NL2004193C2 - DEVICE AND COMPOSITION FOR CODING AND COMPRESSING SIGNALS. - Google Patents

Description

Device and assembly for coding and compressing signals

The present invention relates to a device and assembly for real-time coding and compressing of signals such as video, audio and data signals. More particularly, the invention relates to encoding and compressing a signal for exchanging live video images in combination with lip synchronous audio whether or not supported with echo and / or noise suppression for the audio between 1 or more locations . Areas of application for this are video conferencing, remote education and medical assistance, remote security, 10 social participation projects for fully or partially immobilized people, etc.

Encoding signals for the purpose of exchanging live video images between multiple locations is known per se. Applications such as Skype and MSN provide software that codes and compresses the signals and are thus able to exchange video images with the aid of a personal computer.

A disadvantage of these known solutions is that the image quality leaves something to be desired, in particular on networks with a low bandwidth. For a high resolution or smooth images, the known solutions also place high demands on the bandwidth of the connection and / or on the overall performance of the hardware present. The often older hardware has problems delivering a good quality video stream.

Newer systems are better equipped for this, although here too problems often arise with outdated drivers, whereby the overall video quality is adversely affected. The requirement of a PC with an internet connection with a particularly high bandwidth, however, limits the mobility of people who want to exchange video images. In particular, care providers who want to make contact with a home base or a doctor, or security staff, who want to approach a security center from ever-changing places, or people who otherwise have a changing workplace or PC, experience limitations with regard to the position of the technique. In addition, the already known solutions are dependent on the already existing camera systems that are made suitable for being connected to a PC. The quality in this is highly variable and that also has an effect (often in a negative way) on the video quality as it is experienced. The prior art solutions for a good image connection still require a minimum of 768 Kbit to 1 Mbit regardless of the hardware used. This mainly limits users who are mobile and thus dependent on the connection that is offered at each of the locations.

The interface used for existing systems is often unable to send and receive large amounts of raw information. Uncompressed video images in smooth form and high resolution simply cannot be offered over the 10 interfaces (such as USB) used, which means that coding must take place over an already suboptimal starting situation.

It is therefore an object of the present invention to provide a method, apparatus, and assembly for encoding and compressing a signal that at least partially overcomes the aforementioned disadvantages, or to provide a useful alternative.

To this end the invention proposes a device for coding and compressing a signal, comprising dedicated hardware for coding and compressing the signals, and means for coupling the dedicated hardware with an external port of a PC, in particular a Laptop. The dedicated hardware can be composed of a digital signal processor (DSP) with firmware with the desired algorithms and protocols, or specifically developed Integrated Circuits such as ASICs.

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By using dedicated hardware for coding and compressing the signal, on the one hand no or less use is made of the computing capacities available on the PC, in particular image processing, coding and compression capacity, as well as the available data transfer speed of the interface used and on the other -30 because the dedicated hardware is optimized for fast processing of special arithmetic operations needed for real-time coding and compression of the signal and can therefore achieve better results than a combination of CPU and GPU - less bandwidth required to obtain a sufficiently high resolute and 3 shock-free image. Because the invention is furthermore provided with a connection for connecting to an external port of a PC, use can be made of any PC by connecting the device according to the invention to the relevant port, after which the dedicated hardware can be used for providing the required computing capacity. The device can be kept in the pocket by a user at all times, allowing him to make use of random and non-adapted or specially equipped PCs for exchanging video images everywhere.

In an advantageous embodiment, a DSP is accommodated on a PCI card.

10 Such DSPs, specially optimized for arithmetic operations, are commercially available and are very suitable for exchanging signals with the correct compression algorithms and communication protocols. However, these cards require a free PCI slot in a PC. Not only does inserting a card in such a slot entail the necessary hassle, since the PC housing must usually be opened for this purpose and users are often unable to perform the required operations for inserting the PCI card , prepared or authorized, but not every PC has a free PCI slot, which makes the use of such a card even physically impossible. With desktop PCs, the existing slots can all be used, and with laptop PCs or Slim-line PCs, PCI slots are generally not present at all.

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For another advantageous embodiment, the invention should have the means for coupling to an external port and a USB (Universal Serial Bus) connector. This type of bus and connector is now widely used, and is present in almost every modern workplace or PC. In addition, the USB connections are often placed on a front side and thus easily accessible side of the PC, as a result of which the device can be connected quickly and easily. Furthermore, the USB connector has the advantage of a robust design that is suitable for regularly connecting and disconnecting the device with a PC, without there being a great risk of damage. PCI cards themselves, on the other hand, are specifically designed to be placed once in a slot and then remain connected to it for a longer period of time, but they are not specifically designed for frequent coupling and disconnection. Other interfaces such as Bluetooth and infrared have the problem that they are less common than USB and also achieve lower 4 throughput speeds. Another disadvantage is that the invention should always be powered externally, which is not the case with USB because the power supply is supplied via the USB connector. This disadvantage also exists if an ip interface was chosen in any capacity. In addition, with such an interface the problem arises that the invention must always be configured at the network level, which undermines the flexibility of the invention.

In order to make it possible to use the device at several workplaces and to facilitate its carrying, the device is preferably accommodated in a portable housing, preferably in pocket format or smaller. A handy format is, for example, smaller than 10 x 10 x 2 cm, and more preferably even smaller than 10 x 5 x 1 cm.

