HUP0104740A2 - System and method for audiovisual watching definite rooms - Google Patents

Abstract

The subject of the invention is a system for audio-visual monitoring of specific spaces, which includes at least one transmitting station containing technical parameters, sensors and/or audio recording unit and at least one receiving station, which are in wireless communication with each other. The transmission station is equipped with at least one image recording device (1), which is connected to the transmission stage (7) via an image content evaluation stage (4) and a modem (5) as appropriate; and the receiver stage (8) of the receiving station is connected to a digital data storage unit (10) via a modem (9). The subject of the invention is also a method for audio-visual monitoring of specific spaces, during which the signals received from at least one image recording device are digitized and transmitted to a data storage and/or display unit via a wired or wireless connection. In order to make effective use of the communication bandwidth, the content of the images received from the image recording device is monitored and evaluated, and transmitted in the event of changes of a predetermined nature or extent, and the signals are forwarded to the data storage and/or display unit via the existing radiotelephone network. HE

Description

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System and method for audiovisual surveillance of specific spaces

The invention relates, on the one hand, to a system for audiovisual surveillance of defined spaces, which comprises at least one transmitter station containing sensors and/or a sound recording unit detecting technical parameters and at least one receiver station, which are in wireless communication with each other. The invention relates, on the other hand, to a method for audiovisual surveillance of defined spaces, in which signals received from at least one image recording device are digitized and transmitted to a data storage and/or display unit via a wired or wireless connection.

In everyday life, the need to continuously monitor specific areas or to review events in a clear and evaluable manner is becoming more and more common. This need has become particularly important in public buildings, public institutions, public vehicles, including aircraft. Closed-circuit video systems are usually installed almost mandatory in financial institutions. During the flight of aircraft, numerous parameters determined by considerations and customs established in international practice are monitored and recorded in the black boxes, the role of which, in addition to data recording, is to protect the data in a readable manner in the event of an air accident.

The shortcoming of this solution is, among other things, that in addition to the selected technical parameters of the vehicle, it records the communication on board the vehicle, which is only of limited use for reconstructing events and does not really provide an opportunity to take preventive measures.

Our aim with the invention is to create a solution by which the area and/or vicinity of a specific space, primarily a public building or a vehicle, including an aircraft, can be secured visually, in addition to technical and acoustic methods, even while in motion. Our further aim is to make all this possible by using the already available, established telecommunication systems, with relatively small technical and financial outlay.

Patent specification FR 2 645 993 describes a system for monitoring and supervising the operating conditions of a land, water or air vehicle as a defined space. In this case, the signals of sensors placed in or on the vehicle are stored in a way that prevents unauthorized access and manipulation, preferably on a portable data storage medium such as a black box, and it has a unit that accesses and evaluates the content thereof and intervenes when predetermined conditions are met.

-2 into the control of the vehicle, suspending the dominant influence of the person driving it. One of the shortcomings of the solution is that the events can only be known in real time by the persons in the affected vehicle, they are not accessible to external observers. After a possible accident, the finding of the data carrier, the integrity or evaluation of the data stored on it are not ensured.

US Patent No. 6,009,356 describes a wireless surveillance system for use on an aircraft, the components of which include sensors monitoring technical parameters, microphones, etc., mounted at designated points on the aircraft, powered by wires, but communicating wirelessly with a receiving station located in the cockpit, which stores the received data in a black box-like manner and makes it accessible to the pilot. The system communicates not only internally, but also externally: the aircraft's current position - but only its position - can be tracked using a GPS system. The shortcoming of the system is that it does not offer a complete solution that would allow real-time audiovisual surveillance for outsiders without special satellite positioning, using existing telecommunication options.

DE 196 33 286 also proposes a surveillance and security system for passenger aircraft, in which several cameras are installed, and their images are continuously recorded and stored in the aircraft's black boxes with a storage capacity of about ten minutes. Obviously, the system only allows for retrospective viewing, as it does not describe or mention the transmission of data to the ground.

