{"id":21329,"date":"2018-05-30T09:00:19","date_gmt":"2018-05-30T13:00:19","guid":{"rendered":"https:\/\/stagingms.gofleet.com\/?p=21329"},"modified":"2022-10-20T15:21:36","modified_gmt":"2022-10-20T19:21:36","slug":"science-behind-fleet-gps-tracking","status":"publish","type":"post","link":"https:\/\/stagingms.gofleet.com\/science-behind-fleet-gps-tracking\/","title":{"rendered":"The Science Behind Fleet GPS Tracking"},"content":{"rendered":"

Earlier this year, our partners at Geotab reached an important milestone! Geotab reached 1 million subscribers on its fleet GPS tracking<\/a> network as of February 2018.<\/p>\n

1 million subscribers is an important industry milestone because it shows the growth of fleet GPS tracking as a whole. For instance, Geotab is now used in 137 countries and collects 2 billion data points per week.<\/p>\n

Beyond celebrating Geotab\u2019s achievement, this blog explores the science behind fleet GPS tracking. First, we will study its origins. Then, we will look at how fleet GPS tracking adapted and turned to powerhorse that it is today.<\/p>\n

Roots of GPS Science<\/h2>\n

The original science behind GPS tracking comes from a military idea. For a long time, the military needed a way to locate and track their assets. They used a lot of ideas including radar, radios, and everything in between. However, the military did not fully trust those technologies\u2019 reliability or accuracy.<\/p>\n

Then, someone thought about using satellites and trilateration. What in the world do those words mean?<\/p>\n

The Solution<\/h2>\n

Trilateration means using 3 satellites to pinpoint a receiver\u2019s location. Confused? Don\u2019t worry, you are not the only one! Here\u2019s how it works.<\/p>\n