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Thursday, December 10, 2015

Federal Motor Carrier Safety Administration Unveils Final US Electronic Logging Device Rule

As reported by Fleet OwnerThe Federal Motor Carrier Safety Administration (FMCSA) is trying once again to craft a legally-sustainable electronic logging device (ELD) rule after several failed attempts in the past. The agency formally rolled out its long-awaited final rule mandating the use of ELD by commercial motor vehicle operators to record hours-of-service (HOS) data.
“Since 1938, complex, on-duty/off-duty logs for truck and bus drivers were made with pencil and paper, virtually impossible to verify,” noted U.S. Transportation Secretary Anthony Foxx in a statement. “This automated technology [ELDs] not only brings logging records into the modern age, it also allows roadside safety inspectors to unmask violations of federal law that put lives at risk.”
The rule will take effect in two years, but if a carrier installs a compliant advanced onboard recording device (AONRD) prior to the compliance date, it will have the option to continue using that device for an additional two years beyond the compliance data.
FMCSA said its ELD mandate will result in an annual net benefit of more than $1 billion – largely by reducing paperwork – and will also increase the efficiency of roadside law enforcement personnel in reviewing the driver records. 
The agency added that, on an annual average basis, use of ELDs should help save 26 lives and prevent 1,844 crashes involving large commercial motor vehicles annually.
FMCSA noted several key elements and impacts from its ELD final rule:
  • It establishes a two-year compliance window for commercial truck and bus drivers to adopt ELDs. 
  • The agency anticipates that approximately three million commercial vehicle drivers will be impacted by the ELD mandate.
  • The ELD rule strictly prohibits driver harassment by providing both procedural and technical provisions to prevent harassment resulting from ELD-generated information.
  • separate FMCSA rulemaking further safeguards drivers from being coerced to violate HOS regulations, providing the agency with the authority to take enforcement actions not only against motor carriers, but also against shippers, receivers, and transportation intermediaries.
  • The new rule establishes technology specifications detailing performance and design requirements for ELDs so that manufacturers are able to produce compliant devices and systems.

New HOS supporting document rules within the ELD mandate will help reduce paperwork needs, such as the retention of shipping documents, fuel purchase receipts, etc. In most cases, a motor carrier using ELDs will not be required to retain supporting documents verifying on-duty driving time, FMCSA said.
The ELD final rule permits the use of smartphones and other wireless devices as ELDs, so long as they satisfy technical specifications and are certified. Canadian- and Mexican-domiciled drivers will also be required to use ELDs when operating on U.S. roadways.
Motor carriers that have previously installed compliant automatic onboard recording devices may continue to use the devices for an additional two years beyond the compliance date.
Following publication of the proposed rule back in early 2014, several suppliers of ELDs said the flexibility afford by the rule would lead to innovation and help control costs for fleets.
The rule will require ELDs for all commercial motor vehicle operations that fall under 49 CFR part 395 and for situations where the driver is required to complete a record of duty status (RODS) under 49 CFR 395.8.
Drivers who are exempt from the ELD requirement includes those who use paper RODS for not more than eight days in any 30-day period; those who conduct driveaway-towaway operations where the vehicle being driven is the commodity being delivered; and those of vehicles that were manufactured before model-year 2000.
The rule covers data transfer technologies and requires either a display or printout for backup as a means to access necessary enforcement data. Data can be transferred via a wireless web service and email or through Bluetooth and USB 2.0.
In its cost analysis, FMCSA determined the addition of a printer would increase ELD costs about 40%.
Carriers must retain up to eight supporting documents for every 24-hour period a driver using ELDs is on duty. Those documents must be retained for six months, and drivers must submit supporting documents to the motor carrier no later than 13 days after receiving them.
Those supporting documents must include:
Image result for Federal Motor Carrier Safety Administration Unveils Final Electronic Logging Device RuleDriver name or carrier-assigned identification number, either on the document or on another document enabling the carrier to link the document to the driver, or the vehicle unit number if that number can be 14 linked to the driver;
  • Date;
  • Location (including name of nearest city, town, or village); and
  • Time.
Supporting documents may come from the following five categories:
  • Bills of lading, itineraries, schedules, or equivalent documents that indicate the origin and destination of each trip;
  • Dispatch records, trip records, or equivalent documents;
  • Expense receipts;
  • Electronic mobile communication records, reflecting communications transmitted through a fleet management system (FMS); and
  • Payroll records, settlement sheets, or equivalent documents that indicates payment to a driver.
This is not FMCSA’s first attempt at electronic logs. The supplemental notice of proposed rulemaking back in 2014 tried to dance around concerns over harassment and supporting documents. Those two issues were subjects of litigation, and the harassment issue ultimately scuttled FMCSA’s prior electronic log rule, which was adopted in April 2010.
The agency has tried to address the harassment concern with another rulemaking just announced covering coercion. That rule, set to take effect on Jan. 29, addresses three key areas: procedures for commercial truck and bus drivers to report incidents of coercion to the FMCSA, steps the agency could take when responding to such allegations, and penalties that may be imposed on entities found to have coerced drivers.
“The design of the ELD allows only limited edits of an ELD record by both the driver and the motor carrier’s agents and in either case the original record generated by the device cannot be changed, which will protect the driver’s RODS from manipulation,” FMCSA wrote in the final rule.

