NO343602B1 - Procedure and video conferencing system for upgrading professional digital signage screens for use as full video conferencing and telepresence systems without the use of a separate communication device - Google Patents

Description

Technical area

The invention relates to a method for upgrading professional digital signage screens so that they can also be used as full-fledged systems for video conferencing and telepresence, among other things for meeting rooms and teaching, where the connection of one or more video conference cameras is the only necessary additional equipment so that an almost unlimited number of virtual meeting participants can call in from all types of machine devices, and all types of communication protocols, without the connection of additional communication devices being necessary. The invention also relates to a corresponding video conference system.

Background

While communication protocols and platforms have changed significantly, the actual structure of video conferencing systems for meeting rooms has remained practically unchanged since the 1990s. For large meeting rooms, separate units (codecs) are used for coding and decoding of video, audio and data before and after transmission over the Internet or virtual private networks. The codecs are mounted in a cabinet under or behind one or more large screens, which together with one or more cameras and speakers form part of the system. Operation takes place with a separate remote control with operating buttons or touch screen.

For medium-sized and smaller meeting rooms, the "Set Top" systems that were introduced in the late 1990s are still popular. The solution consists of a video camera and codec built together in a box that is placed on top of a standard large screen that the customer acquires separately for connecting the Set Top and the device with a cable. A remote control with operating buttons is included in the system.

For organizations that want to save money, it is common to install a permanent PC in the meeting room and download a software client. A screen, a standard video conference camera and standard keyboard with mouse are connected with a USB cable, where the latter is used to operate the system.

The analysis company Wainhouse Research, Boston specializes in following the video conferencing market worldwide, and publishes comprehensive reports every year on trends and developments in the video conferencing market with statements and wishes from users and user groups. The reports show that the number of installed meeting room systems showed a marked decline from 2010 to 2013, when they began to increase again. This coincides with a sharp increase in portable devices used for visual meetings and that many existing users say that they expect meeting room solutions to be made simpler, cheaper and more open, that loose cables in meeting rooms should be avoided and that the systems must be adapted to be used by different people with varying skills to operate a video conferencing system.

In the present invention, this is the basis.

US 20120293602 (application of 16 February 2012) describes a telepresence system with unified communication for audio and video conferences in an Entreprise Network (intranet) system.

The system consists of a separate control system and user interface that is connected to one or more separate display screens, i.e. a conventional structure of a video conference system as described above.

WO 2013056756 (application) describes a method for providing visual information about the participants in a video meeting and contains requirements in connection with the identification of the meeting participants.

KR 20130030066 describes a system to remedy video conferences in remote locations. US 2014354761 describes methods for users of computers, tablets and smartphones to enable "pairing" of their devices with applications for such devices. US 2014/0241216 includes a portable system with concrete functions, which may be to organize contact persons.

US 2014/184725 Shows a telephone with video capability and projection, network, video-audio capture and conferencing module and a processor configured to capture an image and the voice of a local user to generate local data.

US 2014/0092199 shows a television with a video function and a method for video conferencing using a telephone.

US 2014/0176664 Shows a projector with a function for video conferencing and a method for video conferencing using an image projector.

US 2002/0071026 Shows an apparatus for video conferencing between several networks where a processor assesses the user platform of a meeting participant and obtains from a database the necessary prerequisites for participation in the video meeting to take place.

US 2008/0088693 Method for content transfer and device that uses video conferencing and that supports the transfer of content between a majority of video devices connected to the network, and in particular in relation to the transfer of content as well as video and audio signals in a VoIP-based video conferencing device.

US 2013/0027504 concerns the preview of video data for video conferencing.

CN 203164829 U describes an "all-in-one" ("all-in-one") machine as a wireless high-definition transmission display smart machine with a multi-use model wireless HD transmission display that includes "Android system" connection modules and/or a module for Windows system touch screen, a camera module, a 3D infrared radiation plate, where the camera is also developed to be adapted for Internet use, as video features of video conferencing systems are connected to the camera. It is stated that this multi-purpose model can be used to replace, among other things, digital signage screens.

None of the above-mentioned patents, applications or products launched on the market touch the same area as the present invention.

