an inexpensive way to transmit signals, since Wi-Fi uses free, unlicensed airwaves, as detailed in a recent Fortune story.
This should worry companies such as Google, Cablevision, and Republic Wireless, who use Wi-Fi either as hotspots for users or to offer wireless services of their own. According to the Journal, Google officials recently wrote a letter to the Federal Communications Commission, remarking that LTE-U was “particularly worrisome” because wireless carriers “may view some Wi-Fi providers, such as cable companies offering Wi-Fi hotspots to their customers, as competitors.”
Verizon and T-Mobile are adamant their technology won’t degrade Wi-Fi connections. “Every test that we’ve done shows that LTE-U is as good of a neighbor to Wi-Fi as Wi-Fi is to itself,” Patrick Welsh, director of federal government affairs at Verizon, told the newspaper.
Wi-Fi usage is already growing rapidly among mobile users, and this development could lead to network congestion. In a report last year by Mobidia Technology, those on Android phones consumed 6.8GB and those with iPhones consumed 8.9GB of Wi-Fi data from July to September, 2014. In comparison, 1.8GB of cellular data were used by cellular subscribers over the same period.