Driving Change: Big Auto’s $2.7 Billion Bet on High-Definition Digital Mapping

As reported by SlashGear:
HERE's plans for the self-driving future can finally emerge from their autopilot holding-pattern, with the company and its new automaker owners holding a quiet but enthusiastic coming out party in San Francisco today. Representatives from Audi, BMW, and Mercedes-Benz parent Daimler joined HERE execs to talk about the development of high-definition mapping, location-based services, and cars that whisper to the cloud and - eventually - drive themselves.
It's the first time representatives from the four companies have sat down publicly and discussed the deal, the collective mouth having been sealed until the ink was dry on Nokia's contract.
"The acquisition of HERE by three competitors in the luxury sector is unprecedented," Klaus Froehlich, member of the board of management of BMW AG, said today.
"Automated driving will become one of the major trends in the automotive sector … it's always a question of when and not if," he pointed out. "HERE is going to provide a high-definition map for us … the resolution will be up as much as 10x compared to today … we need 99.5-percent [accuracy] to be safe on the roads."
here-sg-0
While it may be an acquisition, the deal HERE cut with the consortium of automakers - I'm told there's no official name for the trio - is surprising in its flexibility.
For a start, though they're putting in $2.7bn, Audi, BMW, and Daimler don't walk away with joint control of the mapping specialist. Instead, it'll operate as an independent company, with a new supervising board that will include not only representatives from the automakers but independent nav-industry specialists too.
"HERE will remain open to other investors, and we will invite other partners to join," Froehlich insisted. "We simply wanted to project the company, because when we are realistic about the automotive community we only have three [mapping] providers."
here-sg-1
So, Audi, BMW, and Mercedes-Benz will stay as HERE customers on the one hand, even as their connected cars feed fresh data into HERE's cloud.
Right now, more than two million cars from the three are already cellularly-enabled, and plans are afoot to supply anonymized data from those vehicles that will help both with existing mapping and the new generation of high-definition maps that will be instrumental in developing smart cities and autonomous vehicles.
HERE already gathers what it calls "probe" data from smartphones running its software and other devices, consisting of nothing more than a unique ID, location, speed, and direction. From that - two billion data points a day, in fact - it can figure out traffic conditions as well as identify new roads based on vehicle flow.
The next step to that, HERE's vice president of reality capture John Ristevski explained to me, is baking in data from the variety of extra sensors in the modern car. Such "rich sensor feeds" could provide details on individual lane closures, weather conditions - like whether the windshield wipers are on, or if the traction control is struggling with slippery roads - and even unexpected issues like animals in the path of traffic.
HERE Traffic probe data
"Until now," Froehlich pointed out, "the sensors have only been used for driving assistance services within the car."
It's early days, but what's taking shape is a combination of local processing and cloud services - "in the end," the BMW exec said, "each car only has perhaps 99.9 or 99.8 percent availability of the network" - that would maximize performance while minimizing how much data would have to ping through the mobile networks.
"The amount of data is not as high as one might expect," Dr. Peter Steiner, head of Audi electronics venture, explained. "We are not video streaming, we are feeding back or broadcasting what is already a condensed data set."
So, onboard processing would handle basic feature-extraction, transmitting the core details to HERE's cloud, while anything more complex or confusing to the car could be sent as images for the more advanced machine learning to figure out.
self-driving-mercedes-f-015-1280x632
Privacy is the looming specter around any connected car service, and it's something all four companies are taking seriously from the outset. Mindful, perhaps, that even the whiff of mishandled data could set smart mobility back decades, the consortium is taking a hard line.
"Privacy will become more important, more premium in the future," BMW's Froehlich argues, "we do not accept partners that compromise the privacy of our customers."
"Data privacy, this is the utmost thing for us," Sajjad Khan, VP of digital vehicle and mobility at Daimler, concurred, "next to data security, which is just as competitive."

