EP0356734A2 - Intruder detection device with television cameras - Google Patents

Abstract

Within a given surveillance region, changes in contrast caused by moving objects (OB) are detected by means of two television cameras, evaluated by means of automatic image evaluation and used to give an alarm. Two television images which belong together are evaluated together. In this connection, the television cameras (K1,K2) are arranged at a given distance (d) from one another, which is large, however, in relation to a conventional stereo arrangement, and form a common distance line (AL) so that the observation volume (GA) is situated in the field of view of the two cameras (K1,K2) with a differing direction of view. As a result of the predetermined positions of the cameras, that is to say given camera distance (d) and given solid angles ( epsilon 1, epsilon 2, alpha 1, alpha 2) of the respective camera, and taking into consideration the focal length of the lenses, the actual location, the true size and the external shape of the object (OB) is determined and an alarm criterion is derived therefrom. <IMAGE>

Description

The invention relates to a burglar alarm system for perimeter protection with television cameras and automatic image evaluation, wherein changes in contrast caused by moving objects are detected, evaluated and used for alarms within a certain surveillance area.

It is known in the case of room surveillance with television cameras to examine the captured image for changes in contrast and then to trigger an alarm depending on certain criteria. However, this known device has the disadvantage that it cannot be distinguished whether the change in contrast was caused, for example, by a distant person, a crow in the vicinity or a fly in the immediate vicinity, because the camera has no spatial vision and therefore no information about the distance. This disadvantage leads to an excessive rate of false alarms, which cannot be tolerated, particularly in an intrusion detection system.

It is also known to determine the distance from objects with the aid of two television cameras arranged closely next to one another, which have the same viewing direction, and thereby to make a statement about the size of the object. With the known arrangement, however, it is not possible, particularly in poor lighting conditions, in which only the outer contours can be seen, to infer the true shape and thus to gain a further criterion for distinguishing objects.

It is therefore an object of the invention to achieve a better distinction between intruding people and other moving objects in the case of room surveillance, in particular for perimeter security, with the aid of television cameras, and thereby to significantly reduce the rate of false reports.

This problem is solved in the case of an intrusion detection system mentioned at the outset by
that a common area section or a common observation volume is monitored simultaneously with at least two television cameras,
that at least two television pictures belonging together are evaluated together,
that the television cameras are arranged in a certain distance from each other, but a large distance from a conventional stereo arrangement, and form a common distance line,
that the observation volume is in the field of view of at least two cameras when viewed from different directions,
and that on the basis of the predetermined positions of the cameras, ie certain camera distance and given solid angles (ε1, ε2, α1, α2) of the respective camera,
and taking into account the lens focal length, the actual location, the true size and the shape are calculated or the outer contour of the object is determined and an alarm criterion is derived from this.

The area to be monitored (observation volume) is observed by at least two cameras simultaneously and both images are evaluated together. In both images, a moving object produces a change in contrast at an angle in space that can be determined with respect to the central axis of the image in question. Since the distance between the two television cameras and the respective solid angles are known, the location of the object can be calculated using the known triangulation. The solid angles of a camera can be given by an "elevation angle" (angle of inclination), which can be determined by the lens axis relative to the horizontal or the distance line, and an "azimuth angle" (horizontal angle). The "azimuth angle" can be formed by the lens axis and the distance line or the vertical plane of the distance line. The Solid angles of the cameras or the reference values for object determination can also be derived from a reference plane, the reference plane being formed by the distance line and a reference point which is determined by a common intersection of a respective camera line of sight in the field of view of the two cameras.

Based on the spatial assignment of the cameras and their orientation, the true size and shape (outer outline) of a moving object are determined in addition to the location of the object. The respective view of a camera and the evaluation of both images can now clearly determine whether the moving object is a human being, a crow or a fly. With the system according to the invention, it is also possible to eliminate disturbing changes in contrast of distant objects, which are caused, for example, by a person moving outside a surveillance area, or by lamps from cars or sun reflections on windows, because the actual location is ascertained these areas can be excluded.

In an advantageous embodiment of the invention, the location, the size and the shape (the outer outline) of the object are classified and stored as typical object data, the currently determined object data being compared with the stored object data and from this comparison an alarm is derived.

In the intrusion detection system according to the invention, it is advantageous to carry out the individual object data in a predetermined sequence in order to determine the location, size and external shape. This has the advantage, for example, that an object that triggers a change in contrast can have a location that lies outside the monitoring area, so that further determinations and comparisons are no longer necessary. An object discovered in the right place can also act as an intruder be excluded if, based on the joint evaluation of the respective view, a shape or an outer outline has been determined which, for example, corresponds to a crow and not to a crawling person. On the basis of the much more precise statement as to whether the moving object is a really intruding person or another object, a clear alarm message can be issued. False alarm messages are largely excluded.

