چكيده به لاتين
Navigation systems are one of the most important technologies human beings have ever achieved and are the product of human adventures in space. Today there are few who have never heard of the GPS navigation system. A system that has undergone tremendous evolution since 2000 with the release of its signal to everyone, the research and development process on its receivers. So far, the practice centers and the academy, along with the military companies that manufacture these receivers, have had an impact on improving the accuracy and efficiency of these systems. As a result, we are now witnessing a major shift in the intelligence of transportation from Google's bicycle to Tesla's driverless cars and unmanned military drones and drones. SDR designed receivers require powerful, fast processing kernels, large memory, appropriate software policies for satellite acquisition and tracking, and fast computing algorithms. Instead of a receiver built into tracking using digital gates, it will have a much simpler software system, faster speeds and real-time capabilities. Hence, this project is to develop and implement hardware for a basic bandwidth GPS receiver using the sciences extracted from this system and after many efforts works as an embedded system on FPGA based boards. As this GPS receiver version is being developed and improved in terms of hardware design and optimization as well as management software ingestion, it is only known as an MVP and offers an uphill and it has downhill route as a practical product. It is hoped that with the right economic policies and considering the widespread and lucrative prospects of this field, this path will soon follow and Iran University of Science and Technology, as the only academic hub, will be the flagship manufacturer of GPS products in Iran.
Keywords: GPS, Acquistion, Tracking, PLL, GPS receiver
