DE4402775C1 - Video camera system for surveillance and inspection purposes - Google Patents

Abstract

A surveillance system of a type for use in a building or similar is based upon a video camera that received images from a controlled mirror system. The mirror is in the form of micro-mechanical elements formed in an array that can be subdivided in to quadrants. Each quadrant contains a large number of mirror elements that can be moved between more than two definite positions to obtain different images to be observed by the camera. The movement of the mirrors can be achieved by an electrostatic action.

Description

The invention relates to an imaging system with electronic Image sensor according to the preamble of claim 1.

The monitoring of building complexes by means of permanently installed, in their line of sight usually along the building facade or one Fencing video cameras has been common for many years. Also for access control (people or vehicles) at entrances such cameras are widely used. In addition, it is known Video cameras for inspection of cavities (e.g. duct systems, Container) mounted on movable probes. It is often intended to pivotally attach the camera to the To be able to change the viewing direction of the lens. If beyond that precautions are also taken, the focal length of the lens To vary camera, there is the possibility by appropriate choice a detail of the image with higher resolution To make available. In all cases where a changeable Image field to be recorded, it is necessary to mechanical Carry out adjustment processes (linear or rotary movements),  for the usual mechanical drives (e.g. electromotive, magnetic, hydraulic, pneumatic) are available appropriate installation space and a suitable energy supply need. In particular, the required installation space is in some Cases annoying or even prevents the use of the camera. This is a common feature of all previous video camera systems Presence of a lens with which to be observed by one Object outgoing light signals on the electronic image sensor be directed, which is required for electronic image generation.

From DE 88 07 162 U1 a visual aid is known with features such as those in The preamble of claim 1 are specified. With a surveillance system like it is provided according to the invention, this has nothing to do and it is also not a solution to the following task possible. A variable adjustment of the field of view without For example, conventional mechanical drives would not be possible.

Further optical scanning systems are known from DE-Patent 31 42 186 C1m 28 00 473 C2 and 27 52 828 C2, as well as the DE publication "Sensor 93" Kongreßband V, pp. 63-67 known, with mirror systems that can be influenced in their angular position.

The publication "Micromechanical Polysilicon Shutters And Mirrors For Light Modulator Arrays" (from: Sensor 93, Congress Book V, page 63-67) describes micromechanical component structures which are accommodated on a silicon substrate and whose geometric dimensions are in the range from a few 10 ^-5 m lie. These include, among other things, small movably mounted tilting elements with reflecting surfaces ("micromechanical mirror elements"), the deflection of which, for. B. can be effected by means of electrostatic effects. It is essential that the tilting is triggered within a short reaction time simply by applying a suitable electrical voltage. The power requirement for this is therefore almost zero. Solutions for such components that have been implemented to date allow tilt angles of + 14 ° to -14 °. Developments are underway that should enable a tilt angle of up to 90 °. If you vapor-coat the flat surface of such a tilting element with a highly reflective metal layer, a high-quality micromirror that can be changed in the direction of view is obtained. By arranging a large number of such micromirrors or mirror elements close to one another on a silicon substrate, one arrives at a mirror array whose elements can be controlled individually.

The object of the invention is a novel imaging system propose that new in terms of its uses Application fields opened and where the attitude changed Image fields is possible without using conventional mechanical Drives are necessary.

According to the invention, this object is achieved by an imaging system with the features of claim 1. Advantageous further developments the invention are specified in subclaims 2 to 14.

The invention is based on the idea of a micromechanical Mirror array as part of an optical system for an imaging system, e.g. B. a camera to use. The image area to be displayed is fed to the electronic image sensor via the mirror array, d. H. the used for the illustration, from the object to be observed in the Outgoing light signals are on the mirror elements by means of suitable adjustment of the tilting angle and reflected on steered the image sensor where the incident light signals to Lead to the creation of an "electronic image". This image leaves record yourself analog or digital or through a monitor for one make any distant viewer visible again.

The fact that the individual mirror elements in their orientation can be varied independently, it is possible to entire mirror surface in groups of mirror elements (mirror segments) to subdivide and look in the same direction within each group, but different perspectives between the groups adjust. In this way, the image sensor can be said to be the same "See" time in several different directions and corresponding Capture partial images. For example, the mirror array in four quadrants can be divided, each one a different one  Has viewing direction to four in this way at the same time to be able to observe different scenes from the entire picture area. It goes without saying that the Image quality, d. H. the resolution is correspondingly lower compared to in the event that all mirror segments, that is, all mirror segments are directed to the same (partial) scene. The resolution is the higher, the larger the effective mirror surface directed at a scene, so the more mirror elements target this scene.

The mirror elements should, if possible, be much more than two Have defined positions set to as many as possible To be able to realize viewing directions. The cheapest in this Regardless, a stepless adjustability is of course. It is also advantageous to have the largest possible setting range for the Tilt angle. In addition, the flexibility in hiring the Viewing angle significantly increased if mirror elements are used, which are about two different axes of rotation (if possible by 90 ° rotated towards each other) so that the line of sight does not only within a given "viewing level", but spatially can be changed. The control of individual mirror elements or in groups of mirror segments (e.g. by creating a suitable control voltage) is via a corresponding electronic Control made on the same silicon substrate (electronic chip) should be housed.