Furthermore, it is advantageous if the dedicated hardware is provided with an image recording means, such as a CCD or CMOS sensor, so that a minimum of external equipment has to be used, and that the hardware used is fully coordinated with each other.

To use the dedicated hardware, the PC to which the device is connected must have special software, such as driver software for the dedicated hardware. This software may be stored on the device in a RAM or other memory type, or a separate data carrier with software for the PC may belong to the device. The software or driver is configured to allow the PC to recognize the dedicated hardware, and to ensure that at least the coding and compression of the signals is carried out by means of the dedicated hardware, so that processor capacity of the PC need not be used for this purpose. to become. The PC then automatically serves the dedicated hardware just as if it were part of the PC itself, or if it were included as a PCI card.

The software can further be arranged for setting up a signal connection with the PC, wherein the dedicated hardware compresses the signals. Because a dedicated hardware is generally optimized for its task as opposed to a CPU and GPU, the device according to the invention requires less bandwidth for sending a higher quality real-time signal.

The device can further be arranged for performing further specific functions for the purpose of exchanging video, such as a noise and echo suppression on a connection line. This can be done through software by means of the software belonging to the device, by means of hardware belonging to the PC, but by the dedicated hardware itself. The invention will now be explained with reference to the following figures. Herein: - Figure 1 shows a first embodiment of the present invention; and - Figures 2a and 2b a second embodiment of the present invention; and - Figures 3a and 3b show different ways for echo cancellation according to the present invention.

Figure 1 shows a first embodiment of a device 1 according to the present invention, designated as USB data acquisition converter. The device comprises a dedicated hardware 2 which is coupled to a PC 4 by means of a USB cable 3. The device 1 also comprises connections 5, 6 for respective video and audio recording means 7, 8. The PC 4 comprises a motherboard and data storage media on which a server software development kit 10 runs, whereby the PC 4 is able to control the dedicated hardware 2 . This is arranged for converting the signals of the video and audio recording means 7, 8 into coded and compressed data (such as h264) stream that is sent by the server software development kit 10 to a client SDK similar to 11 remotely via the internet 15 with which the video images are to be exchanged, the client SDK 11 then obtains from a Server software development kit similar to 10 via the internet 15 an encrypted and compressed data stream after which the client SDK 11 will decompress and decrypt it into the original data and will then present this information to the audio and video cards 12, 13 present on the PC 4 for display on the display device 14.

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Figure 2a shows an embodiment of a device according to the present invention. The device is here combined with a camera 21 so as to form a USB camera or USB PTZ camera. In another embodiment shown, the device 20 according to the invention is integrated in the PC, wherein the coupling, however, takes place via the USB port or bus 22. This embodiment also provides connections for coupling peripheral devices 7 and 8 from figure 1.

Figure 2b describes an embodiment of the present invention that is similar to that of Figure 2a wherein the onboard converter 30, in contrast to the embodiment of Figure 2a, is provided with a Mini-jack (e.g. headset PC or microphone input) and headphone output with the corresponding signal levels.

Figure 3a shows the device from Figure 1, provided with a first form of echo cancellation. In this first form, the sound from the audio card 12 is directly compared to the sound supplied by the microphone 8, because there is a direct connection 16 between the audio card and the microphone.

Figure 3b shows the device of Figure 1, with an alternative to the echo cancellation of Figure 3a, the audio data decompressed and decoded by the client SDK 11 is supplied to both the audio card 12 and the dedicated hardware 2 via the USB cable 3. The connection 17 which is drawn directly between the audio card 12 and the dedicated device 2 means the coupling described in the previous sentence.

In addition to the embodiments and fields of application shown, there are many applications for the present invention. The device can be combined with an external video and audio connection and with a camera to provide a USB camera equipped with hardware compression, and the device can, however, be integrated on a motherboard of a PC. These and other embodiments are described in the following claims.

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Claims (12)

Device for real-time coding and compressing a signal, comprising: - dedicated hardware for coding and compressing signals; 5. means for linking the dedicated hardware with an external port of a PC, in particular a laptop. Device as claimed in claim 1, wherein the dedicated hardware is provided with a data acquisition device for coupling with analog signals. 10 The device of claim 1, wherein the dedicated hardware is provided with an image recording means, such as a CCD or CMOS sensor. Device as claimed in any of the foregoing claims, provided with a microphone. 15 Device according to one of the preceding claims, provided with a loudspeaker (connection). 6. Device as claimed in any of the foregoing claims, wherein the dedicated hardware and / or hardware associated with the PC is also configured for suppressing noise and / or echo Device as claimed in any of the foregoing claims, wherein the means for coupling to an external port comprise a USB connector. 25 Device as claimed in claim 7, wherein the USB connector also serves for transferring a supply voltage for the device. 9. Device as claimed in any of the foregoing claims, wherein the device is accommodated in a portable housing, in particular a housing smaller than 10 x 10 x 2 cm, and preferably smaller than 10 x 5 x 1 cm. An assembly of a device according to any one of the preceding claims and a data carrier with software for the PC, wherein the software is adapted to provide a driver for the dedicated hardware for operation of the dedicated hardware by the PC. 5 An assembly according to claim 10, wherein the software is adapted to set up a signal connection with the PC, the dedicated hardware compressing signals. An assembly of a device according to any of claims 1-6 and a PC.