Our homes, offices, and cars are embedded with a variety of sensors capable of providing information, via appropriate data processing units, to properly comprehend our environment. One major sensing component that plays a significant role, mainly, but not only, in autonomous cars, is lidar. Lidar technologies operating in both terrestrial and airborne scenarios are also commonly used in high-resolution photonic sensing in a large variety of fields such as geology, archaeology, seismology, agriculture, atmospheric sciences, control, and navigation. This joint feature issue will highlight recent developments in sources and detectors as well as theory, design, and data processing algorithms for lidar.
Topics to be covered include but are not limited to:
Authors may choose between JOSA A and JOSA B when submitting to the joint feature issue, but should recognize the differences between them and select the appropriate journal. The guest editors may recommend transferring a manuscript to the other journal as needed. Papers on sources and detectors will be appropriate for JOSA B, and work on theory, design and algorithms should be submitted to JOSA A. Papers will appear in their respective journals. Additionally, a combined table of contents of papers from both journals will appear once all papers are published.
All submissions need to present original, previously unpublished work, and will be subject to the normal standards and peer-review process of the Journals. Manuscripts must be prepared according to the usual guidelines for submission to JOSA A and JOSA B and must be uploaded through OSA's electronic submission system. When submitting, please specify that the manuscript is for the "Lidar" feature issue (choose from the drop-down menu).
Zeev Zalevsky, Bar Ilan University, Israel (Lead Editor)
Gerald S. Buller, Heriot-Watt University, UK
Tao Chen, Shanghai Institute of Technical Physics, China
Moshik Cohen, Wisense Technologies Ltd, Israel
Rory Barton-Grimley, NASA Langley Research Center, USA