BlackLine GPS Blog

Here is something pretty cool you can do in a jiffy with Blip.

1. First select the friend you want to get directions to.

2. Then get a location or map his latest location.

3. Start the internal GPS of your BlackBerry to get your location.

4. In the BlackBerry Maps menu choose the “Get Direction” function.

5. Select your Current Location as your Start Location. (Make sure you started your internal GPS or have your actual current location).

6. Select your End Location as the one you got from Blip of your friend.

Et voilà! You now get the distance in between you and your friend and step by step driving instructions to get to him.

It’s come to our attention that a different company has started using the word Blip in the name of one of their BlackBerry applications. It blows my mind to see people going after a similar market and trying to rip off someone else’s trademark.  In this case I’m talking about ‘Blipsocial’. When a product has been released by RIM and has received great attention and enthusiasm, most people would not expect this.  For the record, we are in no way related to them.

Keep downloading Blip!!!!

http://na.blackberry.com/eng/builtforblackberry/travel.jsp
Patrick

We have received the 3G iPhone and have done some initial work on it and it definitely has some cool features. There are hurdles for us to develop BliP on the platform because of some limitations with running software in the background. I’m sure that we will find a work around but sometimes these things take time. In the meantime, our web interface works beautifully in Safari. You can use all the tools for your Snitch and BliP. You can interface with Snitch (arm/disarm, locate, view history, set schedules, etc) and see where your friends using BliP on their Blackberry are.

So if you got your new iPhone and were looking forward to install BliP as an application don’t despair!

BlackLine GPS

Simon from BlackBerry Cool interviews our President, Patrick Rousseau, in their Episode 18 Podcast. Simon and Patrick speak about our Blip™ for BlackBerry geo-social interaction application™ and our GPS Snitch® vehicle tracking and security product.

Click here to visit BlackBerry Cool’s site and listen to the interview.
Brendon

We have made some changes and added some new items.

‘Last Seen’ is now ‘Last Position’, this is the last reported position from the device.

Some language and terminology updates to make the site easier to understand.

New Icons to use for your devices, including a nice BMW and a Minivan if you are into that.

And we have added Blip functionality to the site. Blip is our Blackberry 8800 series tracking software. Look for another post with more info.

Jeff

Tags: , gps snitch, gps, blackberry, 8800, gps tracking

Yes, GPS Snitch has arrived in the EU and is en route to the 3GSM show in Barcelona, accompanied by a few of our people. It is early evening in France and our team is settling in for the night, enjoying some French culture.

GPS Snitch is roaming in France, supported by our North American network operations center. Within my browser, from the time of request, locations are being returned in about 30 seconds. When one location comes back, GPS Snitch is able to return following locations in about 9 seconds, even thought it is an ocean away.

When we designed GPS Snitch, we chose GSM communications for this very purpose, to be able to deploy in other regions of the world and retain network and infrastructure compatibility. Competing CDMA technology does not currently offer this global coverage benefit. The supporting technology of GPS Snitch is pretty incredible.

Even though we designed the GPS Snitch product and supporting services, events occur where we find ourselves very impressed with its performance and capability, again refocusing our appreciation of what we have created. Seeing GPS Snitch operation on foreign soil is rewarding to see, indeed.

GPRS, the data layer of GSM, utilizes the Internet as a backbone of mobile communication. Though network latency increases with increased separation between nodes on the Internet, in reality, the extra communication delay from overseas is quite small due to the quality of overseas communications links. Possibly in the region of a tenth of a second. Practically, this additional delay doesn’t detract from the overall experience of using GPS Snitch, when other events take a small number of seconds.

Prior to my trip to China last month, where I set up our manufacturing line, Internet communications to North America, and other parts of the world, were severely affected by an underwater Earthquake near Taiwan. Major infrastructure was damaged, reducing the communications bandwidth, increasing congestion, and increasing communications delay. This type of communications breakdown can affect international use of GPS Snitch devices and is one important reason for BlackLine GPS to deploy network operations centers in strategic locations around the world. Quality of service is an important commitment.

As we attend the 3GSM show, we will keep a close eye upon the state of the mobile wireless world and use this insight within our international planning of infrastructure.