We have recognized that the desired goal can be achieved if the collected technical parameters and/or audiovisual signals are processed and transmitted to one or more centers at any location via public wireless radio frequency networks originally established for telephony.

In solving the set task, on the one hand, we have taken as a basis a system for audiovisual monitoring of specific spaces, which includes at least one transmitting station containing sensors and/or a sound recording unit detecting technical parameters and at least one receiving station, which are in wireless communication with each other. According to the invention, the transmitting station is equipped with at least one image recording device, which, if applicable, is connected to an image content evaluation stage and a modem ) ·'<>*> . · · • ♦ * ’ *

-3 is connected to the transmitter stage; and the receiver stage of the receiving station is connected to a digital data storage unit via a modem.

According to a preferred embodiment of the proposed system, a display unit is connected to the data storage unit.

Furthermore, an embodiment of the proposed system is advantageous in which several image recording devices are optionally connected to the image content evaluation stage via a multiplexer.

According to a further advantageous embodiment of the proposed system, the image content evaluation stage and modem of the transmitting station are implemented with a personal computer.

Also advantageous is an embodiment of the proposed system in which the modem and digital data storage unit of the receiving station are implemented with a personal computer.

In solving the set task, on the other hand, we started from a method for audiovisual observation of specific spaces, during which signals received from at least one image recording device are digitized and transmitted to a data storage and/or display unit via a wired or wireless connection. According to the invention, in order to effectively utilize the communication bandwidth, the content of the images received from the image recording device is monitored and evaluated, and in the event of a change of a predetermined nature or extent, the signals are transmitted to the data storage and/or display unit via an existing radio telephone network.

According to a preferred embodiment of the proposed method, in addition to the audiovisual signals, the values of pre-selected parameters of the observed space are also transmitted.

According to a further preferred embodiment of the proposed method, the stored data is organized according to specific criteria facilitating retrieval. The latter can be done, according to a preferred embodiment, by organizing the stored data in chronological order or, in the case of public transport vehicles, by organizing the stored data based on flight identifiers.

For a better understanding of the invention, the invention will be described in more detail below with the aid of the attached drawing, which shows an exemplary embodiment of the proposed system. In the drawing,

Figure 1 shows the structure of a possible embodiment of the transmitter station used in the system according to the invention at block diagram level, the

Figure 2 shows the structure of a possible embodiment of the receiving station used in the system according to Figure 1 at block diagram level, and the

Figure 3 is an exemplary flow chart of image content evaluation applied at the transmitting station of Figure 1.

The system according to the invention, which is presented only as a preferred example, consists of two main units, namely at least one transmitting station A and at least one receiving station V, although for the sake of easier understanding, we mention one transmitting station A and one receiving station V in our description. Each transmitting station A contains at least one image recording device 1 placed openly or, if applicable, hidden in the area intended to be monitored. The image recording device 1 is preferably an analog camera or CCD device suitable for transmitting moving images, for example a commercially available surveillance camera or camera module, which is designed and constructed according to the application conditions. In the basic case, an image of 320x200 pixels or pixels provides an evaluable signal, but the available bandwidth allows the use of a resolution of up to 800x600, which means a sharp, black-and-white or even color image that exceeds the resolution of surveillance systems. The cameras can be equipped with a microphone transmitting the acoustic events of the monitored area, or separate microphones are used for this purpose in a known manner. The image recording devices 1 usually provide an analog signal and their outputs are connected to one input of the multiplexer and digitizer stages 2. The design of the stages 2 is determined by whether the transmitter station A is made as a purpose-oriented unit or assembled from standard units; in this case, we use a stage 2 developed for a personal computer, such as the product called Digital Video Agent Xpress by the American company Integral Technologies, Inc. Its structure and operation can be found in detail for professionals in the User Manual of the product 12/98. The currently widespread computer image formats - JPG, GIF, etc. - appear at the output of the stage 2, but for security reasons other, individually coded formats can also be used.

