RU2485710C1 - Cryptographic camera - Google Patents

Abstract

FIELD: radio engineering, communications.

SUBSTANCE: cryptographic camera is stated, which represents a network video camera with a processor system of video data processing, comprising a video sensor with an analogue-to-digital converter for generation of video frames in digital form and in non-compressed condition for their transfer into a block of video processor for compression of video data and production of video frames in digital form and compressed condition, a controller of compressed video frames transfer into a network to a consumer and an adapter of connection to an autonomous or an outer sources of power supply. The cryptographic camera is equipped with a block of coding of compressed video frames, installed in a line of video data transfer into a controller, which is connected with a nonvolatile protected memory with secret keys, connected to the coding block and having a slot inside the body to record secret keys from an external source with the body open, and a sensor of body opening, connected to the autonomous source of power supply and via a controller connected to a block of data deletion in the specified memory with secret keys.

EFFECT: enhanced protection of video data.

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Description

The invention relates to the field of telecommunications technology and secret communications and is intended for use as part of video surveillance systems built on the basis of network technologies.

Network video cameras are known, including those supporting HTTPs or IPsec data encryption protocols (see the article “AXIS Q6034 PTZ High-Speed Network Video Camera with HDTV Resolution at 25 fps and 18x Zoom” posted on the ARMO SYSTEMS website on the Internet on-line access to the address: http://www.armosystems.ru/system/cctv_axis_2130.ahtm, found: October, 2011) (accepted as a prototype).

Signs of the prototype, which coincides with the features of the claimed invention, are as follows: sensor (video image sensor), video processing microprocessor, memory (various types), interface controllers (including network), power supply system (including batteries), pre-installed software (including including network protocol support).

The reason that impedes the achievement of the claimed technical result is that:

- if the network video camera does not support the data encryption protocol, then such data can be intercepted and / or replaced by an attacker during network transmission (sniffer attacks, etc.);

- if the network video camera is connected to the VPN (Virtual Privet Network) network, then, firstly, there is a need to install additional equipment both on the camera side and on the client side, and secondly, there is a data transmission section between the camera and the VPN equipment open view;

- if the network camera supports the encryption protocols HTTPs or IPsec, then there is a need for integration with a specialized certification server;

- if a network video camera transmits data via FTP to a file server, then an attacker can unauthorizedly obtain video data by intercepting the login and password.

The problem to which the claimed technical solution is directed is to create a video camera that ensures guaranteed confidentiality of video data transmitted over the network based on the use of encryption of video frames directly.

The present invention is aimed at achieving a technical result, which consists in providing guaranteed protection of video data, including when transmitting via open communication channels and storing video data on public (external) disk arrays.

The specified technical result is achieved by the fact that the cryptocamera, which is a network video camera with a processor system for processing video data, contains a video sensor with an analog-to-digital converter for generating video frames in digital form and in an uncompressed state for transmission to a video processor unit for compressing video data and receiving video frames in digital in the form and in a compressed state, a controller for transmitting compressed video frames to the consumer’s network and an adapter for connecting to autonomous or external power sources, sleep It is encrypted by a compressed video frame encryption unit installed in the video data transmission line to the controller, which is connected to non-volatile protected memory with secret keys, connected to the encryption unit and having a connector inside the case for recording secret keys from an external source when the case is opened, and a case opening sensor connected to an autonomous power source and through a controller connected to the data destruction unit in the specified memory with secret keys.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present invention is illustrated by a specific example of execution, which, however, is not the only possible, but clearly demonstrates the possibility of achieving the desired technical result.

Figure 1 is a structural diagram of a cryptocamera;

According to the present invention, the construction of a video camera with a built-in function for encrypting video data, hereinafter referred to as a cryptocamera, is performed, with a function of built-in guaranteed protection of video data integrated therein, including when transmitting over open communication channels and storing video data on public (external) disk arrays.

To organize video surveillance, specialized network cameras are used with a pre-installed secret encryption key recorded in non-volatile memory, application software for encrypting third-party video frames and a hardware-software solution to protect the secret key from being compromised, as well as client software, which is either an independent product or called function (API).

According to the present invention, a cryptocamera design is considered, which is a network video camera with a processor system for processing video data, comprising a video sensor with an analog-to-digital converter for generating video frames in digital form and in an uncompressed state for transmission to a video processor unit for compressing video data and receiving video frames in digital form and in a compressed state, a controller for transmitting compressed video frames to the network to the consumer and an adapter for connecting to stand-alone or external power sources Ania. The network video camera is also installed by writing to non-volatile memory during the manufacture of specialized software that implements encryption of compressed video frames before transmission to the network controller. A non-volatile protected memory with secret keys is connected to the central processor, having a connector inside the case for recording secret keys from an external source when the case is opened, and a controller for external devices, including the case opening sensor. When the tamper switch is triggered, the external device controller instructs the central processor to destroy the secret keys. A power and battery controller is connected to the central processor. In the absence of power supply and close battery discharge, the controller instructs the central processor to destroy the secret keys.

