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Ford Green Zone works magic with GPS to make your drive smarter, cleaner

For the most part, plug-in hybrids rely on the power stored in the battery until that charge is depleted. Unless the switch can be changed manually, it's only then that the cars fire up the internal combustion engine and begin using the fossil fuels on board. This is ideal, of course, when one's drive isn't long enough that the car needs to start sipping gasoline at all. On longer commutes, when it's certain that the route is longer than the car's all-electric range, this isn't necessarily the most efficient use of energy. Ford's Green Zone system is designed to save some of that juice for the parts of the drive that require slower speeds. Ford is working on a smart system, based on Nokia mapping technology, that uses GPS data to use both the electricity and conventional fuel more efficiently. Since battery power is less efficient at highway speeds, Ford's Green Zone system is designed to save some of that juice for the parts of the drive that require slower speeds, rather than just using up all the electrons right at the beginning of the drive. Using a website or the in-car navigation system, the driver can pinpoint the parts of the route, highlighted in green, where using battery power would be more effective, and set the car to automatically switch to electricity for those sections. Depending on the route, the car could automatically switch back and forth between the two power sources multiple times, particularly if the drive is a mix between city and highway driving. Of course, Green Zone will be go beyond that. The program is being developed to take traffic and road grade into account, details that allow the car to be make even smarter choices to improve efficiency. Ford even hopes to have Green Zone learn driver habits, and respond accordingly depending on who is driving the car. The system could control other features as well, such as anticipating corners and shifting the headlights to better illuminate the road ahead. Green Zone could also potentially use information from vehicle-to-vehicle networking to control functions in the car. The Green Zone system still has a few years before it will be ready to be put into production vehicles, but Ford is confident it will make its way onto the road eventually. As with other innovations that improve efficiency and make our vehicles smarter, we can expect to see similar technology from other manufacturers, until it becomes a regular part of driving in the future.

Recharge Wrap-up: Ford announces e-bike project, Honda Accord Hybrid availability catches up

Supplies of the Honda Accord Hybrid have apparently caught up with demand. Honda originally launched the Accord Hybrid for the 2014 model year, but lack of availability plagued interested customers and eager dealers alike. Honda cited "component supply constraints" - likely batteries, electric motors and the like - for the lack of available vehicles. Now, "The supply of Accord Hybrids in general is in line with the supply of the regular Accord sedan," according to Honda's Angie Nucci. Read more at Green Car Reports. Apple is seeking a resolution to a lawsuit accusing the company of poaching employees from lithium-ion battery maker A123 Systems. A123 has requested a court order stopping a former employer from breaking an employment agreement, as well as keeping Apple from encouraging the person to do so. Apple has requested more time to respond to that court order. A123 has also filed a suit accusing five employees of breaking nondisclosure agreements and going or trying to go to work for Apple. Insiders say that Apple is developing an electric car that could go into production as early as 2020. Read more at Automotive News. South Dakota's Ethanol Infrastructure Incentive Program is helping retailers fund ethanol storage. The state government has set aside $300,000 as part of the program to fund ethanol storage tanks at gas stations. The program, which originally set out to reimburse retailers for building ethanol flex-pumps, is now helping them expand their ethanol capacities. Retailers can apply for funds for pumps and storage through June 30. Read more at Argus Leader. Ford is expanding its Global Mobility Plan with the Handle on Mobility electric bike experiment. The foldable MoDe:Me e-bike is for personal use and commuting, while the MoDe:Pro is built for commercial duty, with both powered by a 200-watt motor and 9-amp-hour battery. The bikes use an iPhone app called MoDe:Link, which provides various information and controls important bike functions. Through the app, the bikes offer navigation (with traffic data, available public transportation and charging locations included), with handlebar vibrations letting the rider know when and where to turn and automatically activating turn signals. The bike can sense and alert the rider to other vehicles on the roadway. Pedal assist is based on heart rate, allowing the rider to arrive at their destination comfortably. See the bikes in the video above, and read more from Ford.

Ford Mustang Mach-E fails Sweden's moose test

The infamous moose test has claimed another casualty. This time it's the Ford Mustang Mach-E AWD Long Range, which was tested in an electric four-way alongside the Tesla Model Y, Hyundai Ioniq 5 and Skoda Enyaq iV (an electric utility vehicle closely related to the Volkswagen ID.4 that is sold in the United States). According to the Swedish testers at Teknikens Varld, Ford's electric car not only failed to hit the speed necessary for a passing grade, it didn't perform well at slower speeds, either. To pass the outlet's moose test, a car has to complete a rapid left-right-straight S-shaped pattern marked by cones at a speed of at least 72 km/h (44.7 miles per hour). The test is designed to mimic the type of avoidance maneuver a driver would have to take in order to avoid hitting something that wandered into the road, which in Sweden may be a moose but could just as easily be a deer or some other member of the animal kingdom elsewhere in the world, or possibly a child or car backing into the motorway. Not only is the maneuver very aggressive, it's also performed with weights belted into each seat and more weight added to the cargo area to hit the vehicle's maximum allowable carrying capacity. The Mustang Mach-E only managed to complete the moose test at 68 km/h (42.3 mph), well below the passing-grade threshold. Even at much lower speeds, Teknikens Varld says the Mach-E (which boasts the highest carrying capacity and was therefore loaded with more weight than the rest of the vehicles tested in this quartet) is "too soft in the chassis" and suffers from "too slow steering." Proving that it is indeed possible to pass the test, the Hyundai and Skoda completed the maneuver at the 44.7-mph figure required for a passing grade and the Tesla did it at 46.6 mph, albeit with less weight in the cargo area. It's not clear whether other versions of the Mustang Mach-E would pass the test. It's also unknown if Ford will make any changes to its chassis tuning or electronic stability control software, as some other automakers have done after a poor performance from Teknikens Varld, to improve its performance in the moose test. Related video: