Compass information extracted from a polarization sensor using a least-squares algorithm.

Skylight polarization provides a significant navigation cue for certain polarization-sensitive animals. We designed a polarization navigation sensor based on the polarization sensitivity mechanism of insects. In this paper, the principle of our polarization navigation sensor is introduced. The relationship between the degree of polarization (DOP) and the error of the angle of polarization (AOP) is examined. A new DOP and AOP calculation algorithm using a linear least-squares algorithm is presented. The results of simulation and experiments reveal the essentiality of DOP calculation and demonstrate the efficiency and accuracy of the proposed algorithm.

[1]  Wolfgang Wiltschko,et al.  Global navigation in migratory birds: tracks, strategies, and interactions between mechanisms , 2012, Current Opinion in Neurobiology.

[2]  J. Chahl,et al.  Biomimetic Attitude and Orientation Sensors , 2012, IEEE Sensors Journal.

[3]  S. Åkesson,et al.  Polarized Light Cues Underlie Compass Calibration in Migratory Songbirds , 2006, Science.

[4]  R. Pfeifer,et al.  A mobile robot employing insect strategies for navigation , 2000, Robotics Auton. Syst..

[5]  W. Cochran,et al.  Migrating Songbirds Recalibrate Their Magnetic Compass Daily from Twilight Cues , 2004, Science.

[6]  Stanley Heinze,et al.  Unraveling navigational strategies in migratory insects , 2012, Current Opinion in Neurobiology.

[7]  T. Labhart Polarization-Sensitive Interneurons in the Optic Lobe of the Desert Ant Cataglyphis bicolor , 2000, Naturwissenschaften.

[8]  Tao Ma,et al.  Design of a Device for Sky Light Polarization Measurements , 2014, Sensors.

[9]  Joseph A Shaw,et al.  Digital all-sky polarization imaging of partly cloudy skies. , 2008, Applied optics.

[10]  Steven M. Reppert,et al.  Polarized Light Helps Monarch Butterflies Navigate , 2004, Current Biology.

[11]  Thomas Labhart,et al.  Polarization-opponent interneurons in the insect visual system , 1988, Nature.

[12]  T. Collett,et al.  Local and global vectors in desert ant navigation , 1998, Nature.

[13]  Hiroshi Kobayashi,et al.  An Autonomous Agent Navigating with a Polarized Light Compass , 1997, Adapt. Behav..

[14]  Qiang Zhang,et al.  A Novel Angle Algorithm of Polarization Sensor for Navigation , 2009, IEEE Transactions on Instrumentation and Measurement.

[15]  Gábor Horváth,et al.  Ground-based full-sky imaging polarimetry of rapidly changing skies and its use for polarimetric cloud detection. , 2002, Applied optics.

[16]  Gábor Horváth,et al.  How well does the Rayleigh model describe the E-vector distribution of skylight in clear and cloudy conditions? A full-sky polarimetric study. , 2004, Journal of the Optical Society of America. A, Optics, image science, and vision.

[17]  Jinkui Chu,et al.  Construction and performance test of a novel polarization sensor for navigation , 2008 .

[18]  G. Horváth,et al.  How the clear-sky angle of polarization pattern continues underneath clouds: full-sky measurements and implications for animal orientation. , 2001, The Journal of experimental biology.