The application of a low cost, commercially available microcomputer as the navigation processor for a simplified OMEGA navigation system is an area of current research. The interface of a low cost front end OMEGA sensor is described and an example of the phase processing software and navigation routines is given. Emphasis is placed on the description of results obtained with the software version of the OMEGA burst filter known as the memory aided phase locked loop
The JOLT (TM) commercial microcomputer, based on the MOS Technology 6502 processor chip, for use in ...
June 1976Originally presented as the author's thesis (Ph. D.), M.I.T. Dept. of Aeronautics and Astro...
Computer programs for Omega data conversion, summary, and preparation for distribution are presented...
The current status of research on a proposed micro-computer-based, low-cost Omega Navigation System ...
The engineering approach used in the design of a low cost Omega sensor processor is discussed. The p...
A microprocessor navigation systems using the Omega process is discussed. Several methods for correc...
A quartz tuning fork filter circuit and some unique CMOS clock logic methods provide a very simple O...
Techniques to lower the cost of using the Omega global navigation network with phase-locked loops (P...
An OMEGA navigation receiver with a microprocessor as the computational component was investigated. ...
The details are presented of methods for providing OMEGA navigational information including the rece...
The Ohio University Omega Prototype Receiver is currently under final design and construction. As in...
An analysis of Very Low Frequency propagation in the atmosphere in the 10-14 kHz range leads to a di...
A hardware interface which allows both digital and analog data output from the JOLT microcomputer is...
A sampled binary phase lock loop is proposed for periodically correcting OMEGA receiver internal clo...
Major attention is given to an analysis of receiver repeatability in measuring OMEGA phase data. Rep...
The JOLT (TM) commercial microcomputer, based on the MOS Technology 6502 processor chip, for use in ...
June 1976Originally presented as the author's thesis (Ph. D.), M.I.T. Dept. of Aeronautics and Astro...
Computer programs for Omega data conversion, summary, and preparation for distribution are presented...
The current status of research on a proposed micro-computer-based, low-cost Omega Navigation System ...
The engineering approach used in the design of a low cost Omega sensor processor is discussed. The p...
A microprocessor navigation systems using the Omega process is discussed. Several methods for correc...
A quartz tuning fork filter circuit and some unique CMOS clock logic methods provide a very simple O...
Techniques to lower the cost of using the Omega global navigation network with phase-locked loops (P...
An OMEGA navigation receiver with a microprocessor as the computational component was investigated. ...
The details are presented of methods for providing OMEGA navigational information including the rece...
The Ohio University Omega Prototype Receiver is currently under final design and construction. As in...
An analysis of Very Low Frequency propagation in the atmosphere in the 10-14 kHz range leads to a di...
A hardware interface which allows both digital and analog data output from the JOLT microcomputer is...
A sampled binary phase lock loop is proposed for periodically correcting OMEGA receiver internal clo...
Major attention is given to an analysis of receiver repeatability in measuring OMEGA phase data. Rep...
The JOLT (TM) commercial microcomputer, based on the MOS Technology 6502 processor chip, for use in ...
June 1976Originally presented as the author's thesis (Ph. D.), M.I.T. Dept. of Aeronautics and Astro...
Computer programs for Omega data conversion, summary, and preparation for distribution are presented...