P.Axelrad and R.G. Brown, "GPS Navigation Algorithms," Chapter 9 of Global Positioning System: Theory and Applications, B.W. Parkinson and J.J. Spilker, Eds., Washington, DC: American Institute fo Astronautics, Inc., 1996, pp. 409-433.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....increases as the satellite recedes. The ADR curve is similar to the PSR curve without the initial range offset. CMC is constant at this offset from start to finish. 5 7 Figure 5.3.1.2 Reference measurement values. Range Error Measured ranges have more sources of error than simulated ranges [5, 6]. For example, measured PSR is represented by where denotes measured values and b u is the receiver clock offset (s) This expression demonstrates that measured ranges are influenced by receiver noise and clock inaccuracies. These error sources are also present in DPSR as expressed by and ....

P.Axelrad and R.G. Brown, "GPS Navigation Algorithms," Chapter 9 of Global Positioning System: Theory and Applications, B.W. Parkinson and J.J. Spilker, Eds., Washington, DC: American Institute fo Astronautics, Inc., 1996, pp. 409-433.

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Axelrad, P. and Brown, R.G., "GPS Navigation Algorithms," in Global Positioning System: Theory and Applications, Vol. I, Parkinson, B.W. and Spilker, J.J. Jr., eds., American Institute of Aeronautics and Astronautics, (Washington, 1996), pp. 409-433.

No context found.

Axelrad, P. and Brown, R.G., "GPS Navigation Algorithms," in Global Positioning System: Theory and Applications, Vol. I, Parkinson, B.W. and Spilker, J.J. Jr., eds., American Institute of Aeronautics and Astronautics, (Washington, 1996), pp. 409-433.

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