US Safety Administration cautions against use of moving maps

The US National Highway Transportation Safety Administration (NHTSA) has issued the first ever guidelines for in-car electronic devices, in a bid to reduce driver distraction.
The weighty tome, catchily titled "Visual-Manual NHTSA Driver Distraction Guidelines for In-Vehicle Electronic Devices" is aimed at car makers, and sets out the (for now voluntary) criteria for the use of electronic devices.
Amongst a long list of recommendations including positioning of displays, access to services such as telephony, internet, and text based information screens, Section V.5.b also have this to say on the subject of satnav, "dynamic, continuously moving maps are not recommended."



So the NHTSA want to turn back the clock and have us return to static turn graphics instead of having your live position indicated on a moving map. Their advice goes on to say that images should be static or updated no more than once every few seconds.
Sensible safety based idea or more evidence of nanny state? One thing is for sure, this may be voluntary now, but it would only take a few law suits in this famously litigious country to make this stuff mandatory.
http://www.pocketgpsworld.com/

The Garmin Zumo 660 motorcycle GPS supports Bluetooth

This unit features a large 4.3″ diagonal screen. Actually, it’s too large for many motorcycles and it may look awkward. However, some motorcyclists prefer this wide screen. The screen buttons are also large, so it’s very easy to press them with your gloves on. The screen is very readable under most conditions, and even in sunglasses (except for when the sun is shining straight on it). However, this screen is less bright compared to the 550.


The menus are very easy to navigate and the unit is fairly intuitive. The Mapsource DVD allows for easy routing. Unlike the 550, the 660 displays all street names on the map only if the detail is set to high. Also, unlike the 550, the 660 won’t necessarily follow the route specified by you in the Map Source custom route download – it may be annoying at first, and can only be overcome by learning to use strategically placed waypoints. The screen updates very fast.
The Garmin Zumo 660 motorcycle GPS supports Bluetooth, so you can sync it with a bluetooth headset to listen to tunes and directions. You can also integrate it with your phone, to receive phone calls while riding.

How accurate is a GPS-based speedometer

Many GPS devices display your current speed, based on a simple calculation of how much distance you are covering in a given time period. However, drivers are often confused with these readings since it generally varies significantly from the vehicle’s speedometer.
So which speedometer is more accurate? Which one should be used to determine if you are driving within the posted speed limits? How does it relate to using speeding alerts in your telematics program?
Speeding is widely regarded as a significant contributor to fatal road accidents, and fleet owners find GPS-based speed calculations very useful in maintaining fleet safety. It’s important then that these speed calculations can be trusted to avoid drivers being falsely accused of speeding, as well as providing a reliable guide to determining a legally-safe driving speed.


How does a GPS device calculate speed?

Using GPS, a device is able to calculate a lot of information about a moving object. Using even basic time and location data, a GPS unit can quickly calculate the relative speed of the object, based on how much distance it covered in a given time.
GPS devices are positional speedometers, based on how far the device has moved since the last measurement. The algorithm also uses the doppler shift in the pseudo range signals from the satellites. It should also be noted that the speed reading is normalized, and is not an instant speed.
Speeds are updated at short intervals to maintain accuracy at all times. It uses frequent calculations to determine the vehicle’s speed. For example, using a standard movement per time calculation, if you have covered 80 feet in one second, the GPS device works out and converts that to MPH, which in this case is 55MPH.

Why does GPS speed differ from the vehicle’s own speedometer?

GPS speed calculations are more accurate than a vehicle’s speedometer since it is not affected by the same inaccuracies, including the vehicle’s wheel size or drive ratios. It is dependent however on GPS satellite signal quality but with the use of moving average calculations any errors are minimal.
Vehicle speedometers also require calibration to maintain perfect accuracy as general wear and tear, changing wheel sizes, and the manufacturers own ‘erring on the side of caution’ and setting the speedometer to read higher than the actual speed, all contribute to inaccuracies.
Generally most manufacturers claim a 0.1MPH tolerance with speed readings, however will go as far to say a 0.5MPH inaccuracy is possible, to make allowances for any satellite signal variations beyond their control.

Which speedometer should a driver use?