I hope you’re having a good Saturday,

Brendon

3GSM, snitch, gps snitch, vehicle alarm, gps tracking, automotive security, car alarm, automobile alarm, auto alarm, auto security, gps tracker, gps locator, tracking, telematics, wireless, wireless location, gps

Hello everyone,

Our upcoming GPS Snitch wireless tracking and vehicle security product is PTCRB certified. The PTCRB is the PCS Type Certification Review Board whose mandate is to ensure that mobile devices deployed on wireless networks meet stringent performance and compliance criteria. This is a very significant milestone as wireless network operators require PTCRB before they accept a device onto their network.

Our test house, Cetecom, who performed the PTCRB testing for us delivered great service, both prompt and friendly. Thanks, Sabrina, and everyone else at Cetecom.

For your viewing pleasure, here’s a picture of the test fixture used during part of Snitch’s testing.

Brendon

Tags: car alarm, vehicle alarm, gps tracking, automotive security, car alarm, automobile alarm, auto alarm, auto security, gps tracker, gps locator, tracking, telematics, wireless, wireless location, gps

Good morning bloggies,

We are often asked about the accuracy of FUEL GPS, and sometimes with a degree of skepticism, which is understandable, when something new comes along. First of all, FUEL GPS is not your daddy’s GPS receiver, but still has much in common with traditional GPS receivers, of course. The primary difference relates to priority given to the design of FUEL’s measurement unit, the correlator.

As many people know, GPS satellites transmit coded signals to Earth. The civilian signal, referred to as the Coarse Acquisition Code (C/A code), has a “chipping” frequency of just over one mega-Hertz (MHz). One chip is essentially one binary transition within the code structure. When you take the speed of light (about 3.0E8 m/s) and divide it by the chipping frequency, you’ll find that the spatial length of one binary digit is about 300 meters (about 330 yards - the length of a short par 4, for you golfers). So, each of these chips / binary digits are quite long.

The job of the correlator is to align the receiver’s internal copy of the C/A code with that received from the GPS satellite. When the two codes are aligned, and knowing when the current chip was transmitted, and precise location of the satellite, the receiver can compute its antenna-to-satellite distance. The more accurately the codes can be aligned in time, or correlated, the higher the precision of the distance measurement.

The advanced correlator design within FUEL does just this. It matches the codes with a high degree of time / spatial precision. These distance measurements are input into a navigation filter that produces the locations from FUEL. Much work has gone into the design of this filter that combines the GPS distance measurements with other important information, such as satellite orbit information and carrier phase data. The outcome of the filter is a train of accurate positions as FUEL GPS navigates around a track or is used for vehicle performance measurement.

Emphasis on the correlator has some other implications, including processing power, which is at the compromise of power consumption. Though not a highly power-hungry system, don’t expect FUEL to be powered by a few AA batteries for long, like a hand-held GPS! Part of this consequence is the processing power within FUEL GPS. It is required to be high, to ensure that there is sufficient bandwidth to accommodate the 10 Hz and 20 Hz positioning rates, which BTW, are unique and non-interpolated.

When we exhibited at last year’s Performance Racing Industry show in Orlando (we’ll be there this year too!), we had one individual come to us who had worked on military fighter jets. He didn’t believe the claims of our FUEL GPS accuracy, as it rivals the performance achieved by military GPS. However, it’s not a secret that survey-grade GPS systems can achieve between one and two cm (under an inch) accuracy in real-time. This is not without its share of technical challenges, requiring a expensive GPS equipment, dedicated GPS base station, a communications link, and the surrounding system complication. GPS has been used effectively for many years for a multitude of applications including drilling rig positioning, surveying, earth quake prediction, dam deformation monitoring, and others.

What makes FUEL GPS unique is the state of its technology in comparison to other affordable / accessible GPS gear. There simply isn’t a better solution available with its precision, price-point, and ease of use. We challenge you to find one. If you do, perhaps we’ll buy one too!

Brendon

Tag: gps, speed sensor, high accuracy gps, racing, race data logger, racing logger, gps lap timer, lap timer, gps speed sensor, data acquisition