True autonomy is still some way out. Froehlich envisages it taking two to three years before a standard for dynamically-updated and maintained mapping data is settled upon, which takes into account sensor information from individual vehicles.
"I think in certain regions, automated driving will be even faster," he predicted, such as ride-sharing services where cars would only need to have HD mapping for a single city or location. For full autonomy, though, "I don't see it within the next eight to ten years, honestly," Froehlich says.
That may seem conservative, but it means full speed ahead for HERE. "We do not have much time to waste," he concluded, "we need this new generation of maps as soon as possible, because the gradient of driving to assisted or autonomous driving is quite steep."

Wednesday, December 9, 2015

Tiny IoT Temperature Sensor Powered Wirelessly with Radio Waves

As reported by GizMagOne of the problems for the smart buildings of tomorrow is that they may depend on some very un-smart wires to power them. To cut the cord, Eindhoven University of Technology (TU/e) researcher Hao Gao, as part of his PhD thesis, has developed a tiny transmitting temperature sensor that is powered by radio waves, eliminating the need for wires or batteries. Instead, it picks up radio waves from a special router, converts them into electricity, and uses it to transmit readings.

Like many other forecasters, TU/e sees a future where smart buildings are filled with sensors and other devices that gather information and carry out tasks to automate the business of living while making it more sustainable. But as sensors become smaller and are incorporated into more things around the house, the problem of powering them without stringing tiny wires everywhere or spending half the time swapping out batteries remains.

Part of the PREMISS project, Gao's sensor is very much in the lightweight category at 2 sq mm and weighing in at 1.6 mg. Its operating principle is similar to that of the Thing, which is infamous in espionage circles as the Soviet bug that listened in at the US embassy in Moscow for about six years.
In 1946, a carved replica of the Great Seal of the United States was presented by the Soviets to the embassy as a goodwill gift that seemed the picture of innocence. What that Americans didn't know is that under the woodwork was the Thing, which was a listening device with a monopole antenna. Instead of running off batteries or mains current, the Thing was energized by a radio beam directed at it by the KGB and transmitted back when they wanted to eavesdrop on the ambassador. This meant that it could operate indefinitely and was only discovered in 1952 by accident when a British radio operator tuned in on its transmissions.
Various research teams have also been examining the potential of scavenging ambient radio waves to power all manner of devices, such as biomedical implants and smartphones
Based on 65-nm CMOS technology, the new thermometer system uses a special router that targets the sensor, but unlike the Thing the reason is to save power rather than escape detection. At the same time, the sensor itself is designed to use very little electricity. When the sensor is exposed to radio waves, it absorbs the energy until it stores enough to transmit a signal back to the router. The temperature of the sensor alters the frequency of the signal, which the router can decode.
According to TU/e, the tiny size and independent nature of the sensor means that it can be placed in all sorts of unorthodox locations, such as in plaster or concrete. It can even be mixed in with latex and applied directly to walls like paint.
The current version of the sensor has an operating range of only 2.5 cm (1 in), but it's hoped that this will be extended to a meter (3 ft) in a year and ultimately to 5 m (16 ft). With a mass production cost projected at about 20 cents, TU/e sees a wide range of applications for the wireless sensors, including payment systems, wireless ID, smart buildings, and industrial applications.
Gao's PhD thesis can be found here.

Tuesday, December 8, 2015

Nanomaterial for GPS Clocks Most Expensive in the World at $150 Million per Gram

As reported by the IndependentOxford University scientists are creating the world's most expensive material - endohedral fullerenes, spherical carbon molecules containing nitrogen atoms, which sell for £100 million ($150 million) a gram.