It really comes down to personal preference since both gauges are reliable for determining a safe, legal traveling speed. In most cases the vehicle’s speedometer will show a higher speed due to the aforementioned inaccuracies but this at least ensures the driver stays lower than the posted speed limit.
And while logged GPS data has been used to overturn speeding tickets, the cautious driver, who is keen to avoid infringements, fines, trouble from their employer or the possibility of an accident, will tend to err on the side of driving slower rather than pushing it too close to the limit.

Using GPS to record company speeding incidents

Any business that has company vehicles available for employee use is no doubt keen to avoid dangerous speeding, both from a public liability point of view, the possibility of accidents as well as infringement notices or demerit points. Using fleet management software such as Telogis Fleet, fleet owners are easily able to specify speeding notifications that can alert managers to speeding incidents in real time, or provide regular reports of this sort of activity.
Speeding alerts can be setup to record either speeds in excess of the posted speed limit, or simply if a certain speed is reached (ideal for vehicles that become unsafe above certain speeds e.g. forklifts).
How closely the speeding alerts are monitored can be set as well, such as how long the vehicle is speeding before the alert is triggered. This can be used to avoid false positive reports due to overtaking or temporary distraction.
Since employers know that speeds calculated by GPS devices are not only more accurate than a vehicle’s speedometer but also lower, it gives employees no excuse to be caught driving at unsafe speeds. Through a combination of regular reporting and driver coaching, fleet owners can make sure they are doing everything in their power to improve the safety of their staff and other road users.
http://gpssystems.net/

Motorola Droid Razr Maxx

Motorola Droid Razr Maxx.
While it seems the current smartphone race is all about Samsung and Apple, when it comes to GPS that’s not necessarily the case. Samsung has been hit with reports of GPS issues affecting the Galaxy (although apparently there are updates to fix this) so it may not be the ideal choice for users looking for the best GPS solution.


  • Sharp map detail – With its Super AMOLED display, the Droid offers sharp, crystal-clear display and high map definition. This is perfect for seeing map detail clearly, particularly at high zoom levels or viewing satellite imagery.
  • Long-lasting battery – Like the HTC Titan, the Droid has one of the best batteries on the market right now. This is a valuable feature; nothing worse for a traveler than their GPS device running out of battery life partway to your destination.
  • Rugged construction – Built partly with Kevlar, the Droid is literally bullet-proof, ideal for outdoor use and situations where GPS is being used in demanding environments.

HTC Titan: good selection of premium map and navigation apps

Running Windows Mobile, the HTC Titan has a good reputation for fast GPS performance and a good selection of premium map and navigation apps.


  • Large screen – One of the largest on the market at 4.7” the HTC Titan makes it easier to browse, pan, and zoom maps with its massive touch screen.
  • Powerful processor – Running a grunty 1.5GHz second-gen Qualcomm Snapdragon chip the HTC Titan can process map detail without much effort and good response times.
  • Good battery life – Using your GPS will impact on battery life so it’s good to know the HTC Titan’s 1600mAh battery offers longer lasting performance.

iPhone 4S: Apple is no slouch in making good use of GPS functionality

Apple is no slouch in making good use of GPS functionality. In fact they’ve taken it a step further with the iPhone 4S offering a “personal assistant” in the form of Siri to make finding your way to your next destination a hands-free experience.


  • Find my friends – Using its iCloud service you can use your iPhone to track your friends; ideal for meetups. Of course they’ll also need an iPhone and be signed up to the iCloud service.
  • Siri – Simply speak your location requests for instant results e.g. where’s the nearest ATM, take me home, take me to the Eiffel Tower
  • GLONASS – Not only do you get the American-owned GPS system but you also get assistance from Russian controlled GLONASS satellites (how’s that for post-Cold War cooperation?). This means you have a higher chance of getting a good location signal and faster service.

Russia will launch two Glonass satellites

Russia will launch two Glonass satellites in 2012 to expand its global satellite navigation network in orbit, the Russian Federal Space Agency Roscosmos said on Wednesday.
Glonass is Russia's answer to the U.S. Global Positioning System, or GPS, and is designed for both military and civilian uses.
"We are planning to carry out two Glonass satellites this year," Roscosmos head Vladimir Popovkin said in an interview with Vesti 24 television.


A group of 31 Glonass satellites is currently in orbit, with 24 operating to provide global coverage, four in reserve and one undergoing trials.
Russia may spend 346.5 billion rubles (almost $12 bln) on the maintenance and further development of the Glonass network in 2012-2020.