Summary

The invention relates to a method and a video conferencing system for upgrading professional digital signage screens to also be used as full-fledged systems for video conferencing and telepresence, among other things for meeting rooms and teaching, where the connection of one or more video conferencing cameras is the only additional equipment necessary for an almost unlimited number of virtual meeting participants can call in from all types of systems and communication protocols. No connection of additional communication devices is required.

The invention relates to a method and a video conferencing system as stated in the patent claims.

Brief description of the drawings

In order to make the invention easier to understand, the following discussion will refer to the accompanying drawings, in which

Figure 1 illustrates a System on Chip (SoC) for a digital display screen that can also function as an end point for professional video conferencing / telepresence.

Figure 2 illustrates the parts of a digital display screen upgraded to professional video conferencing / telepresence.

Figure 3 shows an arrangement of the functionality in the display device, online cloud and video-as-a-service provider.

Figure 4 shows the inter-operability possibilities for a fully upgraded screen connected to the internet or a virtual private network.

Detailed description

In the following, the present invention is reviewed by describing preferred embodiments together with reference to the attached drawings. Those skilled in the art will be able to find other applications and modifications within the scope of the invention as defined in the independent claims.

The purpose of the invention is to configure and upgrade digital signage screens in production, so that they can function as both conventional digital signage and independent, professional point-to-point video conferencing systems, as well as endpoints for advanced video conferencing in the cloud by only connecting to one or more video conference cameras, but without connecting external devices or codec boxes. The choice of what the screens are to be used for is thus made by the user even after the screens leave the production site.

If a user chooses to use their screen for video conferencing, the area of use will include the following main functions:

i) Point-to-point HD video conference with a minimum of 720p resolution (HD) and at least 30 fps (frames per second) against any type of video conference system, PC, Mac or Android-based device,

ii) Multi-party video conferences in HD, where an unlimited number of participants see and hear each other at the same time,

iii) Point-to-point and multi-party video conferences such as i) and ii) above between participants using different types of equipment and different communication platforms, which

a. Conventional video conferencing systems available on the market, both H.323 and SIP-based,

b. PC, Mac and Android portable devices (full video, audio and interaction functionality),

c. Microsoft Lync (full video, audio and interaction functionality),

d. Microsoft SKYPE (full video, audio and interaction functionality),

e. Landlines (audio only),

f. Smartphones (audio or full video, audio and interaction functionality)

iv) Standard HD (720 and 1080p) video conference cameras for USB or other standard connection can be connected,

v) The invention enables the screens, when connected to the network, to automatically seek connection to preferred networks, including through a video client with routing options,

vi) Additional functions for interaction in video meetings and teaching, both local and remote, including where people can transfer content from their hand-held devices to the large screen in the central room, where it can be edited and sent back to the participants in the local meeting or classroom and to the participants via the Internet.

vii) Transmission of a video call that is in progress on a handheld device of the type PC, Mac, Android or other platform, to the system's screen, camera and audio without being interrupted.

viii) Other functions not mentioned or invented will be able to be upgraded in software over the Internet.

For a person skilled in the art who will practice the invention, it is valuable to note that Digital Signage screens are designed to receive information over the Internet to be displayed locally on the screen (in hotel receptions, at airports in shops and the like). Therefore, digital display screens are designed to be left on 24/7 without being damaged, and they can be remotely controlled, configured and upgraded over the network with RS232 or other interfaces. These displays also have relatively powerful processors built in that run Linux, Pro Linux, Android or other widely used operating system, which makes them suitable for the necessary coding for professional video conferencing. They also support HTML5, a language for structuring and presenting content on the Word Wide Web, and they can be upgraded to a "touch screen" function by plugging in a touch plate on one of the available USB connectors.

On the other hand, digital signage screens usually do not support two-way communication with a video camera, which is a basic feature of a video conference system.

Digital signage screens use System on Chip / SoC in their processing part, and the practice of the invention places the following requirements on such:

a) Structure as illustrated in Figure 1

b) Support for the necessary codecs and standards for both video and audio

c) Sufficient processing power

d) Support for camera

Figure 1 shows the layout of the SoC that will work for both advanced video conferencing and digital signage.

Necessary standards and codecs for video and audio that must be supported are:

H.264/AVC which is a modern standard for video compression identical to MPEG-4 Part 10. It must be supported in both 720p and 1080p and at least 30 fps (frames per second). Current audio codecs such as OGG Vorpis and OPUS should be used. WebRTC uses the two audio codecs G.711 and OPUS. SIP and H.323 based videoconferencing most often use G.711 (telephone audio), and one of either G722, G.722.1, G.722.1C, Siren or AAC-LD should be used to achieve the best possible sound.

