scholarly journals Multiple target tracking in a wide-field-of-view camera system

1990 ◽  
Author(s):  
Hye-Sook Park ◽  
Timothy S. Axelrod ◽  
Nicholas J. Colella ◽  
Michael E. Colvin ◽  
Arno G. Ledebuhr
Keyword(s):  
Target Tracking ◽  
Field Of View ◽  
Wide Field ◽  
Multiple Target Tracking ◽  
Multiple Target ◽  
Camera System ◽  
Wide Field Of View

Multiple-target tracking implementation in the ebCMOS camera system: the LUSIPHER prototype

2012 ◽  
Author(s):  
Quang Tuyen Doan ◽  
Remi Barbier ◽  
Agnes Dominjon ◽  
Thomas Cajgfinger ◽  
Cyrille Guerin
Keyword(s):  
Target Tracking ◽  
Multiple Target Tracking ◽  
Multiple Target ◽  
Camera System

Wide field-of-view target tracking sensor

2009 ◽  
Author(s):  
Daqun Li ◽  
Jame J. Yang ◽  
Michael R. Wang
Keyword(s):  
Target Tracking ◽  
Field Of View ◽  
Wide Field ◽  
Wide Field Of View

Single-photon sensitive fast ebCMOS camera system for multiple-target tracking of single fluorophores: application to nano-biophotonics

2011 ◽  
Author(s):  
Thomas Cajgfinger ◽  
Eric Chabanat ◽  
Agnes Dominjon ◽  
Quang T. Doan ◽  
Cyrille Guerin ◽  
...  
Keyword(s):  
Target Tracking ◽  
Single Photon ◽  
Multiple Target Tracking ◽  
Multiple Target ◽  
Camera System

A Cooperative Dual-Camera System for Face Recognition and Video Monitoring

2014 ◽  
Vol 998-999 ◽  
pp. 784-788 ◽  
Author(s):  
Zhuo Chen ◽  
Hai Bo Wu ◽  
Sheng Ping Xia
Keyword(s):  
High Resolution ◽  
Large Scale ◽  
Video Monitoring ◽  
Field Of View ◽  
Wide Field ◽  
Time Requirement ◽  
Camera System ◽  
High Resolution Image ◽  
Wide Field Of View ◽  
Clustering Tree

In the ordinary video monitoring system, the whole small scene is usually observed by a stationary camera or a few stationary cameras, but the system can’t zoom and focus on the target of interest rapidly, and also can’t get the high resolution image of the target of interest in a far distance. Therefore based on the research of the dual-camera cooperation and a RSOM clustering tree and CSHG algorithm, a cooperative dual-camera system is designed to track and recognize a face quickly in a large-scale and far-distance scene in this paper, which is made up of a Stationary Wide Field of View (SWFV) camera and a Pan-Tilt-Zoom (PTZ) camera. In the meanwhile, the algorithm can ensure the real-time requirement.

STM studies of crystal growth

1991 ◽  
Vol 49 ◽  
pp. 374-375
Author(s):  
M. G. Lagally
Keyword(s):  
Crystal Growth ◽  
Molecular Beam ◽  
Chemical Vapor ◽  
Sputter Deposition ◽  
Field Of View ◽  
Scanning Tunneling ◽  
Wide Field ◽  
Tunneling Microscopy ◽  
Wide Field Of View ◽  
The One

It has been recognized since the earliest days of crystal growth that kinetic processes of all Kinds control the nature of the growth. As the technology of crystal growth has become ever more refined, with the advent of such atomistic processes as molecular beam epitaxy, chemical vapor deposition, sputter deposition, and plasma enhanced techniques for the creation of “crystals” as little as one or a few atomic layers thick, multilayer structures, and novel materials combinations, the need to understand the mechanisms controlling the growth process is becoming more critical. Unfortunately, available techniques have not lent themselves well to obtaining a truly microscopic picture of such processes. Because of its atomic resolution on the one hand, and the achievable wide field of view on the other (of the order of micrometers) scanning tunneling microscopy (STM) gives us this opportunity. In this talk, we briefly review the types of growth kinetics measurements that can be made using STM. The use of STM for studies of kinetics is one of the more recent applications of what is itself still a very young field.

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