In the case shown, several other sensors 3 monitoring predetermined technical parameters of the monitored area are also connected to the stage 2. The output of the stage 2 is connected to the input of an image content evaluation stage 4, which monitors in a manner known in the art whether there has been a change in the information content of the selectively designated range of images provided by the image recording devices 1. If yes, the output signal of the stage 2 is passed on to the input of a modem 5, if not, the switch

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It does not occupy the available bandwidth with unnecessary information. As an example of the structure and operation of the 4 image content evaluation stages, we can mention the AGPV6600 graphics card for personal computers from Taiwanese ASUS Inc., and the monitor program called VideoSecurity that is an accessory to it.

The sensors 3 monitoring the technical parameters are connected via the stage 2 either directly to the modem 5 or to the data storage stage 6. The latter serves for reliable, black box-like storage of the data coming from the sensors 3 in case the connection with the receiving station V is temporarily interrupted.

The image content evaluation stage 4 and the data storage stage 6 are connected to a transmitter stage 7 via the modem 5, which in its technical implementation fits into the respective radiotelephone network, or, according to another option, forms part of an independent telephone device, which then operates in data mode.

The receiving station V naturally contains 8 receiver stages connected to the radiotelephone network, the output of which is connected to a digital data storage unit 10 via a modem 9. The latter in this case is part of a personal computer which, in addition to data recording and storage, also performs other, usual tasks. Thus, it can be used to display the stored data, to perform operations related to the data, for example, to group them based on different aspects, and to input data in the case of an interactive, i.e. bidirectional connection. According to a further option, the personal computer also plays the role of an Internet web server, and the data released by it can be retrieved anywhere, in real time, using the Internet.

The flowchart shown in Figure 3 illustrates an exemplary implementation of the image content evaluation applied in the image content evaluation stage 4 at the transmitter A. At the beginning of a cycle, in step 31, we check whether the monitoring mode is active. In the case of a negative answer, the signal processing is suspended in step 32, in the case of an affirmative answer, a configuration file is loaded in step 33, and then in step 34 the current image signal information is evaluated. After this is done, we return to step 31 and start the cycle again.

Breaking down step 34 further, in step 341 the image information provided by a camera is read from stage 2, and in step 342 it is checked whether there is a set active range whose change plays a role during the procedure. If no indication of an active range is found, then in step 343 we switch to the next of the image recording devices 1 connected to stage 2 - i.e. the next camera - and the

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In step 341, the image information provided by the camera is read from stage 2. If in step 342 it is determined that an active range has been set, then in step 344 the content of the active range information is evaluated, during which in step 345 it is examined whether there is a change in it compared to the previous state. If in step 345 it is determined that there is no change, then in step 346 we move on to processing the next active range and return to step 342 to check the existence of the active range. If in step 345 it is determined that there is a change, then in step 347 the information, generally an image, is stored in the digital data storage unit 10 and displayed on the display 11 associated with it.

The above, when applied to an aircraft as a specific space to be observed audiovisually, means the following:

Hidden cameras must be installed on the aircraft. The cameras are connected to a target computer, which transmits the digital information to an arbitrary ground computer using one of the standard wireless connection methods (satellite, radio frequency).

Digital information can be:

1. image of an indoor camera installed on the aircraft;

2. any data from any instrument on the aircraft

The transmitted information can be received by a computer (multiple at the same time) located anywhere on Earth with the appropriate permissions, running special software capable of processing the transmitted information. The software is endowed with sufficient intelligence to “interpret” irregular events (which can be classified as abnormal on the aircraft) and respond to the event with an appropriate reaction. The reaction can be:

1. alarm;

2. interference with the aircraft control system,

3. or any operation to be defined later by the experts.

There are two ways to establish a connection: standard ISDN (Internet) or a dial-up mobile phone.

The establishment of a two-way information connection creates the possibility of defining and implementing the so-called “ground black box”. There is no theoretical obstacle to continuously monitoring the aircraft’s technical parameters directly on the ground computer.

-7, and thus permanently eliminate the possibility of the destruction of the material of the real black box used in practice so far.