Audio codecs are characterized by the fact that they are not particularly resource-intensive in terms of CPU power and therefore these can and should be implemented in the system's software to enable and simplify later upgrading over the network after the systems have been put into use by the end customer.

In order for the invention to be implemented, the SoC must contain a hardware-accelerated VP8 encoder/decoder because it works interactively with the browsers Google Chrome and/or Mozilla Firefox, which in turn support the cloud-based functions that the invention must be able to perform.

The invention can be practiced in two ways:

1. The WebRTC specifications in http://ww.w3org/TRwebrtc/ are fully implemented in the SoC, so that the video signals from the camera can be encoded in the display unit (SoC). WebRTC corresponds to H.264/5.

WebRTC supports the browser-to-browser applications voice calling, video chat, and Point-to-Point file sharing without having to use either internal or external plug-ins.

2. Google Chrome is supported by the display platform in the display unit's SoC.

A professional for digital display screens will be able to deal with this and relate the information to the production of own systems.

In order for a high-quality HD camera with PTZ (Pan Tilt Zoom) with USB connection to an advanced video conferencing system to work together with the SoC, it must support two-way communication between the software in the system and the camera as follows:

● Take in and process the video signals from the camera and audio from the system's microphone ● Encode video and audio in a known format, such as VP8 or H.264, either in the hardware or the software – preferably in the software because this simplifies remote upgrades of the systems over time at the user site ,

● Send encoded video and audio over the network

● Receive encoded video and audio from the network

● Decode video and audio

● Show the video on the screen and play back the audio in the speakers

Claims (5)

PATENT CLAIMS 1. Procedure for upgrading a digital signage display screen to function for video conferencing and telepresence services in a video conferencing system, by connecting one or more cameras as the only necessary additional equipment, where the screen includes a System on Chip, SoC, in its processing part, and is upgraded characterized by: - that the SoC is configured to provide support for video codecs and standards for both video, audio and data, to encode video, audio and data in a known format, and decode video, audio and data, - to work interactively with a browser by a hardware-accelerated encoder / decoder, to send encoded video, audio and data over a network, and receive encoded video, audio and data from such networks, - to support two-way communication between a software in the video conferencing system and a camera that is connected to the screen to receive and process video signals from the camera, audio signals from the video conferencing system's microphones, - to display video on the screen, play back audio in the speakers and other data from other sources and coordinate such information into a meaningful format. 2. Method for upgrading screens according to claim 1, where virtual meeting participants using different machines and communication protocols can be connected to joint video meetings by calling, or being called, characterized in that the SoC is configured to be able to communicate with servers for multi-user meetings and communication platforms of different types. 3.Procedure for upgrading digital signage screens according to requirements 1 - 2, with additional functions that enable meeting participants to transfer content to and from meeting rooms and portable devices associated with a meeting while it is in progress and without interrupting it, by the screen's SoC provides support for various transfer methods as users share the content to and from their portable devices with the other participants in the video meeting during a video meeting. Procedure for upgrading digital signage screens according to requirements 1 - 3, with additional functions for interaction and teaching, both local and remote, where content shared between participants can be processed and changed by all participants in such a video meeting by providing support for connection to the screen's SoC to Apps and solutions for multi-user processing and changes. 5. Video conferencing system comprising a digital signage display screen that has been upgraded to function for video conferencing and Telepresence services, by connecting one or more cameras as the only necessary additional equipment, where the screen includes a System on Chip, SoC, in its processing part, as the screen has been upgraded and configured characterized by: - that the SoC is configured to provide support for video codecs and standards for both video, audio and data, to encode video, audio and data in a known format, and decode video, audio and data, - that the SoC works interactively with the browser via a hardware-accelerated encoder/decoder, to send encoded video, audio and data over a network, and receive encoded video, audio and data from such networks, - that the SoC supports two-way communication between a software in the video conferencing system and a camera that is connected to the screen to receive and process video signals from the camera, as well as audio signals from the video conferencing system's microphones, and - that the SoC is configured to display video, play back audio in the speakers and other data from other sources and coordinate such information into a meaningful format.