The following methods can be used to organize encryption-decryption of video frames:

- symmetric encryption - each cryptocamera has its own secret key; the user can decrypt the video data received from the cryptocamera only if he also has this secret key; encryption of the digital compressed representation of the video frame is carried out in gamma mode in accordance with GOST 28147-89;

- public key encryption - the public keys of users who are allowed to decrypt video data are recorded in the cryptocamera; with their help, session keys are generated for each user, which are written in the header of the network packet or directly in the block of transmitted data; each user's program retrieves "their" session key and decrypts the video data based on the secret key and session key.

The cryptocamera, like traditional network video cameras, provides video transmission on demand from client software, event detection (motion, sensor triggering, etc.) or according to a schedule. The cryptocamera can directly record encrypted video frames to a file located on a network drive (using the FTP protocol, Samba client or analogues).

The cryptocamera can support simultaneous operation in several IP networks with a different range of IP addresses, which ensures reliable communication of the cryptocamera with users.

The cryptocamera of the present invention has the following design features:

- encryption of each video frame in digital form, formed in the video camera and compressed using one of the compression algorithms (JPEG or equivalent), is performed by the encryption program installed in the camera based on the secret key; encryption parameters are recorded in the header of each frame; in the absence (destruction) of the secret key, the encryption parameters are not entered in the frame header, the compressed video frame is replaced with an image indicating that encryption of the video data does not occur;

- the secret encryption key is recorded in the non-volatile memory of the camcorder before installing the camcorder or during its service; writing to memory is done by connecting through a specialized connector (the type of connector depends on the type of memory module), which does not have an output to the outside of the case;

- the camera body is equipped with a sensor for violating the integrity of the camera body, a sensor controller and a battery providing operation of the controller when the power of the camera is off; in case of violation of the integrity of the case, the controller cleans the memory area in which the secret key is recorded;

- encrypted video frames are transmitted to recipients (clients) using standard network protocols (HTTP, RTSP and others);

- decryption of video data (with subsequent display - in the mode of online viewing or viewing a video archive) is carried out by the corresponding application program with the added decryption function based on the encryption data extracted from the frame header and the key installed on the user's workstation.

Below is an example of the execution of a cryptocamera (figure 1). The cryptocamera contains a video sensor 1 located in a common housing with an analog-to-digital converter for generating video frames 2 in digital form and in an uncompressed state, which are supplied to the central processor 3 in a video processor unit 4 for compressing video data and receiving video frames 5 in digital form and in a compressed state. The compressed video frames are sent to the encryption unit 6 for the compressed video frames 7 in encrypted form and sent to the controller 8 for transmitting encrypted data to the data transfer network 9 to the consumer. The central processor 3 comprises an input / output port controller 10 (GPIO, UART, etc.). The central processor 3 contains a block of the WEB server 12, processing the commands received from the block 11 receiving control commands from the outside. A RAM block 13 for processing data, a non-volatile rewritable memory block 14 for storing system and application software, and a non-volatile protected memory block 15 with secret keys connected via a special connector are connected to the central processing unit 3.

The central processor 3 through the power adapter 16 is connected to an external power supply network 17, but has a built-in battery 18, also connected to the adapter 16 to maintain the operation of the cryptocamera in case of violation or interruption of the power supply from the power supply network 17. Data from the adapter 16 and the battery 18 are processed and analyzed the controller of external devices 10. A timer unit 19 (with an autonomous power supply) is connected to the central processor 3. The camera tamper 20, the signals from which through the GPIO interface fall into the controller of external devices 10, are processed by the central processor 3.

During production or service, an additional non-volatile memory module is installed in the network video camera for recording and storing the secret encryption key, the camera body is equipped with a tamper sensor with a controller, which, if the camera case is not in integrity, initiate the destruction of the secret key, and a battery that allows the sensor and controller to work opening the camera body even when the power is turned off, in the pre-installed software of the camera a software module for encrypting a video frame in digital form (any of the certified algorithms) is obtained after compressing video data frame-by-frame with the JPEG algorithm (or an analog), the secret key is written to the video camera before the video camera is transferred for installation, each video frame is encrypted using the secret key, encryption parameters are entered in the header of the encrypted video frame, the encrypted video data received by the client is viewed using client software data with the added function (program) of decryption based on the encryption parameters extracted from the header of the received video frame and the key installed on the user's workstation.

Claims (1)

A cryptocamera, which is a network video camera with a processor system for processing video data, containing a video sensor with an analog-to-digital converter for generating video frames in digital form and in an uncompressed state for transmission to a video processor unit for compressing video data and receiving video frames in digital form and in a compressed state, controller transmitting compressed video frames to the consumer’s network and an adapter for connecting to stand-alone or external power sources, characterized in that it is equipped with a compression unit video frames installed in the video data line to the controller, which is connected to non-volatile protected memory with secret keys, connected to the encryption unit and having a connector inside the case for recording secret keys from an external source when the case is opened, and an opening sensor connected to an autonomous source power and through the controller connected to the data destruction unit in the specified memory with secret keys.