The GPS

1. The GPS Kent State University Flight Instructor Refresher Clinic Feb 2008

2. Objectives • Learn the basic operational theory behind GPS • How to use this wonderful piece of equipment • Look up and find the GPS options in the AIM

3. GPS operations • A Global Positioning System will utilize timing and information from satellites in orbit around the Earth. • Each satellite emits a signal, that signal has a time stamp and any additional coding (military). The satellites utilize an atomic clock to detect time.

4. Your receiver • Your receiver receives the signal and takes the time stamp and using the speed of light with known errors, derives the distance. • This forms a sphere around the satellite. With the one sphere there is no way for the receiver to calculate your position.

6. Position • So it uses several satellites at once to find the position. • Spherical Trigonometry states that when two spheres intersect, that intersection will be a circle. • When three are present, they intersect at a point. This point is off in are aircraft because the receivers we use only have a quartz clock, so the GPS is programmed to adjust the spheres until it forms a point.

7. More • With three satellites we can derive a fairly accurate 2D position, but with four satellites a fairly accurate 3D position could be found. • How accurate is a standard GPS? • 100m • What about in the altitude given? • Would you trust it as a primary altimeter, or even a back up?

8. WAAS What if we could get the accuracy of a GPS to 10m or better? WAAS is a Wide Area Augmentation System. This system is to enhance capable GPS units to provide better accuracy and vertical guidance.

14. LAAS

15. Website • http://www.trimble.com/gps/howgps-error.shtml • http://www.faa.gov/about/office_org/headquarters_offices/ato/service_units/techops/navservices/gnss/ • http://www.how-gps-works.com/faq/q0110.shtml

16. So are you legal • You have a Garmin 430 equipped Arrow • You are flying to DVL • The DVL VOR is out of service So Can you fly this route with using only the GPS? If so why, if not why?

17. First question • Is your GPS IFR approved? • What TSO is it approved under • C-129 • GPS enroute only if you have navaid back-up • So if a VOR is out of service for one segment of your flight you must change that segment so a navaid is available even with a GPS • Garmin 430/530 fall under this category

18. TSO • C-146a • New TSO • Allow GPS users to fly routes without navaid back-up • Requires WAAS! • Examples are: 430/530W, G1000W, 480/580(no longer supported)

19. TSO • As more GPS receivers gain the reliability and public trust more will be qualified under the new TSO • This knowledge is important as it can force adjustments for flying routes and Trans-oceanic flight • Also it is required to be installed in a certain fashion as outlined in AC 20-138A

20. AIM Requirments • VFR • VFR pilots should never solely rely on one system for Nav. AIM 1-1-20b1 • Many VFR and Handheld GPS lack RAIM alerting capability and as such lack guaranteed navigational accuracy • No requirement in VFR GPS for up to date Databases AIM 1-1-20b3b1 • So what is RAIM

21. RAIM • Receiver autonomous integrity monitoring • Required for instrument approaches • Basically it monitors the number of satellites the receiver currently has a lock on • AIM 1-1-20J for procedures for lose of satellites • ERAIM will pick the best of 6 sats

22. IFR Requirements • Must Fall Under TSO C-129 or C146a • Must have alternative means of navigation unless under 146a. AIM 1-1-20e1b • Operations must be done as per the FAA approved Aircraft Flight Manual

23. IFR Long Range and Oceanic • 1-1-20F1 • GPS may be used to replace one of the other required approved means of long range (Dual INS)

24. Approaches • RAIM – For non-WAAS and as a back up in case of WAAS Failure • 3 types in most GPS • 1 Stand alone • 2 Overlay • 3 Non-gps

25. Approaches • Stand Alone • GPS only Duh! • RAIM and IFR approved GPS required • Almost always Preloaded in GPS

26. Approaches • Overlay • Follows path of existing navaid approach • Must specify which approach you are doing (navaid or GPS) • Utilize what ever navigational system you choose primarily • RAIM still required

27. Approaches • Three types of vertically guided approaches • LNAV/VNAV, LPV, and Precision (Cat I,II, and all III) • The first two are specifically for WAAS GPS

28. LNAV/VNAV • Provides both lateral and vertical guidance • Formed to use FMS systems to provide approaches with vertical guidance to more place. • GPS with WAAS is expected to be able to utilize these approaches in place of a FMS. • Opens new approaches to the GA area. • Minimums are higher than the other vertically guided approaches

29. LPV • LPV= Localizer Precision With Vertical Guidance • Near precision approaches • 250 ft. and one mile vis. • Eventually will be added as an option to all GPS approaches for all those who are equipped properly • Uses GAMMA 3 or GAMMA plus a Delta add on

30. Note • Traditionally the GPS would use a typical indicator (CDI, HIS) • WAAS will indicate the error in angle measurements just like a localizer and vertical guidance for LPV • However, for LNAV/VNAV it can show either distance off glide path or angle off glide path

31. Approaches • All other approaches may be in the database of the GPS • GPS may not be Used for navigation on those, only as an additional aid for situational awareness.

32. RNP Note • The newer RNP approaches are coming about through airline research and FAA sideline support. • GPS and WAAS when combined with other systems typically equipped on transport category Aircraft provide extreme accuracy and reliability. • This is required for RNP to be successful