It is advantageous to program the electronic control so that the viewing angle of the entire mirror array or even individual Segments continuously or in discrete, timed Steps is changed continuously, so that a pivoting movement over the image field can be generated. With a conventional video camera Such a way of viewing is only possible if the camera itself  is pivoted accordingly. In this context arise special advantages if the imaging system according to the invention with an image evaluation electronics is combined, which is expedient on the Silicon substrate used as an image sensor is arranged. A such image evaluation electronics is stored in the system Decision criteria to examine whether the one recorded Image content that can be composed of several partial scenes, contains special significant details. The image evaluation electronics is preferably information technology with the electronic Control for setting the tilt angle of the micromechanical Mirror elements connected so that the finding is more significant Details of a change in the respective viewing direction of the Mirror elements can be used. This can be particularly true in the Way that deviate from a normal operating mode in which all or at least a large part of the segments of the mirror array in the electronic control looks at different directions a special mode is switched in which all or at least a large part of the segments looking in the direction of the determined significant detail can be set so that the Mapping accuracy (resolution) of this detail increased significantly is and thus an improved amount of information z. B. for that Supervision personnel of a technical system provided can be. The electronic control can be set up so that then only one of the imaging system according to the invention Image information via a corresponding data line Recording device or passed on to a monitor if one significant detail was discovered. This allows the scope of the data transmitted in this way to a small fraction reduce what occurs with conventional video camera technology would.  

The imaging system according to the invention is particularly advantageous as part of a security system for room or Use building surveillance. When special events such as for example in the event of people approaching a monitored one Building facade can, for example, the individual mirror segments that beforehand (in normal operation) all on different sections of the Facade were aimed at the picture part of this group of people directed to reveal more precise details. A Another large application spectrum arises in connection with the Inspection of cavities such as tanks, pipes, chemical reactors, etc., where the imaging system according to the invention part an inspection probe. In such applications it is often very advantageous if the position of the probe remains unchanged an all-round view can still be obtained. A panoramic view can can also be generated with conventional camera technology without the camera to move even if a so-called fish eye as a lens is used. However, this has the disadvantage that it is very distorted Supplies pictures. This is not the case with the invention. Otherwise, undistorted all-round images can be created with conventional ones Generate cameras only if the camera itself accordingly is pivoted. Suitable swivel devices are available for this to provide that require additional space and with appropriate Manufacturing and operating costs are connected. All of this does not apply to the proposed system. The micromechanical Manufacturing options offer the advantage of extremely compact design at low manufacturing costs, with an additional good one Reproducibility with extreme precision is guaranteed. Of the electrical power requirement is extremely low.

Claims (14)

1. Imaging system, in particular in the form of a video camera for monitoring and inspection purposes, with an electronic image sensor on which the light signals emanating from the object to be observed are used for image generation, the imaging system having a mirror arrangement which is arranged in such a way that the light signals are reflected by the mirror arrangement before they strike the image sensor, and the angle of the mirror elements, individually or in groups, can be influenced by an electronic control, characterized in that the imaging system is a system of micromechanical mirror elements (mirror array) and image evaluation electronics has, by means of which the respectively captured image content is examined for the presence of significant details according to stored decision criteria. 2. Imaging system according to claim 1, characterized, that the mirror elements defined on more than two Angular positions are adjustable. 3. imaging system according to claim 2, characterized, that the angular position is continuously adjustable. 4. imaging system according to one of claims 1 to 3, characterized, that the mirror elements can be pivoted about two different axes of rotation are.   5. Imaging system according to one of claims 1 to 4, characterized, that the mirror elements depending on the height of a applied electrical voltage are pivotable. 6. imaging system according to one of claims 1 to 5, characterized, that the image evaluation electronics with the image sensor on a common electronic chip is arranged. 7. Imaging system according to one of claims 1 to 6, characterized, that the image evaluation electronics with the electronic control of the mirror array is connected in terms of information technology or with this forms a structural unit and the mirror elements in Depending on the result of the image evaluation are adjustable. 8. Imaging system according to one of claims 1 to 7, characterized, that the electronic control is programmed so that it each the mirror elements of defined segments of the mirror array so controlled that in a normal operating mode at least one Most of the segments have different viewing directions having.   9. Imaging system according to one of claims 6 to 8, characterized, that the electronic control is programmed so that at Identification of significant details by the Image evaluation electronics the electronic control on a Special mode switches in which at least a large part of the Segments of the mirror array in their direction of view of the identified significant detail is set to the To increase imaging accuracy (resolution). 10. Imaging system according to claim 9, characterized, that in the special mode all segments of the mirror array in be set to the same detail in their direction of view. 11. Imaging system according to one of claims 2 to 10, characterized, that the electronic control is programmed so that the Direction of view of the entire mirror array or of individual ones Segments continuously or in discrete, timed Steps are continuously changed to achieve a Pan movement across the entire image field. 12. The imaging system according to claim 11, characterized, that if significant details are found by the Image evaluation electronics only target this determined image content via an image signal line to an image recording device or transmitted to a monitor.   13. Imaging system according to one of claims 1 to 12, characterized, that the imaging system is part of a security system for room surveillance. 14. Imaging system according to one of claims 1 to 12, characterized, that the imaging system is part of a probe for the inspection of Cavities is.