The application of technology may not only be significant in relation to terrorist acts. It can play an equally important role in the event of a technical failure, by creating the possibility of direct intervention by the ground center.

The following aspects should be taken into account when implementing the system according to the invention:

1. The system includes commercially available components (video cameras, sensors, interface units). The components can be included in a catalog during the sales preparation phase.

2. The protection system complies with data transmission standards both in terms of hardware and software. The computing equipment used can be configured depending on the performance requirements.

3. The communication is client/server based, in which the server is a computer located on the aircraft, and the client is any ground computer with an operating system capable of handling TCP/IP. Transmission via a dial-up mobile connection does not require the TCP/IP protocol. The ground computer simply calls the computer on the aircraft and, by establishing a modem-modem connection, continuously reads the data collected by the on-board computer and the digitized images.

4. Digital image processing (image capture, compression, data conversion) is controlled by software running on the server. The software can handle multiple cameras and records events from individual camera angles in a parameterizable manner. Recording sensitivity can be increased by designating so-called active zones. The active zone can be directed to the protected object of the monitored space or to the aircraft's "transport hub".

5. Minimizes the accumulation of redundant information. The designed server-side software only allows images to be stored when changes occur in the designated active zones. The intelligence of the surveillance is carried by the hardware and software devices built into the system.

6. The client-side software running on the workstations can process the multimedia database stored on the server in both on-line and off-line modes. In off-line retrieval mode, the monitoring time interval can be defined, the events of which are recorded by the system in the discrete

Claims (10)

-8 images are played back in a cinematic manner, which the viewer perceives as jerky movement. The storage and playback algorithms minimize the redundancy of the multimedia database while maintaining the perfect identification of objects (persons). 7. Its protection algorithms provide complete security against unauthorized access to the central monitoring system and during periods of inoperability due to technical failures. In the event of a signal failure, it can trigger an automatic alarm based on the analysis of the signal curves of the sensors. The solution - although in the example we focused on the highly important air transport - can obviously be applied to the monitoring of other spaces and objects, taking into account the circumstances of the current use. Patent claims 1. System for audiovisual surveillance of defined spaces, comprising at least one transmitting station (A) containing sensors and/or a sound recording unit for detecting technical parameters, and at least one receiving station (V), which are in wireless communication with each other, characterized in that - the transmitting station (A) is equipped with at least one image recording device (1), which is optionally connected to a transmitting stage (7) via an image content evaluation stage (4) and a modem (5); and - the receiver stage (8) of the receiving station (V) is connected to a digital data storage unit (10) via a modem (9). 2. The system according to claim 1, characterized in that a display unit is connected to the data storage unit. 3. System according to claim 1 or 2, characterized in that several image recording devices are optionally connected to the image content evaluation stage via a multiplexer. 4. System according to any one of claims 1-3, characterized in that the image content evaluation stage and the modem of the transmitting station are implemented with a personal computer. 5. The system according to any one of claims 1-4, characterized in that the modem and digital data storage unit of the receiving station are implemented with a personal computer. 6. Method for audiovisual surveillance of specific spaces, during which signals received from at least one image recording device are digitized and connected via wire or wireless. -9 is delivered to a data storage and/or display unit via a connection, characterized in that in order to efficiently utilize the communication bandwidth, the content of the images received from the image recording device is monitored and evaluated, and in the event of a predetermined change in nature or extent, the signals are transmitted to the data storage and/or display unit via an existing radiotelephone network. 7. The method according to claim 6, characterized in that in addition to the audiovisual signals, the values of pre-selected parameters of the monitored space are also transmitted. 8. The method according to claim 6 or 7, characterized in that the stored data is organized according to defined criteria facilitating retrieval. 9. The method according to claim 9, characterized in that the stored data is organized in chronological order. 10. The method according to claim 9, characterized in that the stored data is organized based on the flight identifier in the case of public transport vehicles. The authorized person: DANUBE Patent and Trademark Office Ltd.