Infrared imaging device using a pyroelectric image tube
First Claim
1. An infrared imaging device utilizing a pyroelectric image tube and comprising:
- shifting means for shifting the viewing axis of the tube relative to an observed scene to carry out a panning surveillance, reading means for scanning line by line the infrared image formed on the target of the tube to provide a corresponding video signal, and processing means for processing the video signal for use in a line scan television display, the said shifting means and reading means being so designed that the direction of the lines is perpendicular to the shifting direction of the axis and in that the speed of the shift is lower than that of the frame scan to cover a distance of a predetermined whole number R of line intervals such that 1≦
R≦
n/2, in the course of one frame period which comprises n lines and in that the processing means comprise storage and integrating circuits for storing the video signal of an image scan, line by line and point by point in each line after being added to the video signal stored in the course of the preceding image scan and which signal corresponds to the same point in the observed scene and thus to obtain a video signal integrated K=n/R times for each point after K successive frame periods, and a buffer memory device to store the said integrated video signal and to provide the intended display signal.
0 Assignments
0 Petitions
Accused Products
Abstract
An infrared imaging device enabling operation in the panning mode with a very high sensitivity and the facility of viewing a desired part of the observed field. A pyroelectric imaging tube is shifted relative to the observed scene and the infrared image on the target is read in a line by line scan the direction of the line being perpendicular to that in which the image is shifted. The shift takes place at a speed corresponding to a whole number R of line intervals in the course of one image frame scan comprising n=KR lines, with the result that each point is examined K times in the course of K successive frame periods; the video signal is accordingly processed to perform K successive integrations.
-
Citations
7 Claims
-
1. An infrared imaging device utilizing a pyroelectric image tube and comprising:
- shifting means for shifting the viewing axis of the tube relative to an observed scene to carry out a panning surveillance, reading means for scanning line by line the infrared image formed on the target of the tube to provide a corresponding video signal, and processing means for processing the video signal for use in a line scan television display, the said shifting means and reading means being so designed that the direction of the lines is perpendicular to the shifting direction of the axis and in that the speed of the shift is lower than that of the frame scan to cover a distance of a predetermined whole number R of line intervals such that 1≦
R≦
n/2, in the course of one frame period which comprises n lines and in that the processing means comprise storage and integrating circuits for storing the video signal of an image scan, line by line and point by point in each line after being added to the video signal stored in the course of the preceding image scan and which signal corresponds to the same point in the observed scene and thus to obtain a video signal integrated K=n/R times for each point after K successive frame periods, and a buffer memory device to store the said integrated video signal and to provide the intended display signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
- shifting means for shifting the viewing axis of the tube relative to an observed scene to carry out a panning surveillance, reading means for scanning line by line the infrared image formed on the target of the tube to provide a corresponding video signal, and processing means for processing the video signal for use in a line scan television display, the said shifting means and reading means being so designed that the direction of the lines is perpendicular to the shifting direction of the axis and in that the speed of the shift is lower than that of the frame scan to cover a distance of a predetermined whole number R of line intervals such that 1≦
Specification