The tiny structures are being manufactured by Designer Carbon Materials, a company which was born out of the university last year.
The incredibly valuable material is being used in atomic clocks, to make the timekeeping deviceseven more accurate than ever before.
When integrated into a GPS device, the tiny clocks could detect the device's position to an accuracy of one millimeter, compared to the current standard of around one to five meters.
That accuracy would be practically unnoticeable if you were navigating a city with Google Maps, but it's vital in driverless car technology, where the difference between meters and millimeters is hugely important to avoid collisions.
Speaking to The Telegraph, Dr Kyriakos Porfyrakis, founder of the company and nano-materials expert, said: "Imagine a miniaturized atomic clock that you could carry around in your smartphone."
"This is the next revolution for mobile."
Most current atomic clocks are large, in some cases, cabinet-sized devices. Using the endeohedral fullerene technology, they could be shrunk to the size of a microchip.
Because of the enormous price, the material changes hands in tiny quantities.
The company recently made their first sale of only 200 micro-grams - about one-fifteenth the weight of a snowflake, or one-third the weight of a single human hair - for £22,000 ($33,000).

Sunday, December 6, 2015

Success! Cygnus Spaceship Launch Restarts Orbital ATK Cargo Missions for NASA

As reported by Space.com: With a brilliant afternoon launch, the private spaceflight company Orbital ATK returned its Cygnus cargo ship to flight after a year on hiatus Sunday (Dec. 6), launching vital supplies and NASA gear to the International Space Station.

Saturday, December 5, 2015

Porsche Is Charging Ahead With Mission E 'Tesla Killer' Electric Car

As reported by ForbesEven Porsche is gunning for Tesla Motors these days. After floating the Mission E pure electric concept in September, Porsche is going ahead with production of the vehicle.

“The first 100% electrically powered Porsche is on its way. It will be launched at the end of the decade,” Porsche said Friday in a statement. Some highlights from the announcement:
Unveiled at the Frankfurt Motor Show, the four-door car with four individual seats has a system power output of over 440 kW (600 PS). The vehicle will thus achieve both acceleration of 0 to 100 km/h in under 3.5 seconds and a range of more than 500 kilometres. 
With the Mission E project, Porsche is continuing to back sustainable growth. In Stuttgart-Zuffenhausen alone more than 1,000 new jobs are being created. The company will be investing around 700 million euros in its main site there. Over the next few years, a new paint shop and a new assembly plant will be built. The existing engine factory is also being expanded for the production of electric motors. In addition, the existing body shop is being enlarged. On top of that come other areas in which the company will be investing in this context, such as in the Weissach development centre.
Other goodies include: an 800-volt charger that juices up the battery to 80 percent of the range in about 15 minutes. And the vehicle can optionally be recharged wirelessly by induction via a coil set into the garage floor, Porsche said.
The giant asterisk to all of the above is of course that Porsche is doing this by the end of the decade. The Tesla Model S is here and now.

Friday, December 4, 2015

Pro Drivers Go Headset-to-Headset in VR Race on Two Separate Tracks (Video)

As reported by The Wall Street JournalIn a race that fuses video-game technology and real world driving skill, two professional drivers, on two separate but identical tracks, have raced against each other while wearing virtual reality headsets attached to their crash helmets.
The race, which took place on November 10 at Los Angeles’ Santa Anita track, saw the drivers looking not at the actual road in front of them, but at a virtual reality representation of the track, infused with smoke, fire, waterfalls, and boulders.
The drivers, one of whom drove a stunt car in the latest James Bond film ‘Spectre,’ hurtled around the circuit in two identical 2015 V8 Ford Mustangs, trusting that what they were seeing on their Oculus Rift DK2 VR headsets was a true, real-time representation of how their cars were performing on the actual track.
“The main risk is, if I go blind and I can’t see where I’m going at 70 mph, I could thunder into a tree which would not feel very nice,” said U.K.-based stunt driver Ben Collins.
“The beautiful thing about virtual reality is you can press reset without killing yourself.”
To get the real-virtual mix right, technologists working for car oil company Castrol, which produced the event, mixed virtual reality with self-driving car technology.
One of the main challenges: tracking the cars’ exact positions as they sped around the track without the need for re-calibration. This was necessary so that an exact match could be achieved between what was happening on the physical track and its representation on the VR screens.
To track the cars, a system frequently used to navigate robots around a space was used, integrating a combination of physical, optical, and laser sensors gauged the position of the cars at high speeds during the race.
To get the two cars to communicate their locations without any significant transmission latency within the headset–which could cause the drivers to crash as they would not be accurately judging their vehicles’ orientation and locations– the technology team had to make sure that a fast Internet connection in the area of the race tracks would send all the data from the cars and the surrounding cameras and sensors to a powerful, on-site server.
The race comes as VR hardware and software is expected to hit the mainstream market in 2016, with companies like Facebook Inc. marketing the Oculus Rift VR headset and Sony Corp. promoting its PlayStation VR.