abstract: For the last 50 years, oscillator modeling in ranging systems has received considerable attention. Many components in a navigation system, such as the master oscillator driving the receiver system, as well the master oscillator in the transmitting system contribute significantly to timing errors. Algorithms in the navigation processor must be able to predict and compensate such errors to achieve a specified accuracy. While much work has been done on the fundamentals of these problems, the thinking on said problems has not progressed. On the hardware end, the designers of local oscillators focus on synthesized frequency and loop noise bandwidth. This does nothing to mitigate, or reduce frequency stability degradation in ban...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
The distribution of clock signals throughout the nodes of a network is essential for several applica...
UnrestrictedLocal oscillators are prevalent in most communication systems. They upconvert the baseb...
Accuracy limitations to two way range rate Doppler tracking due to master (reference) oscillator fre...
The problem of controlling the phase and frequency of atomic clocks is analyzed in two stages. The f...
The continuous increase in demand for higher data rates due to applications with massive number of u...
This paper investigates noise-immunity of accelerated phase-lock-loop frequency control algorithms ...
Since the beginning of time, timing accuracy has been strived for by clock designers. Although every...
The recent development of low-cost, high precision oscillators has allowed many applications in vari...
Global navigation satellite systems need a stable and robust system time in order to provide service...
Clock error estimation has been the focus of a great deal of research because of the extensive usage...
This paper deals with a state model of clock noises with an emphasis on the realization of the flick...
In this paper, we analyze the two-node joint clocksynchronization and ranging problem. We focus on t...
The Phase Locked Loops (PLLs) are widely used in contemporary electronic systems for frequency synth...
There is a growing need to continue operating the Global Navigation Satellite Systems (GNSS) receive...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
The distribution of clock signals throughout the nodes of a network is essential for several applica...
UnrestrictedLocal oscillators are prevalent in most communication systems. They upconvert the baseb...
Accuracy limitations to two way range rate Doppler tracking due to master (reference) oscillator fre...
The problem of controlling the phase and frequency of atomic clocks is analyzed in two stages. The f...
The continuous increase in demand for higher data rates due to applications with massive number of u...
This paper investigates noise-immunity of accelerated phase-lock-loop frequency control algorithms ...
Since the beginning of time, timing accuracy has been strived for by clock designers. Although every...
The recent development of low-cost, high precision oscillators has allowed many applications in vari...
Global navigation satellite systems need a stable and robust system time in order to provide service...
Clock error estimation has been the focus of a great deal of research because of the extensive usage...
This paper deals with a state model of clock noises with an emphasis on the realization of the flick...
In this paper, we analyze the two-node joint clocksynchronization and ranging problem. We focus on t...
The Phase Locked Loops (PLLs) are widely used in contemporary electronic systems for frequency synth...
There is a growing need to continue operating the Global Navigation Satellite Systems (GNSS) receive...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
The distribution of clock signals throughout the nodes of a network is essential for several applica...
UnrestrictedLocal oscillators are prevalent in most communication systems. They upconvert the baseb...