Add to ORKGMost navigation systems today use some type of compass to determine heading direction. Using the earthÕs magnetic field, electronic compasses based on magnetoresistive (MR) sensors can electrically resolve better than 0.1 degree rotation. Discussion of a simple 8-point compass will be described using MR sensors. Methods for building a one degree compass using MR sensors will also be discussed. Compensation techniques are shown to correct for compass tilt angles and nearby ferrous material disturbances
Satellite based navigation systems (GPS) are widely used for ground, air and marine navigation. In t...
An experimental rig was designed and successfully built to perform static and dynamic calibrations o...
Angular encoders based on the anisotropic magnetoresistance effect are often used to measure rotatio...
The earliest magnetic field detectors allowed navigation over trackless oceans by sensing the earth’...
Navigation, position tracking, search for unexploded ammunition, and geophysical prospection of magn...
This semestral thesis deals with development of electronic compass with three-axis magnetometer whic...
AbstractThe magnetoresistive (MR) sensing principle was first applied industrially in the read-heads...
This article looks into the role of magnetic compass in providing the navigational safety of the shi...
Electromagnetic navigation is a complementary guiding technique often used in navigation systems in ...
Magnetic sensors contribute to a big share of the sensing market [1]. Applications include commercia...
The vectors of the local geomagnetic field constitute a unique natural frame of reference at any poi...
This paper describes implementation of a tilt compensated electronic compass and calibration method ...
The present invention provides a position-sensing system which employs sensors incorporating magneto...
An experimental rig was designed and successfully built to perform static and dynamic calibrations o...
The use of electronic compasses and satellite systems has led to the magnetic compass becoming a sec...
Satellite based navigation systems (GPS) are widely used for ground, air and marine navigation. In t...
An experimental rig was designed and successfully built to perform static and dynamic calibrations o...
Angular encoders based on the anisotropic magnetoresistance effect are often used to measure rotatio...
The earliest magnetic field detectors allowed navigation over trackless oceans by sensing the earth’...
Navigation, position tracking, search for unexploded ammunition, and geophysical prospection of magn...
This semestral thesis deals with development of electronic compass with three-axis magnetometer whic...
AbstractThe magnetoresistive (MR) sensing principle was first applied industrially in the read-heads...
This article looks into the role of magnetic compass in providing the navigational safety of the shi...
Electromagnetic navigation is a complementary guiding technique often used in navigation systems in ...
Magnetic sensors contribute to a big share of the sensing market [1]. Applications include commercia...
The vectors of the local geomagnetic field constitute a unique natural frame of reference at any poi...
This paper describes implementation of a tilt compensated electronic compass and calibration method ...
The present invention provides a position-sensing system which employs sensors incorporating magneto...
An experimental rig was designed and successfully built to perform static and dynamic calibrations o...
The use of electronic compasses and satellite systems has led to the magnetic compass becoming a sec...
Satellite based navigation systems (GPS) are widely used for ground, air and marine navigation. In t...
An experimental rig was designed and successfully built to perform static and dynamic calibrations o...
Angular encoders based on the anisotropic magnetoresistance effect are often used to measure rotatio...