In particular, this is advantageously possible when bad weather or light conditions prevail, so that often only the outer outline of the shape is available as a characteristic or decision criterion. In the embodiment of the invention, different variants for the arrangement of the television cameras are possible. To monitor a common terrain section, they can have, for example, the same solid angle or different solid angles. Likewise, the focal length of the lenses of the individual cameras can be the same or different. For example, for monitoring an elongated area section, a television camera with a telephoto lens can be almost horizontal, i.e. be arranged with an angle of inclination of almost 0 °, while the second camera with an extreme wide-angle lens above the terrain section to be monitored is vertical, i.e. is arranged with an inclination angle of about 90 °.

• FIG 1 eine nahezu symmetrische Kameraanordnung in Seitenansicht,
• FIG 2 in Draufsicht und
• FIG 3 eine asymmetrische Kameraanordnung in Seitenansicht.

The invention is briefly explained below with reference to the drawings. Show:

• 1 shows an almost symmetrical camera arrangement in side view,
• 2 in plan view and
• 3 shows an asymmetrical camera arrangement in a side view.

In the figures shown, it is assumed in a simplified manner that the objective axes A1, A2 of both cameras K1, K2 intersect in space GA and span a reference plane with the distance line d or AL of the two cameras K1, K2.

According to FIG. 1, the camera K1 is arranged at the same height as the camera K2 at a distance d. The respective objective axes A1 and A2 of the cameras K1, K2 have an elevation angle (inclination angle) ε1 and ε2 with respect to the distance line AL, which corresponds to the horizontal in this exemplary embodiment. The object OB is arranged below the camera K1, so that it appears very large for the camera K1, but very small for the camera K2.

This arrangement is shown in plan view in FIG. The two cameras K1 and K2 face each other at a distance d. The objective axes A1 and A2 of the two cameras K1 and K2 are oriented differently and each have a specific azimuth angle α1 and α2 with respect to the distance line AL. Due to the camera positions, i.e. the distance d and the solid angles α1, α2, ε1 and ε2, the respective locations, sizes and external shapes of an object can be determined from the respective views of the cameras, evaluated and used for alarms.

An arrangement of the two television cameras close to one another, for example at a distance from the human pair of eyes, and with the same line of sight, that is to say a stereo arrangement as is known, for example, for the generation of three-dimensional television images, is not expedient for an intrusion detection system. With such an arrangement, the effort to achieve a high resolution - and thus recognition of the object based on a view - and a sufficiently precise determination of the spatial coordinates for the object is currently considerable. It is not possible to determine the shape or the outer outline of an object with this stereo arrangement, as already explained above. In addition, a certain area to be monitored can be better illuminated with an asymmetrical arrangement of two cameras with different solid angles.

3 shows an arrangement for an intruder alarm system according to the invention for monitoring an elongated section of the route. The camera K1 with a telephoto lens is arranged approximately horizontally, i.e. with only a small inclination angle ε 1 (elevation angle). The second camera K2 with an extreme wide-angle lens is arranged above the monitored section of the route with an inclination angle of ε 2 = 90 °. An object moving in this area is detected, determined, evaluated and ultimately displayed as an alarm if the moving object has been recognized as an intruder, based on the same considerations as already explained above.

Claims (6)

1. intrusion detection system for perimeter protection with television cameras and automatic image evaluation, whereby changes in contrast caused by moving objects are detected, evaluated and used for alarming within a certain surveillance area,
characterized,
that at least two television cameras (K1, K2) are used to monitor a common area section or a common observation volume at the same time,
that at least two television pictures belonging together are evaluated together,
that the television cameras are arranged in a certain distance (d) from one another, which is large compared to a conventional stereo arrangement, and form a common distance line (AL) such that the observation volume (GA) is in the field of view of at least two cameras (K1, K2)
and that due to the predetermined positions of the cameras, ie certain camera distance (d) and given solid angle (ε 1, ε 2, α1, α2), the respective camera (K1, K2) and taking into account the lens focal length, the actual one Location, the true size and shape are calculated or the outer outline of the object is determined and an alarm criterion is derived from this. 2. intrusion alarm system according to claim 1,
characterized in that the location, the size and the outer shape are classified and stored as typical object data and in that the currently determined object data are compared with the stored object data for alarm generation. 3. intrusion detection system according to claim 2,
characterized in that the object data are processed in a predetermined order (for example first the location, next the size and then only the outer shape), with further processing in the intended order only for existing typical object data. 4. intrusion alarm system according to one of the preceding claims,
characterized,
that the television cameras each have the same or different solid angles for the joint monitoring of a terrain section. 5. intrusion alarm system according to one of the preceding claims,
characterized,
that the television cameras each have the same or different lens focal lengths for the joint monitoring of a terrain section. 6. intrusion alarm system according to one of the preceding claims,
characterized,
that a television camera (K1) is arranged almost horizontally and has a telephoto lens for monitoring an elongated terrain section (GA), and that a second television camera (K2) is arranged almost vertically and has a wide-angle lens.

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